| 23D1088 |
Adoption of sludge drying system with waste heat recovery to replace plate and frame filter press in sludge drying process to reduce solid waste generation
|
Textiles |
Drying/Heating |
DP(II) |
| 23D1057 |
Photocatalytic process coupled with physical-chemical processes for the treatment of organic wastewater and acid-alkaline wastewater in electronic component production to enhance the effluent quality
|
Metal and Metal Products |
Others |
DP(II) |
| 23D1056 |
E09-Use of energy efficient oil-free magnetic-bearing centrifugal blower in aeration process for wastewater treatment to save energy
|
Textiles |
Wasterwater pre-treatment |
DP(I) |
| 22D1035 |
A03-Installation of an exhaust air treatment system using chemical scrubbing to reduce volatile organic compounds (VOC) emissions from paint spraying process
|
Chemical Products |
Paint spraying |
DP(I) |
| 23D1145 |
E13-Waste heat recovery of compressed air systems to recover rejected heat and produce hot water for industrial process
|
Food and Beverage |
Compressed air system |
DP(I) |
| 23D1143 |
Using ultraviolet (UV) photo-catalytic oxidation and chemical scrubbing technologies to reduce volatile organic compounds (VOC) emissions from plastic manufacturing process
|
Metal and Metal Products |
Plastic processing |
DP(II) |
| 23D1132 |
Installation of automatic cleaning system replacing the manual cleaning of rubber blanket in printing process to save solvent and reduce volatile organic compounds (VOC) emissions
|
Paper and Paper Products |
Printing |
DP(II) |
| 23D1121 |
Using selective catalytic reduction (SCR) technology to treat flue gas and reduce air pollutant emissions
|
Non-metallic Mineral Products |
Boiler |
DP(II) |
| 23D1037 |
Using a combination of modified polysulfone (MPSF) ultrafiltration (UF) membrane system, reverse osmosis (RO) and ion exchange for electrophoretic paint recycling
|
Metal and Metal Products |
Film laminating/Coating |
DP(II) |
| 21D0868 |
E14-Use of energy efficient water-cooled chiller equipped with oil-free magnetic-bearing centrifugal compressor to save energy
|
Food and Beverage |
Compressed air system |
DP(I) |
| 24D1235 |
E21-Using centrifugal blower with permanent magnet motor and built-in variable speed drive (VSD) feature to replace blower to save energy for drying process
|
Metal and Metal Products |
Drying/Heating |
DP(I) |
| 24D1233 |
A15-Installation of ultraviolet (UV) printing and curing machine to replace conventional solvent-based printing machine to reduce volatile organic compounds (VOC) emissions
|
Chemical Products |
Printing |
DP(I) |
| 24D1234 |
E21-Using centrifugal blower with permanent magnet motor and built-in variable speed drive (VSD) feature to replace blower to save energy for drying process
|
Metal and Metal Products |
Drying/Heating |
DP(I) |
| 24D1301 |
Adopting Vertical Continuous Plating (VCP) line to reduce wastewater discharge
|
Metal and Metal Products |
Others |
DP(II) |
| 24D1231 |
Adoption of electrostatic precipitator to reduce volatile organic compounds (VOC) emissions from coating process
|
Non-metallic Mineral Products |
Others |
DP(II) |
| 23D1125 |
Using digital cutting machine to replace the traditional longitudinal and transverse cutting machine in printing process to reduce solid waste generation
|
Printing and Publishing |
Printing |
DP(II) |
| 22D0930 |
Using low liquor ratio dyeing machine for cotton and cotton blended fabric to reduce water consumption
|
Textiles |
Dyeing |
DP(II) |
| 22D0998 |
Use of resin adsorption and steam desorption system to remove volatile organic compounds (VOC) in exhaust gas from pharmaceutical process
|
Chemical Products |
Pharmaceutical |
DP(II) |
| 21D0883 |
Utilization of a low-temperature vacuum evaporator for the scale-down of the industrial waste stream generated during processing
|
Printing and Publishing |
Wasterwater pre-treatment |
DP(II) |
| 24D1289 |
Using computer numerical control (CNC) cutting production line to replace traditional semi-automatic cutting machine in sponge slicing process to reduce solid waste generation
|
Generic application |
Others |
DP(II) |
| 24D1293 |
Using energy efficient continuous furnace to replace traditional furnace for copper tube casting process to enhance operation efficiency and save energy
|
Metal and Metal Products |
Others |
DP(II) |
| 24D1281 |
Heat recovery from regenerative thermal oxidizer to save energy
|
Chemical Products |
Energy saving |
DP(II) |
| 24D1274 |
Use of energy efficient heat pump system to save energy
|
Chemical Products |
Others |
DP(II) |
| 24D1296 |
Using the closed circuit cooling tower for plastic injection moulding machines cooling system to save energy consumption
|
Metal and Metal Products |
Blow moulding / Injection moulding |
DP(II) |
| 24D1264 |
Using centrifugal suction fan with permanent magnet motor and built-in variable speed drive (VSD) feature to save energy for dust collection
|
Metal and Metal Products |
Energy saving |
DP(II) |
| 24D1261 |
Adoption of evaporative condenser and pre-cooling evaporator double-effect linkage system to improve system operation efficiency and save energy
|
Printing and Publishing |
Others |
DP(II) |
| 24D1295 |
Installation of digital printing machine to replace conventional printing machine to reduce volatile organic compounds (VOC) emissions
|
Paper and Paper Products |
Printing |
DP(II) |
| 24D1300 |
Installation of rubber blanket automatic cleaning system in printing process to replace manual cleaning to reduce volatile organic compounds (VOC) emissions
|
Printing and Publishing |
Printing |
DP(II) |
| 24D1294 |
Installation of rubber blanket automatic cleaning system in printing process to replace manual cleaning to reduce volatile organic compounds (VOC) emissions
|
Printing and Publishing |
Printing |
DP(II) |
| 24D1265 |
Installation of automatic edge spraying machine to replace manual glue spraying in glue spraying process to reduce volatile organic compounds (VOC) emissions
|
Metal and Metal Products |
Glue spreading |
DP(II) |
| 24D1285 |
W01-Use of low-temperature evaporator to reduce wastewater discharge.
|
Metal and Metal Products |
Wasterwater pre-treatment |
DP(I) |
| 24D1258 |
E21-Using centrifugal blower with permanent magnet motor and built-in variable speed drive (VSD) feature to replace blower to save energy for drying process
|
Metal and Metal Products |
Drying/Heating |
DP(I) |
| 24D1256 |
E21-Using centrifugal blower with permanent magnet motor and built-in variable speed drive (VSD) feature to replace blower to save energy for drying process
|
Metal and Metal Products |
Drying/Heating |
DP(I) |
| 24D1250 |
E21-Using centrifugal blower with permanent magnet motor and built-in variable speed drive (VSD) feature to replace blower to save energy for drying process
|
Metal and Metal Products |
Drying/Heating |
DP(I) |
| 24D1242 |
E21-Using centrifugal blower with permanent magnet motor and built-in variable speed drive (VSD) feature to replace blower to save energy for drying process
|
Metal and Metal Products |
Drying/Heating |
DP(I) |
| 24D1287 |
E18-Using energy efficient infrared heating coils for plastic injection moulding machines to save energy
|
Chemical Products |
Blow moulding / Injection moulding |
DP(I) |
| 24D1279 |
E18-Using energy efficient infrared heating coils for plastic injection moulding machines to save energy
|
Metal and Metal Products |
Blow moulding / Injection moulding |
DP(I) |
| 24D1299 |
E16- Adoption of central control and monitoring system (CCMS) to enhance centralised air-conditioning system operation efficiency and save energy
|
Textiles |
Central air conditioning |
DP(I) |
| 24D1283 |
E16- Adoption of central control and monitoring system (CCMS) to enhance centralised air-conditioning system operation efficiency and save energy
|
Metal and Metal Products |
Central air conditioning |
DP(I) |
| 24D1291 |
E09-Use of energy efficient oil-free magnetic-bearing centrifugal blower in aeration process for wastewater treatment to save energy
|
Textiles |
Wasterwater pre-treatment |
DP(I) |
| 24D1249 |
E07-Using non-invasive electromagnetic scale control system to prevent limescale formation and enhance heat transfer efficiency of the cooling systems of plastic injection moulding machines
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 24D1280 |
E02-Replacing multiple standalone vacuum pumps with centralised vacuum system employing variable speed drive for achieving optimal efficiency and saving energy
|
Chemical Products |
Central air conditioning |
DP(I) |
| 24D1276 |
E02-Replacing multiple standalone vacuum pumps with centralised vacuum system employing variable speed drive for achieving optimal efficiency and saving energy
|
Printing and Publishing |
Central air conditioning |
DP(I) |
| 24D1282 |
A15-Installation of ultraviolet (UV) printing and curing machine to replace conventional solvent-based printing machine to reduce volatile organic compounds (VOC) emissions
|
Printing and Publishing |
Printing |
DP(I) |
| 24D1275 |
A15-Installation of ultraviolet (UV) printing and curing machine to replace conventional solvent-based printing machine to reduce volatile organic compounds (VOC) emissions
|
Metal and Metal Products |
Printing |
DP(I) |
| 24D1272 |
A15-Installation of ultraviolet (UV) printing and curing machine to replace conventional solvent-based printing machine to reduce volatile organic compounds (VOC) emission
|
Chemical Products |
Printing |
DP(I) |
| 24D1288 |
A06-Adoption of ultra-violet (UV) photocatalytic oxidation technology to reduce volatile organic compounds (VOC) emissions from plastic injection moulding process
|
Non-metallic Mineral Products |
Plastic processing |
DP(I) |
| 24D1262 |
A02-Installation of automatic screen printing system replacing the conventional manual screen printing to save paint and solvent and reduce volatile organic compounds (VOC) emissions
|
Textiles |
Screen printing |
DP(I) |
| 24D1290 |
Adoption of an exhaust treatment system using zeolite rotor concentrator and catalytic oxidation technologies to reduce volatile organic compounds (VOC) emissions from paint production process
|
Chemical Products |
Paint spraying |
DP(II) |
| 24D1286 |
Using oil mist recovery air purifier to reduce volatile organic compounds (VOC) emissions from machining process.
|
Metal and Metal Products |
Machining |
DP(II) |
| 24D1284 |
Adoption of an exhaust treatment system using zeolite rotor concentrator and catalytic oxidation technologies to reduce volatile organic compounds (VOC) emissions from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP(II) |
| 24D1278 |
Installation of an exhaust air treatment system using spray scrubber and biological trickling filtration system to reduce volatile organic compounds (VOC) emissions from the distillation recovery system
|
Chemical Products |
Others |
DP(II) |
| 24D1271 |
Installation of a composite exhaust air treatment system using chemical scrubbing and activated carbon adsorption to reduce volatile organic compounds (VOC) emissions from electronic product manufacturing process
|
Metal and Metal Products |
Others |
DP(II) |
| 24D1270 |
Adoption of an exhaust treatment system using zeolite rotor concentrator and catalytic oxidation technologies to reduce volatile organic compounds (VOC) emissions from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP(II) |
| 24D1267 |
E12-Energy efficient UV-LED powered printed circuit board (PCB) solder mask exposure machine
|
Metal and Metal Products |
PCB manufacturing |
DP(I) |
| 24D1266 |
Use a Low-Temperature Evaporator to Reduce Wastewater Discharge.
|
Metal and Metal Products |
Others |
DP(II) |
| 24D1263 |
A15-Installation of ultraviolet (UV) printing and curing machine to replace conventional solvent-based printing machine to reduce volatile organic compounds (VOC) emissions
|
Metal and Metal Products |
Printing |
DP(I) |
| 24D1260 |
Use waste liquid recycling machines to reuse developer and stripping solution, to reduce waste liquid discharge during the production process of circuit boards.
|
Metal and Metal Products |
PCB manufacturing |
DP(II) |
| 24D1259 |
E06-Using non-invasive electromagnetic scale control system to prevent limescale formation and enhance heat transfer efficiency of cooling tower of centralised air-conditioning system
|
Metal and Metal Products |
Central air conditioning |
DP(I) |
| 24D1252 |
E02-Replacing multiple standalone vacuum pumps with centralised vacuum system employing variable speed drive for achieving optimal efficiency and saving energy
|
Paper and Paper Products |
Central air conditioning |
DP(I) |
| 24D1251 |
Adoption of an exhaust treatment system using zeolite rotor concentrator and catalytic oxidation technologies to reduce volatile organic compounds (VOC) emissions from paint spraying process
|
Chemical Products |
Paint spraying |
DP(II) |
| 24D1248 |
Use a Low-Temperature Evaporator to Reduce Wastewater Discharge.
|
Chemical Products |
Others |
DP(II) |
| 24D1246 |
E06-Using non-invasive electromagnetic scale control system to prevent limescale formation and enhance heat transfer efficiency of cooling tower of centralised air-conditioning system
|
Non-metallic Mineral Products |
Central air conditioning |
DP(I) |
| 24D1245 |
E02-Replacing multiple standalone vacuum pumps with centralised vacuum system employing variable speed drive for achieving optimal efficiency and saving energy
|
Printing and Publishing |
Central air conditioning |
DP(I) |
| 24D1241 |
A08-Installation of composite exhaust air treatment system using a combination of ultra-violet (UV) photocatalytic oxidation and activated carbon adsorption to reduce volatile organic compounds (VOC) emissions from injection moulding process
|
Chemical Products |
Injection moulding |
DP(I) |
| 24D1240 |
Adoption of evaporative condenser and pre-cooling evaporator double-effect linkage system to improve system operation efficiency and save energy
|
Printing and Publishing |
Energy saving |
DP(II) |
| 24D1239 |
Adoption of an exhaust treatment system using zeolite rotor concentration and regenerative thermal oxidation technologies to reduce VOCs emission from printing process
|
Printing and Publishing |
Printing |
DP(II) |
| 24D1230 |
Using oil mist recovery air purifier to reduce volatile organic compounds (VOC) emissions from machining process.
|
Metal and Metal Products |
Machining |
DP(II) |
| 24D1228 |
Adoption of electrical commutation centrifugal fan in air handling system to improve system operation efficiency and save energy
|
Metal and Metal Products |
Central air conditioning |
DP(II) |
| 24D1227 |
E16- Adoption of central control and monitoring system (CCMS) to enhance centralised air-conditioning system operation efficiency and save energy
|
Printing and Publishing |
Central air conditioning |
DP(I) |
| 24D1225 |
Adoption of evaporative condenser and pre-cooling evaporator double-effect linkage system to improve system operation efficiency and save energy
|
Printing and Publishing |
Energy saving |
DP(II) |
| 24D1220 |
Adoption of an exhaust treatment system using zeolite rotor concentrator and catalytic oxidation technologies to reduce volatile organic compounds (VOC) emissions from paint spraying process
|
Chemical Products |
Paint spraying |
DP(II) |
| 24D1215 |
Using centrifugal blower with permanent magnet motor and built-in variable speed drive (VSD) feature to replace blower to save energy for drying process
|
Metal and Metal Products |
Drying/Heating |
DP(II) |
| 24D1214 |
Utilization of low liquor ratio beam dyeing machine for textile dyeing to reduce water consumption
|
Textiles |
Dyeing |
DP(II) |
| 24D1212 |
Using centrifugal blower with permanent magnet motor and built-in variable speed drive (VSD) feature to replace blower to save energy for drying process
|
Metal and Metal Products |
Drying/Heating |
DP(II) |
| 24D1200 |
Use of a combination of activated carbon concentrator and regenerative catalytic oxidation technologies to remove volatile organic compounds (VOC) in exhaust gas from electronic product manufacturing process
|
Metal and Metal Products |
Others |
DP(II) |
| 24D1199 |
E04-Adopting energy optimization system for air conditioners to save energy
|
Non-metallic Mineral Products |
Central air conditioning |
DP(I) |
| 23D1174 |
Adoption of an exhaust treatment system using zeolite adsorption with bag filter technology, automatic desorption, and regenerative catalytic oxidation technology to reduce volatile organic compounds (VOC) emissions from plastic product manufacturing
|
Chemical Products |
Blow moulding / Injection moulding |
DP(II) |
| 24D1198 |
E04-Adopting energy optimisation system for air conditioners to save energy
|
Metal and Metal Products |
Central air conditioning |
DP(I) |
| 23D1091 |
Adoption of low nitrogen oxides (NOx) burners in industrial furnace to reduce air pollutant emissions
|
Metal and Metal Products |
Boiler |
DP(II) |
| 23D1093 |
Applying insulation coating on dyeing tank to reduce heat loss and save energy
|
Textiles |
Dyeing |
DP(II) |
| 22D0981 |
Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove volatile organic compounds (VOC) in exhaust gas from electronic product manufacturing process
|
Metal and Metal Products |
PCB manufacturing |
DP(II) |
| 23D1119 |
A19-Application of low nitrogen oxides (NOx) burner on natural gas-fired boiler to reduce NOx emissions
|
Textiles |
Boiler |
DP(I) |
| 23D1079 |
A19-Application of low nitrogen oxides (NOx) burner on natural gas-fired boiler to reduce NOx emissions
|
Food and Beverage |
Boiler |
DP(I) |
| 23D1064 |
A02-Installation of automatic screen printing system replacing the conventional manual screen printing to save paint and solvent and reduce volatile organic compounds (VOC) emissions
|
Printing and Publishing |
Screen printing |
DP(I) |
| 23D1127 |
Using selective catalytic reduction (SCR) technology to treat flue gas and reduce air pollutant emissions
|
Textiles |
Boiler |
DP(II) |
| 23D1061 |
A02-Installation of automatic screen printing system replacing the conventional manual screen printing to save paint and solvent and reduce volatile organic compounds (VOC) emissions
|
Textiles |
Screen printing |
DP(I) |
| 23D1053 |
Utilization of briquetting machine and low-temperature vacuum evaporator to collect and reduce waste cutting fluid during metal machining process
|
Metal and Metal Products |
Machining |
DP(II) |
| 23D1105 |
Using CNC cutting production line to replace the traditional semi-automatic disc flat cutting machine in sponge slicing process to reduce solid waste generation
|
Furniture |
Others |
DP(II) |
| 22D1019 |
A17-Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove volatile organic compounds (VOC) in exhaust gas from printing process
|
Metal and Metal Products |
Printing |
DP(I) |
| 23D1054 |
A11-Use of composite treatment system using ultra-violet (UV)-degradation and activated carbon adsorption technologies to reduce volatile organic compounds (VOC) emissions from printing and screen printing process
|
Metal and Metal Products |
Screen printing |
DP(I) |
| 23D1155 |
Using laser direct imaging (LDI) exposure machine to replace traditional film exposure machine to reduce solid waste generation and save energy consumption
|
Metal and Metal Products |
Others |
DP(II) |
| 23D1148 |
E03-Replacing multiple standalone compressed air network with centralised compressed air network employing central controller and variable speed drive for achieving operation efficiency and saving energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 23D1149 |
E03-Replacing multiple standalone compressed air network with centralised compressed air network employing central controller and variable speed drive for achieving operation efficiency and saving energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 23D1115 |
Installation of automatic edge spraying machine to replace manual glue spraying in glue spraying process to reduce volatile organic compounds (VOC) emissions
|
Furniture |
Glue spreading |
DP(II) |
| 23D1110 |
Replacement of standalone dust removal fans to centralised dust removal system with variable speed drive (VSD) and automatic monitoring system to improve energy efficiency and save energy.
|
Metal and Metal Products |
Others |
DP(II) |
| 23D1108 |
A19-Application of low nitrogen oxides (NOx) burner on natural gas-fired boiler to reduce NOx emissions
|
Textiles |
Boiler |
DP(I) |
| 23D1160 |
E03-Replacing multiple standalone compressed air network with centralised compressed air network employing central controller and variable speed drive for achieving operation efficiency and saving energy
|
Chemical Products |
Compressed air system |
DP(I) |
| 23D1113 |
Installation of automatic edge spraying machine to replace manual glue spraying in glue spraying process to reduce volatile organic compounds (VOC) emissions
|
Textiles |
Glue spreading |
DP(II) |
| 23D1176 |
A19-Application of low nitrogen oxides (NOx) burner on natural gas-fired boiler to reduce NOx emissions
|
Metal and Metal Products |
Printing |
DP(I) |
| 23D1129 |
E03-Replacing multiple standalone compressed air network with centralised compressed air network employing central controller and variable speed drive for achieving operation efficiency and saving energy
|
Textiles |
Compressed air system |
DP(I) |
| 24D1190 |
A19-Application of low nitrogen oxides (NOx) burner on natural gas-fired boiler to reduce NOx emissions
|
Chemical Products |
Boiler |
DP(I) |
| 24D1195 |
Adoption of an exhaust treatment system using spraying, low-temperature plasma and activated carbon adsorption technologies to remove volatile organic compounds (VOC) in exhaust gas from wastewater treatment
|
Chemical Products |
Wasterwater pre-treatment |
DP(II) |
| 24D1232 |
A15-Installation of ultraviolet (UV) printing and curing machine to replace conventional solvent-based printing machine to reduce volatile organic compounds (VOC) emissions
|
Metal and Metal Products |
Printing |
DP(I) |
| 24D1193 |
Adoption of an exhaust treatment system using zeolite rotor concentrator and regenerative thermal oxidation technologies to reduce volatile organic compounds (VOC) emission from paint production line
|
Chemical Products |
Others |
DP(II) |
| 24D1191 |
Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove volatile organic compounds (VOC) in exhaust gas from rubber product manufacturing
|
Chemical Products |
Plastic processing |
DP(II) |
| 23D1177 |
Adoption of low nitrogen oxides (NOx) burners in industrial furnace to reduce air pollutant emissions
|
Metal and Metal Products |
Boiler |
DP(II) |
| 23D1151 |
Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove volatile organic compounds (VOC) in exhaust gas from printed circuit board manufacturing
|
Metal and Metal Products |
PCB manufacturing |
DP(II) |
| 24D1243 |
Utilization of printed textile continuous washing machine to reduce water consumption and effluent discharge
|
Textiles |
Laundry process |
DP(II) |
| 24D1223 |
Retrofitting rubber vulcanising machine with high efficiency movable heating plate to save energy
|
Chemical Products |
Energy saving |
DP(II) |
| 24D1210 |
Using centrifugal blower with permanent magnet motor and built-in variable speed drive (VSD) feature to replace blower to save energy for drying process
|
Metal and Metal Products |
Energy saving |
DP(II) |
| 23D1173 |
Using centrifugal blower with permanent magnet motor and built-in variable speed drive (VSD) feature to replace blower to save energy for drying process
|
Metal and Metal Products |
Drying/Heating |
DP(II) |
| 24D1207 |
Using magnetic fuel activators to enhance fuel combustion efficiency of gas-fired steam boilers to save energy
|
Food and Beverage |
Others |
DP(II) |
| 24D1197 |
Using twin-screw extrusion press machine to replace open mixer and press machine to save energy for rubber extrusion process
|
Metal and Metal Products |
Energy saving |
DP(II) |
| 23D1170 |
Adoption of hopper dryer with variable speed drive (VSD) and voltage control technology to save energy for plastic injection moulding process
|
Chemical Products |
Injection moulding |
DP(II) |
| 24D1219 |
Adoption of indoor air treatment system using zeolite adsorption and bag filter technology to reduce volatile organic compounds (VOC) emissions from electronic product manufacturing process
|
Metal and Metal Products |
Others |
DP(II) |
| 23D1147 |
Adoption of an exhaust treatment system using zeolite rotor concentrator and catalytic oxidation technologies to reduce volatile organic compounds (VOC) emissions from paint production process
|
Chemical Products |
Surface treatment |
DP(II) |
| 24D1222 |
E17-Adopting dynamic voltage regulation on three phase asynchronous motor to optimise the power factor for saving energy
|
Non-metallic Mineral Products |
Others |
DP(I) |
| 24D1192 |
E17-Adopting dynamic voltage regulation on three phase asynchronous motor to optimise the power factor for saving energy
|
Chemical Products |
Plastic processing |
DP(I) |
| 23D1171 |
E17-Adopting dynamic voltage regulation on three phase asynchronous motor to optimise the power factor for saving energy
|
Chemical Products |
Injection moulding |
DP(I) |
| 24D1204 |
E16- Adoption of central control and monitoring system (CCMS) to enhance centralised air-conditioning system operation efficiency and save energy
|
Non-metallic Mineral Products |
Central air conditioning |
DP(I) |
| 24D1203 |
E16- Adoption of central control and monitoring system (CCMS) to enhance centralised air-conditioning system operation efficiency and save energy
|
Non-metallic Mineral Products |
Central air conditioning |
DP(I) |
| 24D1202 |
E16- Adoption of central control and monitoring system (CCMS) to enhance centralised air-conditioning system operation efficiency and save energy
|
Non-metallic Mineral Products |
Central air conditioning |
DP(I) |
| 24D1194 |
E16- Adoption of central control and monitoring system (CCMS) to enhance centralised air-conditioning system operation efficiency and save energy
|
Textiles |
Central air conditioning |
DP(I) |
| 24D1218 |
E07-Using non-invasive electromagnetic scale control system to prevent limescale formation and enhance heat transfer efficiency of the cooling systems of plastic injection moulding machines
|
Chemical Products |
Others |
DP(I) |
| 24D1189 |
E07-Using non-invasive electromagnetic scale control system to prevent limescale formation and enhance heat transfer efficiency of the cooling systems of plastic injection moulding machines
|
Chemical Products |
Others |
DP(I) |
| 24D1188 |
E07-Using non-invasive electromagnetic scale control system to prevent limescale formation and enhance heat transfer efficiency of the cooling systems of plastic injection moulding machines
|
Chemical Products |
Others |
DP(I) |
| 24D1226 |
A15-Installation of ultraviolet (UV) printing and curing machine to replace conventional solvent-based printing machine to reduce volatile organic compounds (VOC) emissions
|
Chemical Products |
Printing |
DP(I) |
| 24D1224 |
A15-Installation of ultraviolet (UV) printing and curing machine to replace conventional solvent-based printing machine to reduce volatile organic compounds (VOC) emissions
|
Metal and Metal Products |
Film laminating/Coating |
DP(I) |
| 24D1209 |
A15-Installation of ultraviolet (UV) printing and curing machine to replace conventional solvent-based printing machine to reduce volatile organic compounds (VOC) emissions
|
Chemical Products |
Printing |
DP(I) |
| 24D1257 |
A15-Installation of ultraviolet (UV) printing and curing machine to replace conventional solvent-based printing machine to reduce volatile organic compounds (VOC) emissions
|
Printing and Publishing |
Printing |
DP(I) |
| 24D1238 |
A15-Installation of ultraviolet (UV) printing and curing machine to replace conventional solvent-based printing machine to reduce volatile organic compounds (VOC) emissions
|
Metal and Metal Products |
PCB manufacturing |
DP(I) |
| 24D1221 |
A03-Installation of an exhaust air treatment system using chemical scrubbing to reduce VOC emissions from paint spraying process
|
Chemical Products |
Paint spraying |
DP(I) |
| 24D1206 |
A02-Installation of automatic screen printing system replacing the conventional manual screen printing to save paint and solvent and reduce volatile organic compounds (VOC) emissions
|
Printing and Publishing |
Printing |
DP(I) |
| 23D6001 |
A19-Application of low nitrogen oxides (NOx) burner on natural gas-fired boiler to reduce NOx emissions
|
Printing and Publishing |
Boiler |
DP(I) |
| 23D1158 |
E03-Replacing multiple standalone compressed air network with centralised compressed air network employing central controller and variable speed drive for achieving operation efficiency and saving energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 23D1156 |
A15-Installation of ultraviolet (UV) printing and curing machine to replace conventional solvent-based printing machine to reduce volatile organic compounds (VOC) emissions
|
Printing and Publishing |
Printing |
DP(I) |
| 23D1141 |
A19-Application of low nitrogen oxides (NOx) burner on natural gas-fired boiler to reduce NOx emissions
|
Food and Beverage |
Boiler |
DP(I) |
| 23D1140 |
A15-Installation of ultraviolet (UV) printing and curing machine to replace conventional solvent-based printing machine to reduce volatile organic compounds (VOC) emissions
|
Chemical Products |
Printing |
DP(I) |
| 23D1134 |
A19-Application of low nitrogen oxides (NOx) burner on natural gas-fired boiler to reduce NOx emissions
|
Printing and Publishing |
Boiler |
DP(I) |
| 23D1133 |
E03-Replacing multiple standalone compressed air network with centralised compressed air network employing central controller and variable speed drive for achieving operation efficiency and saving energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 23D1131 |
A03-Installation of an exhaust air treatment system using chemical scrubbing to reduce volatile organic compounds (VOC) emissions from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP(I) |
| 23D1123 |
A19-Application of low nitrogen oxides (NOx) burner on natural gas-fired boiler to reduce NOx emissions
|
Chemical Products |
Boiler |
DP(I) |
| 23D1120 |
A15-Installation of ultraviolet (UV) printing and curing machine to replace conventional solvent-based printing machine to reduce volatile organic compounds (VOC) emissions
|
Chemical Products |
Printing |
DP(I) |
| 23D1116 |
A19-Application of low nitrogen oxides (NOx) burner on natural gas-fired boiler to reduce NOx emissions
|
Textiles |
Boiler |
DP(I) |
| 23D1114 |
E03-Replacing multiple standalone compressed air network with centralised compressed air network employing central controller and variable speed drive for achieving operation efficiency and saving energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 23D1109 |
A19-Application of low nitrogen oxides (NOx) burner on natural gas-fired boiler to reduce NOx emissions
|
Metal and Metal Products |
Boiler |
DP(I) |
| 23D1104 |
Installation of automatic cardboard laminating machine to replace manual lamination to reduce glue consumption and volatile organic compounds (VOC) emissions
|
Textiles |
Pasting/binding |
DP(II) |
| 23D1102 |
A15-Installation of ultraviolet (UV) printing and curing machine to replace conventional solvent-based printing machine to volatile organic compounds (VOC) emissions
|
Chemical Products |
Printing |
DP(I) |
| 23D1099 |
Use of heat-pipe steam generator to reclaim waste heat from high-temperature flue gas to produce steam and save energy
|
Textiles |
Boiler |
DP(II) |
| 23D1090 |
A19-Application of low nitrogen oxides (NOx) burner on natural gas-fired boiler to reduce NOx emissions
|
Chemical Products |
Boiler |
DP(I) |
| 23D1087 |
Installation of digital printing machine to replace conventional solvent-based ink printing machine to reduce volatile organic compounds (VOC) emissions
|
Printing and Publishing |
Printing |
DP(II) |
| 23D1086 |
A15-Installation of ultraviolet (UV) printing and curing machine to replace conventional solvent-based printing machine to reduce volatile organic compounds (VOC) emissions
|
Metal and Metal Products |
Printing |
DP(I) |
| 23D1083 |
E14- Use of energy efficient water-cooled chiller equipped with oilfree magnetic-bearing centrifugal compressor to save energy
|
Chemical Products |
Compressed air system |
DP(I) |
| 23D1082 |
E15-Installation of heat recovery devices on industrial hot blast ovens to save energy
|
Metal and Metal Products |
Energy saving |
DP(I) |
| 23D1081 |
A19-Application of low nitrogen oxides (NOx) burner on natural gas-fired boiler to reduce NOx emissions
|
Textiles |
Boiler |
DP(I) |
| 23D1080 |
E16- Adoption of central control and monitoring system (CCMS) to enhance centralised air-conditioning system operation efficiency and save energy
|
Chemical Products |
Central air conditioning |
DP(I) |
| 23D1078 |
E14-Use of energy efficient water-cooled chiller equipped with oil-free magnetic-bearing centrifugal compressor to save energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 23D1077 |
Use of dual-rotor spiral slitting machine to reduce solid waste generation
|
Printing and Publishing |
Papermaking |
DP(II) |
| 23D1076 |
E03-Replacing multiple standalone compressed air network with centralised compressed air network employing central controller and variable speed drive for achieving operation efficiency and saving energy
|
Textiles |
Compressed air system |
DP(I) |
| 23D1075 |
A19-Application of low nitrogen oxides (NOx) burner on natural gas-fired boiler to reduce NOx emissions
|
Chemical Products |
Boiler |
DP(I) |
| 23D1074 |
Use of permeable membrane, resin adsorption and steam desorption system to remove volatile organic compounds (VOC) in exhaust gas from pharmaceutical process
|
Chemical Products |
Film laminating/Coating |
DP(II) |
| 23D1073 |
A19-Application of low nitrogen oxides (NOx) burner on natural gas-fired boiler to reduce NOx emissions
|
Textiles |
Boiler |
DP(I) |
| 23D1072 |
E09-Use of energy efficient oil-free magnetic-bearing centrifugal blower in aeration process for wastewater treatment to save energy
|
Paper and Paper Products |
Wasterwater pre-treatment |
DP(I) |
| 23D1070 |
E11-Energy efficient two-stage rotary screw air compressor to save energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 23D1069 |
A19-Application of low nitrogen oxides (NOx) burner on natural gas-fired boiler to reduce NOx emissions
|
Textiles |
Boiler |
DP(I) |
| 23D1068 |
Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove volatile organic compounds (VOC) in exhaust gas from electronic product manufacturing process
|
Metal and Metal Products |
Others |
DP(II) |
| 23D1067 |
E11-Energy efficient two-stage rotary screw air compressor to save energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 23D1066 |
A02-Installation of automatic screen printing system replacing the conventional manual screen printing to save paint and solvent and reduce volatile organic compounds (VOC) emissions
|
Metal and Metal Products |
Screen printing |
DP(I) |
| 23D1065 |
E03-Replacing multiple standalone compressed air network with centralised compressed air network employing central controller and variable speed drive for achieving operation efficiency and saving energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 23D1062 |
A15-Installation of ultraviolet (UV) printing and curing machine to replace conventional solvent-based printing machine to reduce volatile organic compounds (VOC) emissions
|
Metal and Metal Products |
Printing |
DP(I) |
| 23D1060 |
A03-Installation of an exhaust air treatment system using chemical scrubbing to reduce VOC emissions from paint spraying process
|
Chemical Products |
Paint spraying |
DP(I) |
| 23D1059 |
E13-Waste heat recovery of compressed air systems to recover rejected heat and produce hot water for printed circuit board (PCB) plating process
|
Metal and Metal Products |
PCB manufacturing |
DP(I) |
| 23D1055 |
A09-Adoption of ultra-violet (UV) degradation technology to reduce volatile organic compounds (VOC) emissions from printing process
|
Textiles |
Printing |
DP(I) |
| 23D1052 |
A15-Installation of ultraviolet (UV) printing and curing machine to replace conventional solvent-based printing machine to reduce volatile organic compounds (VOC) emissions
|
Chemical Products |
Printing |
DP(I) |
| 23D1050 |
E16- Adoption of central control and monitoring system (CCMS) to enhance centralised air-conditioning system operation efficiency and save energy
|
Printing and Publishing |
Central air conditioning |
DP(I) |
| 23D1049 |
E11-Energy efficient two-stage rotary screw air compressor to save energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 23D1048 |
E09-Use of energy efficient oil-free magnetic-bearing centrifugal blower in aeration process for waste water treatment to save energy
|
Textiles |
Wasterwater pre-treatment |
DP(I) |
| 23D1047 |
A19-Application of low nitrogen oxides (NOx) burner on natural gas-fired boiler to reduce NOx emissions
|
Textiles |
Boiler |
DP(I) |
| 23D1046 |
Adoption of an exhaust treatment system using chemical scrubbing technology to reduce volatile organic compounds (VOC) emissions from plastic injection moulding process
|
Metal and Metal Products |
Injection moulding |
DP(II) |
| 23D1044 |
E10-Energy efficient rotary screw air compressor with permanent magnet motor and built-in variable speed drive (VSD) feature to save energy
|
Chemical Products |
Compressed air system |
DP(I) |
| 23D1043 |
Using high efficiency vertical feed pellet mill for biomass pelletising process to save energy
|
Non-metallic Mineral Products |
Energy saving |
DP(II) |
| 23D1042 |
Using inline colorimeter for mercerisation and washing to reduce water consumption
|
Textiles |
Others |
DP(II) |
| 23D1041 |
Adoption of an exhaust treatment system using zeolite rotor concentrator and regenerative thermal oxidation technologies to reduce VOCs emission from coating line
|
Metal and Metal Products |
Roller coating |
DP(II) |
| 23D1039 |
E11-Energy efficient two-stage rotary screw air compressor to save energy
|
Chemical Products |
Compressed air system |
DP(I) |
| 23D1038 |
A03-Installation of an exhaust air treatment system using chemical scrubbing to reduce volatile organic compounds (VOC) emissions from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP(I) |
| 22D1032 |
E15-Installation of heat recovery devices on industrial hot blast ovens to save energy
|
Chemical Products |
Energy saving |
DP(I) |
| 22D1031 |
E11-Energy efficient two-stage rotary screw air compressor to save energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 22D1027 |
Using cold-mixing process to replace hot-mixing process to save energy for emulsification process
|
Chemical Products |
Others |
DP(II) |
| 22D1025 |
A02-Installation of automatic screen printing system replacing the conventional manual screen printing to save paint and solvent and reduce volatile organic compounds (VOC) emissions
|
Printing and Publishing |
Screen printing |
DP(I) |
| 22D1023 |
E10-Energy efficient rotary screw air compressor with permanent magnet motor and built-in variable speed drive (VSD) feature to save energy
|
Chemical Products |
Compressed air system |
DP(I) |
| 22D1022 |
Use of energy efficiency heat pump system in electroplating tunnel furnace to save energy
|
Chemical Products |
|
DP(II) |
| 22D1021 |
Using energy efficient infrared heating coils for plastic injection moulding machines to save energy
|
Chemical Products |
Drying/Heating |
DP(II) |
| 22D1020 |
Adoption of an exhaust treatment system using zeolite rotor concentrator and catalytic oxidation technologies to reduce volatile organic compounds (VOC) emissions from paint spraying process
|
Metal and Metal Products |
Paint manufacturing |
DP(II) |
| 22D1018 |
E03-Replacing multiple standalone compressed air network with centralised compressed air network employing central controller and variable speed drive for achieving operation efficiency and saving energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 22D1017 |
E12-Energy efficient UV-LED powered printed circuit board (PCB) solder mask exposure machine
|
Metal and Metal Products |
PCB manufacturing |
DP(I) |
| 22D1016 |
A19-Application of low nitrogen oxides (NOx) burner on natural gas-fired boiler to reduce NOx emissions
|
Printing and Publishing |
Boiler |
DP(I) |
| 22D1015 |
A19-Application of low nitrogen oxides (NOx) burner on natural gas-fired boiler to reduce NOx emissions
|
Textiles |
Boiler |
DP(I) |
| 22D1013 |
E11-Energy efficient two-stage rotary screw air compressor to save energy
|
Chemical Products |
Compressed air system |
DP(I) |
| 22D1012 |
Adoption of variable frequency drive (VFD) technology on air-jet loom to save energy for textile weaving process
|
Textiles |
Energy saving |
DP(II) |
| 22D1011 |
A11-Use of composite treatment system using ultra-violet (UV)-degradation and activated carbon adsorption technologies to reduce volatile organic compounds (VOC) emissions from printing and screen printing process
|
Metal and Metal Products |
Screen printing |
DP(I) |
| 22D1010 |
E11-Energy efficient two-stage rotary screw air compressor to save energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 22D1009 |
E14-Use of energy efficient water-cooled chiller equipped with oil-free magnetic-bearing centrifugal compressor to save energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 22D1008 |
Using centrifugal blower with permanent magnet motor and built-in variable speed drive (VSD) feature to replace high pressure blower to save energy for drying process
|
Metal and Metal Products |
Others |
DP(II) |
| 22D1007 |
E16-Adoption of central control and monitoring system (CCMS) to enhance centralised cooling system operation efficiency and save energy
|
Chemical Products |
Central air conditioning |
DP(I) |
| 22D1006 |
A02-Installation of automatic screen printing system replacing the conventional manual screen printing to save paint and solvent and reduce volatile organic compounds (VOC) emissions
|
Printing and Publishing |
Screen printing |
DP(I) |
| 22D1005 |
E11-Energy efficient two-stage rotary screw air compressor to save energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 22D1004 |
A19-Application of low nitrogen oxides (NOx) burner on natural gas-fired boiler to reduce NOx emissions
|
Chemical Products |
Boiler |
DP(I) |
| 22D1001 |
A01-Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove volatile organic compounds (VOC) in exhaust gas from paint spraying process.
|
Metal and Metal Products |
Paint spraying |
DP(I) |
| 22D1000 |
A19-Application of low nitrogen oxides (NOx) burner on natural gas-fired boiler to reduce NOx emissions
|
Chemical Products |
Boiler |
DP(I) |
| 22D0999 |
E14-Use of energy efficient water-cooled chiller equipped with oil-free magnetic-bearing centrifugal compressor to save energy
|
Textiles |
Compressed air system |
DP(I) |
| 22D0997 |
Using ultrasonic washing machine for oil removal to reduce water consumption
|
Textiles |
Laundry process |
DP(II) |
| 22D0995 |
E11-Energy efficient two-stage rotary screw air compressor to save energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 22D0994 |
A01-Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove VOCs in exhaust gas from paint spraying process
|
Chemical Products |
Paint spraying |
DP(I) |
| 22D0993 |
E10-Energy efficient rotary screw air compressor with permanent magnet motor and built-in variable speed drive (VSD) feature to save energy
|
Chemical Products |
Compressed air system |
DP(I) |
| 22D0992 |
E14-Use of energy efficient water-cooled chiller equipped with oil-free magnetic-bearing centrifugal compressor to save energy
|
Printing and Publishing |
Compressed air system |
DP(I) |
| 22D0989 |
A01-Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove volatile organic compounds (VOC) in exhaust gas from paint spraying process
|
Chemical Products |
Paint spraying |
DP(I) |
| 22D0988 |
E01-Replacement of multiple standalone cooling systems of drilling machines to centralised cooling system with variable speed
|
Metal and Metal Products |
Energy saving |
DP(I) |
| 22D0986 |
E11-Energy efficient two-stage rotary screw air compressor to save energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 22D0983 |
E11-Energy efficient two-stage rotary screw air compressor to save energy
|
Chemical Products |
Compressed air system |
DP(I) |
| 22D0982 |
Installation of a composite exhaust air treatment system using electrostatic precipitator and activated carbon adsorption technologies to reduce volatile organic compounds (VOC) emissions from die casting process
|
Metal and Metal Products |
Others |
DP(II) |
| 22D0980 |
A01-Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove VOCs in exhaust gas from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP(I) |
| 22D0979 |
E14-Use of energy efficient water-cooled chiller equipped with oil-free magnetic-bearing centrifugal compressor to save energy
|
Printing and Publishing |
Compressed air system |
DP(I) |
| 22D0978 |
E06-Using non-invasive electromagnetic scale control system to prevent limescale formation and enhance heat transfer efficiency of cooling tower of centralised air-conditioning system
|
Printing and Publishing |
Central air conditioning |
DP(I) |
| 22D0975 |
A01-Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove volatile organic compounds (VOC) in exhaust gas from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP(I) |
| 22D0974 |
A01-Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove volatile organic compounds (VOC) in exhaust gas from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP(I) |
| 22D0973 |
E10-Energy efficient rotary screw air compressor with permanent magnet motor and built-in variable speed drive feature to save energy
|
Printing and Publishing |
Compressed air system |
DP(I) |
| 22D0972 |
A11-Use of composite treatment system using ultra-violet (UV)-degradation and activated carbon adsorption technologies to reduce volatile organic compounds (VOC) emissions from printing and screen printing process
|
Chemical Products |
Screen printing |
DP(I) |
| 22D0971 |
A03-Installation of an exhaust air treatment system using chemical scrubbing to reduce VOC emissions from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP(I) |
| 22D0970 |
E10-Energy efficient rotary screw air compressor with permanent magnet motor and built-in variable speed drive (VSD) feature to save energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 22D0969 |
Using magnetic fuel activators to enhance fuel combustion efficiency of gas-fired steam boilers to save energy
|
Food and Beverage |
Boiler |
DP(II) |
| 22D0967 |
A07-Adoption of ultra-violet (UV) photo-catalytic oxidation technology to reduce volatile organic compounds (VOC) emissions from printing process
|
Printing and Publishing |
Printing |
DP(I) |
| 22D0966 |
E10-Energy efficient rotary screw air compressor with permanent magnet motor and built-in variable speed drive (VSD) feature to save energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 22D0964 |
A19-Application of low nitrogen oxides (NOx) burner on natural gas-fired boiler to reduce NOx emissions
|
Textiles |
Boiler |
DP(I) |
| 22D0961 |
A01-Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove volatile organic compounds (VOC) in exhaust gas from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP(I) |
| 22D0960 |
E10-Energy efficient rotary screw air compressor with permanent magnet motor and built-in variable speed drive feature to save energy
|
Textiles |
Compressed air system |
DP(I) |
| 22D0959 |
A11-Use of composite treatment system using ultra-violet (UV)-degradation and activated carbon adsorption technologies to reduce volatile organic compounds (VOC) emissions from printing and screen printing process
|
Printing and Publishing |
Screen printing |
DP(I) |
| 22D0957 |
E05-Adoption of heat recovery technology for hot wastewater from dyeing process to save energy
|
Textiles |
Drying/Heating |
DP(I) |
| 22D0956 |
A03-Installation of an exhaust air treatment system using chemical scrubbing to reduce volatile organic compounds (VOC) emissions from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP(I) |
| 22D0955 |
E11-Energy efficient two-stage rotary screw air compressor to save energy
|
Food and Beverage |
Compressed air system |
DP(I) |
| 22D0954 |
A01-Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove VOCs in exhaust gas from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP(I) |
| 22D0953 |
A02-Installation of automatic screen printing system replacing the conventional manual screen printing to save paint/solvent and reduce VOC emissions
|
Printing and Publishing |
Screen printing |
DP(I) |
| 22D0952 |
E02-Replacing multiple standalone vacuum pumps with centralised vacuum system employing variable speed drive for achieving optimal efficiency and saving energy
|
Metal and Metal Products |
Energy saving |
DP(I) |
| 22D0951 |
E11-Energy efficient two-stage rotary screw air compressor to save energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 22D0950 |
E11-Energy efficient two-stage rotary screw air compressor to save energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 22D0949 |
E14-Use of energy efficient water-cooled chiller equipped with oil-free magnetic-bearing centrifugal compressor to save energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 22D0948 |
E08-Using non-invasive electromagnetic scale control system to prevent limescale formation and enhance heat transfer efficiency of steam boilers
|
Food and Beverage |
Boiler |
DP(I) |
| 22D0947 |
E06-Using non-invasive electromagnetic scale control system to prevent limescale formation and enhance heat transfer efficiency of cooling tower of centralised air-conditioning system
|
Food and Beverage |
Central air conditioning |
DP(I) |
| 22D0942 |
E05-Adoption of heat recovery technology of hot waste dye water from dyeing process to save energy
|
Textiles |
Drying/Heating |
DP(I) |
| 22D0939 |
A08-Installation of composite exhaust air treatment system using a combination of ultra-violet (UV) photocatalytic oxidation and activated carbon adsorption to reduce volatile organic compounds (VOC) emissions from injection moulding process
|
Metal and Metal Products |
Injection moulding |
DP(I) |
| 22D0936 |
E10-Energy efficient rotary screw air compressor with permanent magnet motor and built-in variable speed drive feature to save energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 22D0935 |
E10-Energy efficient rotary screw air compressor with permanent magnet motor and built-in variable speed drive feature to save energy
|
Chemical Products |
Compressed air system |
DP(I) |
| 22D0934 |
E03-Replacing multiple standalone compressed air network with centralised compressed air network employing central controller and variable speed drive for achieving operation efficiency and saving energy
|
Printing and Publishing |
Compressed air system |
DP(I) |
| 22D0933 |
E10-Energy efficient rotary screw air compressor with permanent magnet motor and built-in variable speed drive feature to save energy
|
Chemical Products |
Compressed air system |
DP(I) |
| 22D0932 |
A10-Adoption of a UV-degradation treatment system to remove VOCs from plastic manufacturing
|
Metal and Metal Products |
Plastic processing |
DP(I) |
| 22D0925 |
A08-Installation of composite exhaust air treatment system using a combination of UV photocatalytic oxidation and activated carbon adsorption to reduce VOC emissions from injection moulding process
|
Metal and Metal Products |
Injection moulding |
DP(I) |
| 21D0911 |
E03-Replacing multiple standalone compressed air network with centralised compressed air network employing central controller and variable speed drive for achieving operation efficiency and saving energy
|
Chemical Products |
Compressed air system |
DP(I) |
| 21D0907 |
E03-Replacing multiple standalone compressed air network with centralised compressed air network employing central controller and variable speed drive for achieving operation efficiency and saving energy
|
Textiles |
Compressed air system |
DP(I) |
| 21D0906 |
A08-Installation of composite exhaust air treatment system using a combination of UV photocatalytic oxidation and activated carbon adsorption to reduce VOC emissions from injection moulding process
|
Chemical Products |
Injection moulding |
DP(I) |
| 21D0905 |
E14-Use of energy efficient water-cooled chiller equipped with oil-free magnetic-bearing centrifugal compressor to save energy
|
Printing and Publishing |
Compressed air system |
DP(I) |
| 21D0904 |
A08-Installation of composite exhaust air treatment system using a combination of UV photocatalytic oxidation and activated carbon adsorption to reduce VOC emissions from injection moulding process
|
Chemical Products |
Injection moulding |
DP(I) |
| 21D0896 |
E11-Energy efficient two-stage rotary screw air compressor to save energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 21D0895 |
E01-Replacement of multiple standalone cooling systems of CNC drilling machines to centralized cooling system with variable speed
|
Metal and Metal Products |
Energy saving |
DP(I) |
| 21D0892 |
E11-Energy efficient two-stage rotary screw air compressor to save energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 21D0890 |
E03-Replacing multiple standalone compressed air network with centralized compressed air network employing central controller and variable speed drive for achieving optimal efficiency and saving energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 21D0888 |
E11-Energy efficient two-stage rotary screw air compressor to save energy
|
Chemical Products |
Compressed air system |
DP(I) |
| 21D0881 |
A01-Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove volatile organic compounds (VOC) in exhaust gas from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP(I) |
| 21D0869 |
A01-Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove VOCs in exhaust gas from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP(I) |
| 21D0864 |
E03-Replacing multiple standalone compressed air network with centralised compressed air network employing central controller and variable speed drive for achieving operation efficiency and saving energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 21D0863 |
E11-Energy efficient two-stage rotary screw air compressor with built-in variable speed drive feature to save energy
|
Printing and Publishing |
Compressed air system |
DP(I) |
| 21D0855 |
E10-Energy efficient rotary screw air compressor with permanent magnet motor and built-in variable speed drive feature to save energy
|
Chemical Products |
Compressed air system |
DP(I) |
| 21D0836 |
E10-Energy efficient rotary screw air compressor with permanent magnet motor and built-in variable speed drive feature to save energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 21D0824 |
A03-Installation of an exhaust air treatment system using chemical scrubbing to reduce VOC emissions from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP(I) |
| 21D0812 |
A08-Installation of composite exhaust air treatment system using a combination of UV photocatalytic oxidation and activated carbon adsorption to reduce VOC emissions from injection moulding process
|
Metal and Metal Products |
Injection moulding |
DP(I) |
| 21D0811 |
A10-Adoption of a UV-degradation treatment system to remove VOCs from plastic manufacturing
|
Chemical Products |
Plastic processing |
DP(I) |
| 20D0766 |
A01-Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove VOCs in exhaust gas from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP(I) |
| 23D1157 |
Using laser direct imaging (LDI) exposure machine to replace traditional film exposure machine to reduce solid waste generation and save energy consumption
|
Metal and Metal Products |
Others |
DP(II) |
| 23D1152 |
Using laser direct imaging (LDI) exposure machine to replace traditional film exposure machine to reduce solid waste generation and save energy consumption
|
Metal and Metal Products |
Others |
DP(II) |
| 23D1107 |
Using laser direct imaging (LDI) exposure machine to replace traditional film exposure machine to reduce solid waste generation and save energy consumption
|
Metal and Metal Products |
Others |
DP(II) |
| 23D1135 |
Adoption of oxygen trim system upgrade for boiler to reduce energy consumption
|
Food and Beverage |
Boiler |
DP(II) |
| 23D1142 |
Adoption of an exhaust treatment system using zeolite adsorption concentrator and catalytic oxidation technology to reduce volatile organic compounds (VOC) emissions from printed circuit board manufacturing process
|
Metal and Metal Products |
PCB manufacturing |
DP(II) |
| 23D1137 |
Installation of automatic laminating machine to replace manual lamination to reduce glue consumption and volatile organic compounds (VOC) emissions
|
Printing and Publishing |
Glue spreading |
DP(II) |
| 23D1128 |
Using film blowing machines integrated with water-based ink printers to reduce volatile organic compounds (VOC) emissions
|
Printing and Publishing |
Others |
DP(II) |
| 23D1122 |
Using selective catalytic reduction (SCR) technology to treat flue gas and reduce air pollutant emissions
|
Non-metallic Mineral Products |
Boiler |
DP(II) |
| 23D1118 |
Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove volatile organic compounds (VOC) in exhaust gas from paint manufacturing process
|
Chemical Products |
Paint manufacturing |
DP(II) |
| 23D1117 |
Use of a combination of activated carbon concentrator and regenerative catalytic oxidation technologies to remove volatile organic compounds (VOC) in exhaust gas from plastic manufacturing process
|
Chemical Products |
Plastic processing |
DP(II) |
| 23D1112 |
Adoption of an exhaust treatment system using zeolite adsorption with bag filter technology, automatic desorption, and catalytic oxidation technology to reduce volatile organic compounds (VOC) emissions from printing processes
|
Printing and Publishing |
Printing |
DP(II) |
| 23D1126 |
E16- Adoption of central control and monitoring system (CCMS) to enhance centralised air-conditioning system operation efficiency and save energy
|
Textiles |
Central air conditioning |
DP(I) |
| 24D1183 |
E14- Use of energy efficient water-cooled chiller equipped with oil-free magnetic-bearing centrifugal compressor to save energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 23D1179 |
E09-Use of energy efficient oil-free magnetic-bearing centrifugal blower in aeration process for wastewater treatment to save energy
|
Metal and Metal Products |
Wasterwater pre-treatment |
DP(I) |
| 24D1229 |
E03-Replacing multiple standalone compressed air network with centralised compressed air network employing central controller and variable speed drive for achieving operation efficiency and saving energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 24D1182 |
E03-Replacing multiple standalone compressed air network with centralised compressed air network employing central controller and variable speed drive for achieving operation efficiency and saving energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 24D1181 |
E03-Replacing multiple standalone compressed air network with centralised compressed air network employing central controller and variable speed drive for achieving operation efficiency and saving energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 24D1180 |
E03-Replacing multiple standalone compressed air network with centralised compressed air network employing central controller and variable speed drive for achieving operation efficiency and saving energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 23D1164 |
E03-Replacing multiple standalone compressed air network with centralised compressed air network employing central controller and variable speed drive for achieving operation efficiency and saving energy
|
Textiles |
Compressed air system |
DP(I) |
| 23D1150 |
E03-Replacing multiple standalone compressed air network with centralised compressed air network employing central controller and variable speed drive for achieving operation efficiency and saving energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 24D1205 |
A19-Application of low nitrogen oxides (NOx) burner on natural gas-fired boiler to reduce NOx emissions
|
Food and Beverage |
Boiler |
DP(I) |
| 23D1178 |
A19-Application of low nitrogen oxides (NOx) burner on natural gas-fired boiler to reduce NOx emissions
|
Food and Beverage |
Boiler |
DP(I) |
| 23D1169 |
A15-Installation of ultraviolet (UV) printing and curing machine to replace conventional solvent-based printing machine to reduce volatile organic compounds (VOC) emissions
|
Metal and Metal Products |
Ink-jet printing |
DP(I) |
| 23D1168 |
A15-Installation of ultraviolet (UV) printing and curing machine to replace conventional solvent-based printing machine to reduce volatile organic compounds (VOC) emissions
|
Metal and Metal Products |
Printing |
DP(I) |
| 24D1185 |
A05-Using selective non-catalytic reduction (SNCR) nitrogen oxides (NOx) reduction technology to treat boiler flue gas and reduce air pollutant emissions
|
Furniture |
Boiler |
DP(I) |
| 24D1186 |
A15-Installation of ultraviolet (UV) printing and curing machine to replace conventional solvent-based printing machine to reduce volatile organic compounds (VOC) emissions
|
Chemical Products |
Printing |
DP(I) |
| 22D0987 |
Retrofitting rubber vulcanising machine with high efficiency movable heating plate to save energy
|
Chemical Products |
Energy saving |
DP(II) |
| 21D0829 |
A01-Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove VOCs in exhaust gas from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP(I) |
| 21D0832 |
E14-Use of energy efficient water-cooled chiller equipped with oil-free magnetic-bearing centrifugal compressor to save energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 20D0744 |
E14-Use of energy efficient water-cooled chiller equipped with oil-free magnetic-bearing centrifugal compressor to save energy
|
Printing and Publishing |
Compressed air system |
DP(I) |
| 21D0852 |
E14-Use of energy efficient water-cooled chiller equipped with oil-free magnetic-bearing centrifugal compressor to save energy
|
Printing and Publishing |
Compressed air system |
DP(I) |
| 20D0783 |
E14-Use of energy efficient water-cooled chiller equipped with oil-free magnetic-bearing centrifugal compressor to save energy
|
Printing and Publishing |
Compressed air system |
DP(I) |
| 21D0838 |
E14-Use of energy efficient water-cooled chiller equipped with oil-free magnetic-bearing centrifugal compressor to save energy
|
Food and Beverage |
Compressed air system |
DP(I) |
| 20D0757 |
E14-Use of energy efficient water-cooled chiller equipped with oil-free magnetic-bearing centrifugal compressor to save energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 21D0879 |
E14-Use of energy efficient water-cooled chiller equipped with oil-free magnetic-bearing centrifugal compressor to save energy
|
Chemical Products |
Compressed air system |
DP(I) |
| 22D0938 |
E14-Use of energy efficient water-cooled chiller equipped with oil-free magnetic-bearing centrifugal compressor to save energy
|
Printing and Publishing |
Compressed air system |
DP(I) |
| 22D0928 |
E14-Use of energy efficient water-cooled chiller equipped with oil-free magnetic-bearing centrifugal compressor to save energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 20D0798 |
E13-Waste heat recovery of compressed air systems to recover rejected heat and produce hot water for PCB plating process
|
Metal and Metal Products |
PCB manufacturing |
DP(I) |
| 21D0828 |
E10-Energy efficient rotary screw air compressor with permanent magnet motor and built-in variable speed drive feature to save energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 22D0926 |
E10-Energy efficient rotary screw air compressor with permanent magnet motor and built-in variable speed drive (VSD) feature to save energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 20D0803 |
E09-Use of energy efficient oil-free magnetic-bearing centrifugal blower in aeration process for waste water treatment to save energy
|
Textiles |
Wasterwater pre-treatment |
DP(I) |
| 20D0804 |
E09-Use of energy efficient oil-free magnetic-bearing centrifugal blower in aeration process for waste water treatment to save energy
|
Chemical Products |
Wasterwater pre-treatment |
DP(I) |
| 22D0929 |
E09-Use of energy efficient oil-free magnetic-bearing centrifugal blower in aeration process for waste water treatment to save energy
|
Metal and Metal Products |
Wasterwater pre-treatment |
DP(I) |
| 21D0897 |
E06-Using non-invasive electromagnetic scale control system to prevent limescale formation and enhance heat transfer efficiency of cooling tower of centralised air-conditioning system
|
Metal and Metal Products |
Central air conditioning |
DP(I) |
| 23D1101 |
E06-Using non-invasive electromagnetic scale control system to prevent limescale formation and enhance heat transfer efficiency of cooling tower of centralised air-conditioning system
|
Chemical Products |
Central air conditioning |
DP(I) |
| 21D0858 |
E03-Replacing multiple standalone compressed air network with centralised compressed air network employing central controller and variable speed drive for achieving operation efficiency and saving energy E03-
|
Chemical Products |
Compressed air system |
DP(I) |
| 22D1014 |
A15-Installation of ultraviolet (UV) printing and curing machine to replace conventional solvent-based printing machine to reduce volatile organic compounds (VOC) emissions
|
Chemical Products |
Printing |
DP(I) |
| 21D0840 |
A11-Use of composite treatment system using ultra-violet (UV)-degradation and activated carbon adsorption technologies to reduce volatile organic compounds (VOC) emissions from printing and screen printing process
|
Printing and Publishing |
Screen printing |
DP(I) |
| 21D0820 |
A11-Use of composite treatment system using UV-degradation and activated carbon adsorption technologies to reduce VOC emissions from printing and screen printing process
|
Metal and Metal Products |
Screen printing |
DP(I) |
| 20D0777 |
A11-Use of composite treatment system using UV-degradation and activated carbon adsorption technologies to reduce VOC emissions from printing and screen printing process
|
Printing and Publishing |
Screen printing |
DP(I) |
| 21D0853 |
A11-Use of composite treatment system using ultra-violet (UV)-degradation and activated carbon adsorption technologies to reduce volatile organic compounds (VOC) emissions from printing and screen printing process
|
Printing and Publishing |
Screen printing |
DP(I) |
| 21D0845 |
A11-Use of composite treatment system using ultra-violet (UV)-degradation and activated carbon adsorption technologies to reduce volatile organic compounds (VOC) emissions from printing and screen printing process
|
Furniture |
Screen printing |
DP(I) |
| 21D0850 |
A11-Use of composite treatment system using ultra-violet (UV)-degradation and activated carbon adsorption technologies to reduce volatile organic compounds (VOC) emissions from printing and screen printing process
|
Chemical Products |
Screen printing |
DP(I) |
| 21D0833 |
A08-Installation of composite exhaust air treatment system using a combination of UV photocatalytic oxidation and activated carbon adsorption to reduce VOC emissions from injection moulding process
|
Metal and Metal Products |
Injection moulding |
DP(I) |
| 21D0871 |
A08-Installation of composite exhaust air treatment system using a combination of ultra-violet (UV) photocatalytic oxidation and activated carbon adsorption to reduce volatile organic compounds (VOC) emissions from injection moulding process
|
Metal and Metal Products |
Injection moulding |
DP(I) |
| 21D0860 |
A07-Adoption of ultra-violet (UV) photo-catalytic oxidation technology to reduce VOC emissions from printing process
|
Metal and Metal Products |
Printing |
DP(I) |
| 22D0923 |
A03-Installation of an exhaust air treatment system using chemical scrubbing to reduce volatile organic compounds (VOC) emissions from paint spraying process
|
Textiles |
Paint spraying |
DP(I) |
| 22D0920 |
A02-Installation of automatic screen printing system replacing the conventional manual screen printing to save paint/solvent and reduce VOC emissions
|
Metal and Metal Products |
Screen printing |
DP(I) |
| 23D1139 |
E14-Use of energy efficient water-cooled chiller equipped with oil-free magnetic-bearing centrifugal compressor to save energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 23D1124 |
E09-Use of energy efficient oil-free magnetic-bearing centrifugal blower in aeration process for wastewater treatment to save energy
|
Textiles |
Wasterwater pre-treatment |
DP(I) |
| 23D1106 |
E03-Replacing multiple standalone compressed air network with centralised compressed air network employing central controller and variable speed drive for achieving operation efficiency and saving energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 23D1103 |
Use of wood cutting machine with roller constraint system to replace manual cutting process and reduce solid waste generation
|
Furniture |
Others |
DP(II) |
| 23D1096 |
Using fabric cutting line with laser positioning and vacuum suction to replace manual cutting workbenches and reduce solid waste generation
|
Furniture |
Others |
DP(II) |
| 23D1094 |
"Using laser direct imaging (LDI) exposure machine to replace traditional film exposure machine to reduce solid waste generation and save energy consumption
|
Metal and Metal Products |
Others |
DP(II) |
| 23D1092 |
"Installation of automatic cleaning system replacing the manual cleaning of rubber blanket in printing process to save solvent and reduce volatile organic compounds (VOC) emissions
|
Printing and Publishing |
Printing |
DP(II) |
| 23D1085 |
E16- Adoption of central control and monitoring system (CCMS) to enhance centralised air-conditioning system operation efficiency and save energy
|
Chemical Products |
Central air conditioning |
DP(I) |
| 17D0582 |
Adoption of UV photo-catalytic oxidation technology to reduce VOC emissions from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP |
| 17D0562 |
Installation of a composite exhaust air treatment system using chemical scrubbing and activated carbon adsorption to reduce VOC emissions from paint spraying and screen printing of plastic product manufacturing
|
Chemical Products |
Paint spraying |
DP |
| 17D0533 |
Installation of a composite exhaust air treatment system using wet scrubbing, low temperature plasma technology and activated carbon adsorption to reduce VOC emissions from plastic products manufacturing process
|
Chemical Products |
Blow moulding / Injection moulding |
DP |
| 17D0524 |
Adoption of oil-free forming machine to stop solvent degreasing process for hook and eye manufacturing and reduce VOC emissions.
|
Textiles |
Others |
DP |
| 08D0082 |
Variable frequency drive (VFD) controller for plastic injection moulding machine to save energy
|
Metal and Metal Products |
Injection moulding |
DP |
| 08D0078 |
Energy Saver for injection machine utilizing of voltage and current phase angle regulation and thyristor firing control technology
|
Metal and Metal Products |
Injection moulding |
DP |
| 09D0108 |
On-site recycling of degreasing water with vibrating membrane filtration system for a metal oxidizing and electroplating factory to save energy of waste degreasing water treatment
|
Metal and Metal Products |
Surface treatment |
DP |
| 09D0093 |
Heat recovery of plastic injection machine to produce hot air for hopper dryers to save energy
|
Chemical Products |
Blow moulding / Injection moulding |
DP |
| 09D0109 |
Retrofitting a fuel burner with combustion management system to ensure maximum efficiency in the operation of boiler
|
Textiles |
Boiler |
DP |
| 21D0909 |
Re-utilization of the high density sludge to treat acid copper wastewater for the further operation of the recycling system to reduce the wastewater discharged
|
Metal and Metal Products |
Others |
DP(II) |
| 17D0559 |
Using Activated Carbon Adsorption (AC) system and Ceremic Nanofiltration (NF) Membrane technology to online recycle and reuse electroplating pre-treatment wastewater in a metal and metal products manufacturing factory.
|
Metal and Metal Products |
Wasterwater pre-treatment |
DP |
| 17D0557 |
Using Two Stage Nanofiltration Membrane (NF) system and RO technology to online recycle and reuse trivalent chromium rinse water in electroplating process in a metal and metal products manufacturing factory.
|
Metal and Metal Products |
Surface treatment |
DP |
| 22D0990 |
Using energy efficient infrared heating coils for plastic injection moulding machines to save energy
|
Metal and Metal Products |
Blow moulding / Injection moulding |
DP(II) |
| 23D1111 |
A06- Adoption of ultra-violet (UV) photocatalytic oxidation technology to reduce volatile organic compounds (VOC) emissions from plastic injection moulding process
|
Metal and Metal Products |
Injection moulding |
DP(I) |
| 23D1095 |
E12-Energy efficient UV-LED powered printed circuit board (PCB)solder mask exposure machine
|
Metal and Metal Products |
PCB manufacturing |
DP(I) |
| 23D1089 |
Adoption of an exhaust treatment system using zeolite adsorption with bag filter technology, automatic desorption, and catalytic oxidation technology to reduce volatile organic compounds (VOC) emissions from printing process
|
Paper and Paper Products |
Printing |
DP(II) |
| 08D0063 |
Using energy efficient infrared heating coil for plastic injection machine to save energy
|
Metal and Metal Products |
Injection moulding |
DP |
| 17D0583 |
Use of Electric induction furnace to replace diesel-fired furnace for die-casting process to reduce air pollutant emission
|
Metal and Metal Products |
Drying/Heating |
DP |
| 23D1040 |
Waste heat recovery of compressed air systems to recover rejected heat and produce hot water for cleaning process
|
Chemical Products |
Others |
DP(II) |
| 22D1029 |
Use of composite treatment system using activated carbon concentrator and regenerative catalytic oxidation technologies to remove volatile organic compounds (VOC) emissions from printed circuit board manufacturing
|
Metal and Metal Products |
PCB manufacturing |
DP(II) |
| 22D1002 |
Adoption of an exhaust treatment system using zeolite rotor concentrator and catalytic oxidation technologies to reduce volatile organic compounds (VOC) emission from printing process
|
Printing and Publishing |
Printing |
DP(II) |
| 22D0985 |
Use of energy efficient heat pump system to preheat water and save energy.
|
Metal and Metal Products |
Energy saving |
DP(II) |
| 21D0899 |
Adoption of an exhaust treatment system using zeolite rotor concentrator and catalytic oxidation technologies to reduce volatile organic compounds (VOC) emission from electronics production process
|
Metal and Metal Products |
PCB manufacturing |
DP(II) |
| 21D0893 |
A03-Installation of an exhaust air treatment system using chemical scrubbing to reduce VOC emissions from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP(I) |
| 20D0792 |
Adopting of plastic injection molding machine with dynamic voltage regulation on three phase asynchronous motor to optimizing the power factor and enhance save energy
|
Metal and Metal Products |
Injection moulding |
DP(II) |
| 20D0742 |
Adoption of rotary Regenerative Thermal Oxidizer (RTO) to reduce VOCs emission from pharmaceutical manufacturing process
|
Chemical Products |
Pharmaceutical |
DP(II) |
| 20D0747 |
Using high-temperature (H.T.) air & liquid multi-flow dyeing machine to save water, energy and recourses
|
Textiles |
Dyeing |
DP(II) |
| 20D0745 |
Using open width-type washing machine for water and energy saving in textile
|
Textiles |
Laundry process |
DP(II) |
| 20D0750 |
Using combined RO and EDBM system to treat the MBR effluent to ultra-pure water and reusing in production line
|
Chemical Products |
Laundry process |
DP(II) |
| 20D0767 |
Installation of a composite exhaust air treatment system using water scrubbing, electrostatic precipitator and activated carbon adsorption technologies to reduce VOC emissions from die casting process
|
Metal and Metal Products |
Food processing |
DP(II) |
| 22D0919 |
Using energy efficient continuous furnace to replace with traditional furnace for copper tube casting process to enhance operation efficiency and save energy
|
Metal and Metal Products |
Others |
DP(II) |
| 22D0996 |
Installation of a composite exhaust air treatment system using chemical scrubbing and activated carbon adsorption to reduce volatile organic compounds (VOC) emissions from plastic product manufacturing process
|
Chemical Products |
Plastic processing |
DP(II) |
| 22D0916 |
Using vibrational low liquor ratio fabric dyeing machine to reduce water consumption
|
Textiles |
Others |
DP(II) |
| 22D1003 |
Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove volatile organic compounds (VOC) in exhaust gas from plastic manufacturing process
|
Metal and Metal Products |
Plastic processing |
DP(II) |
| 21D0891 |
Adoption of an exhaust treatment system using zeolite rotor concentration and regenerative thermal oxidation technologies to reduce VOCs emission from coating process
|
Paper and Paper Products |
Others |
DP(II) |
| 22D0946 |
Improvement of drying process of water-based ink printing by using dehumidifier and heat recovery technologies to enhance the printing efficiency and reduce VOC emission
|
Chemical Products |
Printing |
DP(II) |
| 22D0941 |
Application of low nitrogen oxides (NOx) burner on natural gas-fired boiler to reduce air pollutant emissions
|
Paper and Paper Products |
Boiler |
DP(II) |
| 22D0927 |
A01-Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove volatile organic compounds (VOC) in exhaust gas from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP(I) |
| 22D0921 |
Adoption of hopper dryer with variable speed drive (VSD) and voltage control technology to save energy for plastic injection moulding process
|
Metal and Metal Products |
Others |
DP(II) |
| 22D0915 |
Use of natural gas-fired steam boiler to replace coal-fired boiler to reduce air pollutants emissions
|
Non-metallic Mineral Products |
Boiler |
DP(II) |
| 21D0913 |
Installation of automatic pad printing system replacing the conventional manual pad printing to save paint/solvent and reduce VOC emissions
|
Chemical Products |
Printing |
DP(II) |
| 21D0912 |
Installation of ultraviolet (UV) printing and curing machine to replace conventional solvent-based printing machine to reduce VOC emissions
|
Printing and Publishing |
Printing |
DP(II) |
| 21D0910 |
A01-Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove volatile organic compounds (VOC) in exhaust gas from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP(I) |
| 21D0882 |
Adoption of catalytic oxidation technology to reduce volatile organic compounds (VOC) emission from the coating drying process in adhesive tape manufacturing
|
Chemical Products |
Glue spreading |
DP(II) |
| 21D0872 |
E10-Energy efficient rotary screw air compressor with permanent magnet motor and built-in variable speed drive (VSD) feature to save energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 21D0865 |
E14-Use of energy efficient water-cooled chiller equipped with oil-free magnetic-bearing centrifugal compressor to save energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 21D0862 |
Adoption of an exhaust treatment system using zeolite adsorption with bag filter technology, automatic desorption, and catalytic oxidation technology to reduce volatile organic compounds (VOC) emissions from spider production, soaking, coating and glue applying processes
|
Metal and Metal Products |
Others |
DP(II) |
| 21D0846 |
Adoption of low-temperature vacuum evaporator for reduction of wastewater discharge
|
Metal and Metal Products |
Wasterwater pre-treatment |
DP(II) |
| 21D0841 |
Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove VOCs in exhaust gas from printing process
|
Printing and Publishing |
Printing |
DP(II) |
| 21D0834 |
Using Reverse Osmosis (RO) and Catalytic Wet Air Oxidation (CWAO) integrated system for wastewater recycling
|
Textiles |
Wasterwater pre-treatment |
DP(II) |
| 21D0830 |
Use of energy efficient oil-free magnetic-bearing centrifugal hot oil pump in hot oil circulation system to save energy
|
Chemical Products |
Boiler |
DP(II) |
| 21D0826 |
A03-Installation of an exhaust air treatment system using chemical scrubbing to reduce VOC emissions from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP(I) |
| 21D0814 |
Adoption of chemical scrubbing and electrostatic precipitator to reduce VOC emissions from die casting process
|
Food and Beverage |
Others |
DP(II) |
| 21D0873 |
Adoption of an exhaust treatment system using zeolite rotor concentrator and catalytic oxidation technologies to reduce volatile organic compounds (VOC) emission from printing process
|
Printing and Publishing |
Printing |
DP(II) |
| 20D0791 |
Using internal circulation anaerobic reactor to replace UASB to improve wastewater treatment efficiency to reduce chemical use and treatment cost
|
Food and Beverage |
Wasterwater pre-treatment |
DP(II) |
| 20D0790 |
A08-Installation of composite exhaust air treatment system using a combination of UV photocatalytic oxidation and activated carbon adsorption to reduce VOC emissions from injection moulding process
|
Chemical Products |
Injection moulding |
DP(I) |
| 20D0786 |
A10-Adoption of a UV-degradation treatment system to remove VOCs from plastic manufacturing
|
Chemical Products |
Plastic processing |
DP(I) |
| 20D0782 |
A08-Installation of composite exhaust air treatment system using a combination of UV photocatalytic oxidation and activated carbon adsorption to reduce VOC emissions from injection moulding process
|
Metal and Metal Products |
Injection moulding |
DP(I) |
| 20D0740 |
A03-Installation of an exhaust air treatment system using chemical scrubbing to reduce VOC emissions from paint spraying process
|
Chemical Products |
Paint spraying |
DP(I) |
| 22D0944 |
Installation of automatic cleaning system replacing the manual cleaning of rubber blanket in printing process to save solvent and cleaning cloth and reduce VOC emissions
|
Printing and Publishing |
Cleaning/disinfection |
DP(II) |
| 22D0931 |
Adoption of automatic wet belt grinder to replace manual polishing and chemical cleaning process to reduce volatile organic compound (VOC) emissions from lamination process
|
Metal and Metal Products |
Others |
DP(II) |
| 21D0902 |
Adoption of automatic condensate removal systems in steam ironing process to reduce energy consumption
|
Textiles |
Others |
DP(II) |
| 20D0772 |
Apply Electro Fenton reaction with MBR system in wastewater treatment plant and reuse in production line
|
Metal and Metal Products |
Wasterwater pre-treatment |
DP(II) |
| 21D0809 |
Using automatic machine for rice noodle production to reduce wastewater discharge
|
Food and Beverage |
Laundry process |
DP(II) |
| 22D0940 |
Adoption of electrostatic precipitator to reduce VOC emissions from die casting process
|
Metal and Metal Products |
Others |
DP(II) |
| 21D0901 |
Adopting of enclosed rubber mixing machine with dynamic voltage regulation on three phase asynchronous motor to optimizing the power factor and save energy
|
Textiles |
Blow moulding / Injection moulding |
DP(II) |
| 21D0898 |
Adoption of electric central melting furnace and automatic distribution system to replace standalone natural gas-fired melting furnace for die-casting process to reduce energy consumption
|
Metal and Metal Products |
Boiler |
DP(II) |
| 22D0968 |
Use of Regenerative Thermal Oxidizer (RTO) to remove volatile organic compounds (VOCs) in exhaust gas from plastic manufacturing process
|
Chemical Products |
Plastic processing |
DP(II) |
| 21D0908 |
Adoption of electric induction furnace to replace natural gas-fired furnace for die-casting process to reduce air pollutant emissions
|
Metal and Metal Products |
Boiler |
DP(II) |
| 22D0965 |
Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove volatile organic compounds (VOC) in exhaust gas from plastic manufacturing process
|
Chemical Products |
Plastic processing |
DP(II) |
| 21D0877 |
Adoption of hopper dryer with variable speed drive (VSD) and voltage control technology to save energy for plastic injection moulding process
|
Metal and Metal Products |
Blow moulding / Injection moulding |
DP(II) |
| 20D0793 |
Adoption of an exhaust treatment system using zeolite adsorption with bag filter technology, automatic desorption, and catalytic oxidation technology to reduce VOCs emissions from chemical products manufacturing
|
Chemical Products |
Machining |
DP(II) |
| 21D0887 |
Application of low nitrogen oxides (NOx) burner on natural gas-fired boiler to reduce NOx emissions.
|
Chemical Products |
Boiler |
DP(II) |
| 21D0866 |
E10-Energy efficient rotary screw air compressor with permanent magnet motor and built-in variable speed drive (VSD) feature to save energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 21D0835 |
E10-Energy efficient rotary screw air compressor with permanent magnet motor and built-in variable speed drive feature to save energy
|
Furniture |
Compressed air system |
DP(I) |
| 21D0857 |
E10-Energy efficient rotary screw air compressor with permanent magnet motor and built-in variable speed drive feature to save energy
|
Printing and Publishing |
Compressed air system |
DP(I) |
| 20D0737 |
Replacement of Pilger mill with Assel mill to achieve optimal efficiency and save energy
|
Metal and Metal Products |
Machining |
DP(II) |
| 20D0752 |
Adoption of indoor air treatment system using zeolite adsorption and bag filter technology to reduce VOCs emissions from electronics production process
|
Metal and Metal Products |
Pharmaceutical |
DP(II) |
| 20D0751 |
Using air sprayer and automatic sponge absorber to save chemical and rinsing water for a horizontal PCB plating line
|
Metal and Metal Products |
PCB manufacturing |
DP(II) |
| 21D0875 |
Installation of a composite exhaust air treatment system using biofiltration technology and activated carbon adsorption to reduce volatile organic compounds (VOC) emissions from surface finishing process
|
Metal and Metal Products |
Surface treatment |
DP(II) |
| 21D0848 |
A03-Installation of an exhaust air treatment system using chemical scrubbing to reduce volatile organic compounds (VOC) emissions from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP(I) |
| 21D0847 |
A01-Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove volatile organic compounds (VOC) in exhaust gas from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP(I) |
| 20D0758 |
A11-Use of composite treatment system using UV-degradation and activated carbon adsorption technologies to reduce VOC emissions from printing and screen printing process
|
Printing and Publishing |
Screen printing |
DP(I) |
| 20D0753 |
A01-Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove VOCs in exhaust gas from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP(I) |
| 21D0810 |
Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove VOCs in exhaust gas from printing process
|
Chemical Products |
Printing |
DP(II) |
| 20D0806 |
Adoption of an exhaust treatment system using zeolite rotor concentrator and catalytic oxidation technologies to reduce VOCs emission from printing process
|
Metal and Metal Products |
Printing |
DP(II) |
| 21D0874 |
Adoption of central control and monitoring system (CCMS) to enhance centralised air-conditioning system operation efficiency and save energy
|
Chemical Products |
Central air conditioning |
DP(II) |
| 21D0861 |
E11-Energy efficient two-stage rotary screw air compressor to save energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 21D0859 |
A03-Installation of an exhaust air treatment system using chemical scrubbing to reduce volatile organic compounds (VOC) emissions from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP(I) |
| 21D0851 |
E11-Energy efficient two-stage rotary screw air compressor to save energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 21D0849 |
Adoption of electrostatic precipitator to reduce VOC emissions from dye fixation process
|
Textiles |
Machining |
DP(II) |
| 21D0844 |
Adoption of central control and monitoring system (CCMS) to enhance centralised air-conditioning system operation efficiency and save energ
|
Metal and Metal Products |
Central air conditioning |
DP(II) |
| 21D0842 |
A08-Installation of composite exhaust air treatment system using a combination of ultra-violet (UV) photocatalytic oxidation and activated carbon adsorption to reduce volatile organic compounds (VOC) emissions from injection moulding process
|
Chemical Products |
Injection moulding |
DP(I) |
| 21D0839 |
E11-Energy efficient two-stage rotary screw air compressor to save energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 21D0837 |
Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove volatile organic compounds (VOC) in exhaust gas from printing process
|
Metal and Metal Products |
Printing |
DP(II) |
| 21D0821 |
Installation of a composite exhaust air treatment system using UV-degradation and activated carbon adsorption technologies to reduce VOC emissions from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP(II) |
| 21D0818 |
Application of flue gas recirculation (FGR) technology on natural gas-fired boiler to reduce air pollutant emissions.
|
Food and Beverage |
Boiler |
DP(II) |
| 21D0817 |
Use of ultra-violet (UV)-degradation, activated carbon concentrator, and catalytic oxidation technologies to remove volatile organic compounds (VOC) in exhaust gas from plastic injection molding
|
Metal and Metal Products |
Blow moulding / Injection moulding |
DP(II) |
| 20D0808 |
A07-Adoption of UV photo-catalytic oxidation technology to reduce VOC emissions from printing process
|
Metal and Metal Products |
Printing |
DP(I) |
| 20D0807 |
A07-Adoption of UV photo-catalytic oxidation technology to reduce VOC emissions from printing process
|
Metal and Metal Products |
Printing |
DP(I) |
| 20D0802 |
A01-Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove VOCs in exhaust gas from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP(I) |
| 20D0801 |
A01-Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove VOCs in exhaust gas from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP(I) |
| 20D0799 |
E10-Energy efficient rotary screw air compressor with permanent magnet motor and built-in variable speed drive feature to save energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 20D0788 |
Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove VOCs in exhaust gas from printing process
|
Textiles |
Printing |
DP(II) |
| 20D0787 |
E13-Waste heat recovery of compressed air systems to recover rejected heat and produce hot water for PCB plating process
|
Metal and Metal Products |
PCB manufacturing |
DP(I) |
| 20D0781 |
A08-Installation of composite exhaust air treatment system using a combination of UV photocatalytic oxidation and activated carbon adsorption to reduce VOC emissions from injection moulding process
|
Chemical Products |
Injection moulding |
DP(I) |
| 20D0780 |
A07-Adoption of UV photo-catalytic oxidation technology to reduce VOC emissions from plastic package printing process
|
Chemical Products |
Printing |
DP(I) |
| 20D0776 |
A11-Use of composite treatment system using UV-degradation and activated carbon adsorption technologies to reduce VOC emissions from printing and screen printing process
|
Metal and Metal Products |
Screen printing |
DP(I) |
| 20D0768 |
Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove VOCs in exhaust gas from printed circuit board manufacturing
|
Metal and Metal Products |
PCB manufacturing |
DP(II) |
| 20D0749 |
Using the IFAS-MOX wastewater treatment process to reduce effluent pollutant discharge
|
Textiles |
Wasterwater pre-treatment |
DP(II) |
| 18D0701 |
Adoption of iron carbon micro-electrolysis + UV-degradation technologies to reduce VOCs emissions from paint spraying process
|
Chemical Products |
Paint spraying |
DP |
| 20D0774 |
Installation of composite treatment system using UV photo-catalytic oxidation and chemical scrubbing technologies to reduce VOCs exhaust gas from adhesive application and printing processes
|
Chemical Products |
Printing |
DP(II) |
| 20D0795 |
Installation of ultraviolet (UV) printing and curing machine to replace conventional solvent-based printing machine to reduce VOC emissions
|
Printing and Publishing |
Printing |
DP(II) |
| 20D0794 |
Installation of a composite VOC treatment system using wet scrubbing and biofiltration technology to reduce VOC emissions from paint coating process.
|
Non-metallic Mineral Products |
Film laminating/Coating |
DP(II) |
| 20D0784 |
E10-Energy efficient rotary screw air compressor with permanent magnet motor and built-in variable speed drive feature to save energy
|
Metal and Metal Products |
Compressed air system |
DP(I) |
| 20D0778 |
Installation of heat recovery devices on industrial coal-fired hot blast oven to save energy
|
Non-metallic Mineral Products |
Others |
DP(II) |
| 20D0779 |
A01-Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove VOCs in exhaust gas from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP(I) |
| 20D0773 |
Installation of composite treatment system using UV photo-catalytic oxidation and chemical scrubbing technologies to reduce VOC emissions from plastic injection moulding process
|
Chemical Products |
Blow moulding / Injection moulding |
DP(II) |
| 20D0771 |
A08-Installation of composite exhaust air treatment system using a combination of UV photocatalytic oxidation and activated carbon adsorption to reduce VOC emissions from injection moulding process
|
Metal and Metal Products |
Injection moulding |
DP(I) |
| 20D0770 |
A08-Installation of composite exhaust air treatment system using a combination of UV photocatalytic oxidation and activated carbon adsorption to reduce VOC emissions from injection moulding process
|
Metal and Metal Products |
Injection moulding |
DP(I) |
| 20D0769 |
Use of activated carbon adsorption and offline catalytic oxidation technologies to remove VOCs in exhaust gas from plastic injection molding
|
Metal and Metal Products |
Blow moulding / Injection moulding |
DP(II) |
| 20D0755 |
Adoption of Direct Thermal Combustion Technology to Reduce VOCs Emission from Printing Process
|
Printing and Publishing |
Plastic processing |
DP(II) |
| 20D0754 |
Application of flue gas recirculation (FGR) technology on natural gas-fired boiler to reduce air pollutant emissions.
|
Printing and Publishing |
Boiler |
DP(II) |
| 20D0748 |
Adoption of an exhaust treatment system using zeolite adsorption concentrator with automatic desorption and catalytic oxidation technology to reduce VOCs emissions from plastic product manufacturing
|
Chemical Products |
Others |
DP(II) |
| 20D0743 |
Adoption of chemical scrubbing and UV photocatalytic oxidation technology to reduce VOC emissions from injection moulding process
|
Chemical Products |
Blow moulding / Injection moulding |
DP(II) |
| 20D0741 |
Adoption of chemical scrubbing and UV photocatalytic oxidation technology to reduce VOC emissions from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP(II) |
| 20D0739 |
Replacement of multiple standalone feed blowers with centralized vacuum system to achieve optimal efficiency and save energy
|
Chemical Products |
Others |
DP(II) |
| 20D0738 |
Adoption of chemical scrubbing and UV photocatalytic oxidation technology to reduce VOC emissions from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP(II) |
| 18D0631 |
Using non-invasive electromagnetic scale control system to prevent membrane biofouling and enhance water recycling rate of reverse osmosis (RO) water recycling system
|
Metal and Metal Products |
Wasterwater pre-treatment |
DP |
| 18D0652 |
Adoption of solvent recovery technology using vapor permeable membrane to reduce VOCs emissions from antibiotic manufacturing process
|
Textiles |
Energy saving |
DP |
| 18D0665 |
Use of UV-degradation, water scrubbing and activated carbon adsorption technologies to reduce VOCs from flooded lubrication, varnish trickling and drying processes
|
Metal and Metal Products |
Drying/Heating |
DP |
| 19D0732 |
Integrate Moving Bed Biofilm Reactor (MBBR) with A2O process to improve the Total Nitrogen (TN) removal efficiency
|
Metal and Metal Products |
Wasterwater pre-treatment |
DP |
| 19D0729 |
Adoption of direct thermal combustion technology to reduce VOCs emission from the coating drying process in insulation wire manufacturing
|
Non-metallic Mineral Products |
Drying/Heating |
DP |
| 19D0728 |
Adoption of direct thermal combustion technology to reduce VOCs emission from the coating drying process in mica product manufacturing
|
Non-metallic Mineral Products |
Drying/Heating |
DP |
| 18D0726 |
Installation of a composite VOC treatment system using wet scrubbing and biofiltration technology to reduce VOC emissions from paint spraying and screen printing
|
Metal and Metal Products |
Paint spraying |
DP |
| 18D0723 |
Adoption of a composite system using integrated low-temperature plasma, UV-degradation and activated carbon adsorption to reduce VOC emissions from paint spraying process.
|
Metal and Metal Products |
Paint spraying |
DP |
| 18D0721 |
Adoption of chemical scrubbing to remove VOCs in exhaust gas from solder mask printing process
|
Metal and Metal Products |
PCB manufacturing |
DP |
| 18D0718 |
Waste heat recovery of compressed air systems to recover rejected heat to produce hot water and preheat the fresh air for footwear manufacturing
|
Chemical Products |
Compressed air system |
DP |
| 18D0707 |
Adoption of automatic electrostatic powder coating system replacing the conventional manual spraying operation to save paint/solvent and reduce VOC emissions
|
Metal and Metal Products |
Paint spraying |
DP |
| 18D0706 |
Adoption of chemical scrubbing and UV photocatalytic oxidation technology to reduce VOC emissions from paint spraying process
|
Chemical Products |
Paint spraying |
DP |
| 18D0705 |
Adoption of an exhaust treatment system using regenerative thermal oxidation technology to reduce VOCs emission from the metal printing process
|
Printing and Publishing |
Printing |
DP |
| 18D0704 |
Using low liquor ratio garment dyeing machine (Rotary drum machines) to save water and chemical
|
Textiles |
Dyeing |
DP |
| 18D0697 |
Waste heat recovery of compressed air systems to recover rejected heat and produce hot water for drying process and save energy
|
Metal and Metal Products |
Compressed air system |
DP |
| 18D0695 |
Use of ozone in denim fabric decolorization process instead of traditional chemical bleaching process to reduce water and chemical usage
|
Textiles |
Dyeing |
DP |
| 18D0693 |
Adoption of enclosed infrared heating oven to replace resistance baking oven for textile printing to save energy
|
Textiles |
Drying/Heating |
DP |
| 18D0688 |
Use of electric induction thermal oil boiler to replace diesel-fired thermal oil boiler for drying process industry to reduce air pollutants emissions
|
Chemical Products |
Drying/Heating |
DP |
| 18D0678 |
Adoption of water scrubbing, UV-degradation and activated carbon adsorption technologies to reduce VOC emissions from paint spraying process
|
Chemical Products |
Paint spraying |
DP |
| 18D0677 |
Installation of a composite exhaust air treatment system using chemical scrubbing, UV-degradation and activated carbon adsorption to reduce VOC emissions from screen printing, printing, lamination and varnish processes
|
Printing and Publishing |
Printing |
DP |
| 18D0676 |
Installation of a composite treatment system using UV photo-catalytic oxidation and chemical scrubbing to remove VOCs in exhaust gas from printing and adhesive application processes
|
Textiles |
Ink-jet printing |
DP |
| 18D0674 |
Using automatic bean curd sheet machine to replace traditional manual bean curd sheet production process for food manufacturing process to enhance productivity and save energy
|
Food and Beverage |
Food processing |
DP |
| 18D0673 |
Installation of a composite exhaust air treatment system using a combination of water scrubbing, UV photocatalytic oxidation and activated carbon adsorption to reduce VOC emissions from paint spraying process
|
Furniture |
Paint spraying |
DP |
| 18D0670 |
Installation of automatic ultraviolet (UV) printing and curing machine for toys manufacturing to replace conventional solvent-based manual pad printing process to reduce VOC emissions
|
Chemical Products |
Printing |
DP |
| 18D0668 |
Adoption of regenerative thermal oxidizer (RTO) treatment system with heat recovery technology to reduce VOC emissions from drying process and save energy
|
Printing and Publishing |
Printing |
DP |
| 18D0661 |
Using online sludge recovery system and reuse sludge in papermaking production line and save energy consumption of pulping process.
|
Paper and Paper Products |
Pulp making |
DP |
| 18D0650 |
Using knitted open width continuous bleaching pretreatment combined machine to reduce process water consumption, chemical usage and steam saving
|
Textiles |
Dyeing |
DP |
| 18D0645 |
Using vibrating membrane with NF membrane to treat and recycle the wastewater contain water-based paints to spray tower and water curtain cabinet
|
Metal and Metal Products |
Machining |
DP |
| 18D0644 |
Using vibrating membrane and Reverse Osmosis (RO) system to treat and recycle the polishing wastewater to polishing process
|
Metal and Metal Products |
Machining |
DP |
| 18D0643 |
Use of activated carbon adsorption and offline catalytic oxidation technologies to remove VOCs in exhaust gas from paint spraying and plastic injection molding
|
Chemical Products |
Paint spraying |
DP |
| 18D0640 |
Using electro dialysis and cyclone electrolysis technology to online recover copper and reuse cleaning water from acid copper cleaning water in electroplating process in a metal and metal products manufacturing factory.
|
Metal and Metal Products |
Surface treatment |
DP |
| 18D0638 |
Using asynchronous two-head automatic feeding laser cutting machine to replace single head laser cutting machine for toy industry to enhance productivity and save energy
|
Chemical Products |
Others |
DP |
| 17D0608 |
Retrofitting central air-conditioning system with phase change material (PCM) cooling thermal storage to achieve optimal energy efficiency and save energy
|
Metal and Metal Products |
Central air conditioning |
DP |
| 17D0607 |
Use of ultrasonic humidifier to replace electrode steam humidifier for the constant temperature and humidity workshop to save energy
|
Metal and Metal Products |
Central air conditioning |
DP |
| 17D0596 |
Adoption of UV photo-catalytic oxidation technology to reduce VOC emissions from enamel coating on copper wire
|
Metal and Metal Products |
Paint spraying |
DP |
| 17D0587 |
Replacement of refrigerated dryer for compressed air system with split module adsorption dryer for saving energy
|
Metal and Metal Products |
Compressed air system |
DP |
| 17D0570 |
Use of energy efficient water-cooled chiller equipped with variable-speed drive (VSD) direct-drive centrifugal compressor to save energy
|
Chemical Products |
Central air conditioning |
DP |
| 17D0568 |
Retrofitting permanent magnet synchronous motor for extrusion blow molding machines to reduce energy consumption
|
Chemical Products |
Blow moulding / Injection moulding |
DP |
| 17D0565 |
Installation of water bath vaporizer to replace air ambient vaporizer on liquefied natural gas (LNG) regasification process to recover waste energy
|
Metal and Metal Products |
Others |
DP |
| 17D0561 |
Installation of an exhaust air treatment system using chemical scrubbing to reduce VOC emissions from showpiece manufacturing
|
Furniture |
Paint spraying |
DP |
| 17D0543 |
Using high-frequency pulse electrocoagulation system and Microfiltration membrane technology to recycle electroplating wastewater in a metal and metal products manufacturing factory.
|
Metal and Metal Products |
Surface treatment |
DP |
| 17D0541 |
Using double membrane process composed of MBR and reverse osmosis (RO) to remove COD, SS and Ammonia in food industry wastewater .
|
Food and Beverage |
Wasterwater pre-treatment |
DP |
| 17D0539 |
Adoption of energy-efficient UV-LED powered curing machine to replace high pressure mercury curing machine for silkscreen process to save energy
|
Metal and Metal Products |
PCB manufacturing |
DP |
| 17D0532 |
Using Fenton and A/O combined with ceramic membrane filtration technology for painting wastewater treatment in a plastic production factory to achieve effluent reuse.
|
Chemical Products |
Paint spraying |
DP |
| 16D0511 |
Retrofitting a fiberglass-melting furnace with oxy-fuel combustion technology to reduce NOx emission
|
Non-metallic Mineral Products |
Fiberglass |
DP |
| 16D0459 |
Adoption of vertical continuous plating (VCP) to improve plating quality and save water
|
Metal and Metal Products |
Surface treatment |
DP |
| 16D0457 |
Installation of dry cleaning machine with cleaning agent vapour recovery system to replace conventional wet washing process to reduce water consumption and chemical usage
|
Textiles |
Laundry process |
DP |
| 15D0447 |
Adoption of nano activated carbon adsorption and online regeneration technology to reduce COD of wastewater from garment manufacturing processing
|
Textiles |
Laundry process |
DP |
| 15D0407 |
Variable speed drive (VSD) retrofit for hydraulic pipe bending machines to achieve energy saving
|
Metal and Metal Products |
Machining |
DP |
| 18D0689 |
Installation of ultraviolet (UV) paint spraying and curing machine and infrared tunnel drying oven to replace conventional solvent-based paint spraying and cabinet drying oven and reduce VOC emissions
|
Metal and Metal Products |
Paint spraying |
DP |
| 18D0664 |
Adoption of an exhaust treatment system using zeolite rotor concentrator and regenerative thermal oxidation technologies to reduce VOCs emission from the paint manufacturing process
|
Chemical Products |
Paint manufacturing |
DP |
| 18D0656 |
Installation of a composite exhaust air treatment system using a combination of water scrubbing, UV photocatalytic oxidation and activated carbon adsorption to reduce VOC emissions from paint spraying, pad printing & plastic injection molding process
|
Metal and Metal Products |
Paint spraying |
DP |
| 18D0651 |
Adoption of solvent recovery technology using vapor permeable membrane to reduce VOCs emissions from antibiotic manufacturing process
|
Chemical Products |
Others |
DP |
| 18D0648 |
Adoption of solvent recovery technology using cryogenic condensation to reduce VOCs emissions from Insulin manufacturing
|
Chemical Products |
Others |
DP |
| 17D0547 |
Adoption of an exhaust treatment system using zeolite rotor concentration and regenerative thermal oxidation technologies to reduce VOCs emission from printing process
|
Printing and Publishing |
Printing |
DP |
| 17D0542 |
Waste heat recovery of compressed air systems to recover rejected heat and produce hot water for food manufacturing
|
Food and Beverage |
Compressed air system |
DP |
| 16D0517 |
Using electrocoagulation and A2O biological treatment to reuse emulsion wastewater in pipe expanding process in a steel pipe manufacturing factory.
|
Metal and Metal Products |
Machining |
DP |
| 16D0497 |
Replacing of traditional drug pill wax sealing machine with automatic plastic pill wax sealing machine to enhance productivity and save energy
|
Chemical Products |
Pharmaceutical |
DP |
| 16D0493 |
Servo motor control retrofit for die-casting machines to reduce energy consumption
|
Metal and Metal Products |
Energy saving |
DP |
| 16D0479 |
Energy efficient UV-LED powered printed circuit board exposure machine
|
Metal and Metal Products |
PCB manufacturing |
DP |
| 14D0376 |
Use of energy efficient air-cooled chiller equipped with oil-free magnetic bearing centrifugal compressor to save energy
|
Chemical Products |
Blow moulding / Injection moulding |
DP |
| 16D0473 |
Installation of automatic silicone emulsion production system with on-line analyzers and high efficient agitators to enhance productivity and reduce energy consumption
|
Chemical Products |
Others |
DP |
| 14D0371 |
Replacement of energy efficient motor for a yarn production line to reduce energy consumption
|
Textiles |
Energy saving |
DP |
| 15D0418 |
Replacing chemical solvent with burn-off ovens for metal surface cleaning to reduce VOCs emissions
|
Metal and Metal Products |
Surface treatment |
DP |
| 16D0486 |
Retrofitting plastic injection moulding machines cooling system with a closed circuit cooling tower to optimize process cooling efficiency and save energy
|
Metal and Metal Products |
Injection moulding |
DP |
| 19D0733 |
Installation of composite treatment system using UV-degradation and activated carbon adsorption technologies to reduce VOC emissions from FRP moulding and crossover winding of sand filter tank process
|
Metal and Metal Products |
Others |
DP |
| 17D0536 |
Installation of wet spraying scrubber with quicklime to reduce SO2 emissions from industrial boiler flue gas.
|
Chemical Products |
Drying/Heating |
DP |
| 19D0735 |
Installation of a composite exhaust air treatment system using a combination of UV photocatalytic oxidation and activated carbon adsorption to reduce VOC emissions from injection moulding process
|
Metal and Metal Products |
Others |
DP |
| 19D0734 |
Installation of a composite exhaust air treatment system using a combination of UV photocatalytic oxidation and activated carbon adsorption to reduce VOC emissions from screen printing, pad printing and paint mixing processes
|
Metal and Metal Products |
Screen printing |
DP |
| 19D0731 |
Installation of a composite exhaust air treatment system using a combination of UV photocatalytic oxidation and activated carbon adsorption to reduce VOC emissions from plastic manufacturing process
|
Chemical Products |
Plastic processing |
DP |
| 19D0730 |
Energy efficient two-stage rotary screw air compressor with built-in variable speed drive feature to save energy
|
Metal and Metal Products |
Compressed air system |
DP |
| 18D0727 |
Use of composite treatment system using UV-degradation and activated carbon adsorption technologies to reduce VOC emissions from injection molding process
|
Metal and Metal Products |
Others |
DP |
| 18D0724 |
Use of composite treatment system using UV-degradation and activated carbon adsorption technologies to reduce VOC emissions from printing and screen printing process
|
Printing and Publishing |
Printing |
DP |
| 18D0719 |
Adopting grid-connected photovoltaic system as an ancillary electrical power supply to reduce air pollutant and save energy
|
Chemical Products |
Others |
DP |
| 18D0717 |
Installation of a composite exhaust air treatment system using a combination of water scrubbing, UV photocatalytic oxidation and activated carbon adsorption to reduce VOC emissions from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP |
| 18D0716 |
Adoption of UV photo-catalytic oxidation technology to reduce VOC emissions from plastic injection moulding process
|
Metal and Metal Products |
Others |
DP |
| 18D0715 |
Adoption of a UV-degradation treatment system to remove VOCs from plastic manufacturing
|
Chemical Products |
Plastic processing |
DP |
| 18D0714 |
Adopting energy optimization system for package air conditioners with water cooled condenser to save energy
|
Textiles |
Central air conditioning |
DP |
| 18D0713 |
Using non-invasive electromagnetic scale control system to prevent limescale formation and enhance heat transfer efficiency of steam boilers for textiles factory
|
Textiles |
Boiler |
DP |
| 18D0712 |
Adoption of an exhaust treatment system using zeolite adsorption and bag filter technology to reduce VOCs emissions from printing process
|
Printing and Publishing |
Printing |
DP |
| 18D0708 |
Adopting energy optimization system for package air conditioners with water cooled condenser to save energy
|
Printing and Publishing |
Central air conditioning |
DP |
| 18D0698 |
Adoption of wet scrubbing and UV photocatalytic oxidation technologies to reduce VOC emissions from the plastic blown film manufacturing process
|
Chemical Products |
Plastic processing |
DP |
| 18D0696 |
Adoption of a UV-degradation treatment system to remove VOCs from plastic film processing
|
Chemical Products |
Plastic processing |
DP |
| 18D0690 |
Installation of a composite exhaust air treatment system using chemical scrubbing and activated carbon adsorption to reduce VOC emissions from plastic pellet manufacturing process
|
Chemical Products |
Plastic processing |
DP |
| 18D0686 |
Installation of a composite exhaust air treatment system using a combination of water scrubbing and UV photocatalytic oxidation to remove VOCs in exhaust gas from plastic injection molding
|
Metal and Metal Products |
Others |
DP |
| 18D0680 |
Use of combination of UV-degradation and activated carbon adsorption technologies to reduce VOC emissions from screen printing and pad printing process
|
Chemical Products |
Printing |
DP |
| 18D0679 |
Adoption of a UV-degradation treatment system to remove VOCs from injection molding of plastic products manufacturing process
|
Chemical Products |
Blow moulding / Injection moulding |
DP |
| 18D0672 |
Installation of automatic enclosed screen printing system replacing the conventional manual screen printing to save paint/solvent and reduce VOC emissions
|
Metal and Metal Products |
Screen printing |
DP |
| 18D0671 |
Adoption of a UV-degradation treatment system to remove VOCs from injection molding of plastic products manufacturing process
|
Chemical Products |
Blow moulding / Injection moulding |
DP |
| 18D0667 |
Adopting grid-connected photovoltaic system as an ancillary electrical power supply for a printing factory to reduce air pollutant and save energy
|
Printing and Publishing |
Others |
DP |
| 18D0660 |
Adoption of an exhaust treatment system using zeolite adsorption and bag filter technology to reduce VOCs emissions from printing process
|
Printing and Publishing |
Printing |
DP |
| 18D0659 |
Using non-invasive electromagnetic scale control system to prevent limescale formation and enhance heat transfer efficiency of the cooling systems of plastic injection moulding machines
|
Metal and Metal Products |
Central air conditioning |
DP |
| 18D0658 |
Waste heat recovery of compressed air systems to recover rejected heat and produce hot water for PCB plating process
|
Metal and Metal Products |
Compressed air system |
DP |
| 18D0636 |
Use of energy efficient water-cooled chiller equipped with oil-free magnetic-bearing centrifugal compressor to save energy
|
Printing and Publishing |
Central air conditioning |
DP |
| 18D0633 |
Installation of power saving system employing self-coupling transformer to stabilize voltage and achieve energy saving in a chemical product manufacturing plant
|
Textiles |
Energy saving |
DP |
| 18D0632 |
Installation of composite exhaust air treatment systems using water scrubbing and UV-degradation technology to reduce VOC emissions from printing of plastic products
|
Printing and Publishing |
Printing |
DP |
| 18D0629 |
Using non-invasive electromagnetic scale control system to prevent limescale formation and enhance heat transfer efficiency of the cooling systems of plastic injection moulding machines
|
Metal and Metal Products |
Central air conditioning |
DP |
| 18D0627 |
Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove VOCs in exhaust gas from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP |
| 17D0614 |
Energy efficient rotary screw air compressor with permanent magnet motor and built-in variable speed drive feature to save energy
|
Metal and Metal Products |
Compressed air system |
DP |
| 17D0610 |
Use of energy efficient water-cooled chiller equipped with variable-speed drive (VSD) direct-drive centrifugal compressor to save energy
|
Paper and Paper Products |
Central air conditioning |
DP |
| 17D0601 |
Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove VOCs in exhaust gas from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP |
| 17D0591 |
Installation of an exhaust air treatment system using chemical scrubbing to reduce VOC emissions from paint spraying of plastic product manufacturing
|
Chemical Products |
Paint spraying |
DP |
| 17D0589 |
Energy efficient rotary screw air compressor with permanent magnet motor and built-in variable speed drive feature to save energy
|
Chemical Products |
Compressed air system |
DP |
| 17D0585 |
Adoption of an exhaust treatment system using zeolite adsorption and bag filter technology to reduce VOCs emissions from printing process
|
Printing and Publishing |
Printing |
DP |
| 17D0567 |
Installation of power saving system employing self-coupling transformer to stabilize voltage and achieve energy saving in a chemical product manufacturing plant
|
Chemical Products |
Energy saving |
DP |
| 17D0546 |
Adoption of an exhaust treatment system using zeolite adsorption and bag filter technology to reduce VOCs emissions from printing process
|
Printing and Publishing |
Printing |
DP |
| 16D0507 |
Replacement of refrigerated dryer for compressed air system with split module adsorption dryer for saving energy
|
Metal and Metal Products |
Compressed air system |
DP |
| 17D0551 |
Adoption of an exhaust treatment system using zeolite adsorption and bag filter technology to reduce VOCs emissions from PCB screen printing process
|
Metal and Metal Products |
Screen printing |
DP |
| 17D0544 |
Using selective non-catalytic reduction (SNCR) technology to treat exhaust gas of circulating fluidized bed (CFB) boiler and reduce air pollutant emissions
|
Paper and Paper Products |
Boiler |
DP |
| 17D0534 |
Adoption of a composite treatment system using low-temperature plasma + UV photocatalytic technology to reduce VOC emissions from printing process
|
Printing and Publishing |
Printing |
DP |
| 17D0558 |
Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove VOCs in exhaust gas from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP |
| 16D0495 |
Using non-invasive electromagnetic scale control system to prevent limescale formation and enhance heat transfer efficiency of the cooling systems of plastic injection moulding machines
|
Metal and Metal Products |
Injection moulding |
DP |
| 17D0578 |
Using non-invasive electromagnetic scale control system to prevent limescale formation and enhance heat transfer efficiency of the cooling systems of plastic injection moulding machines
|
Metal and Metal Products |
Injection moulding |
DP |
| 17D0580 |
Using non-invasive electromagnetic scale control system to prevent limescale formation and enhance heat transfer efficiency of cooling tower of centralized air-conditioning system
|
Printing and Publishing |
Central air conditioning |
DP |
| 17D0535 |
Replacement of multiple standalone cooling systems for main spindle of CNC drilling machines to centralized cooling system with variable speed drive technology and automatic monitoring/control to match the load demand for achieving optimal efficiency of cooling system and saving energy
|
Metal and Metal Products |
Machining |
DP |
| 19D0736 |
Adoption of UV photo-catalytic oxidation technology to reduce VOC emissions from plastic injection moulding process
|
Metal and Metal Products |
Others |
DP |
| 18D0720 |
Installation of composite exhaust air treatment systems using chemical scrubbing and UV photo-catalytic oxidation technology to reduce VOC emissions from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP |
| 18D0709 |
Using energy-efficiency drying tunnel to replace industrial electric ovens for PCB drying/curing process to save energy
|
Metal and Metal Products |
Drying/Heating |
DP |
| 18D0703 |
Adopting automatic lipstick molding machine to replace lipstick production line to enhance productivity and save energy
|
Chemical Products |
Energy saving |
DP |
| 18D0702 |
Replacement of multiple standalone cooling systems of CNC drilling machines to centralized cooling system with variable speed drive technology and automatic monitoring/control to match the load demand for achieving optimal efficiency of cooling system and saving energy
|
Metal and Metal Products |
Central air conditioning |
DP |
| 18D0699 |
Adoption of UV photo-catalytic oxidation technology to reduce VOC emissions from plastic package printing process
|
Printing and Publishing |
Printing |
DP |
| 18D0691 |
Replacing multiple standalone vacuum pumps with centralized vacuum system employing variable speed drive for achieving optimal efficiency and saving energy
|
Chemical Products |
Others |
DP |
| 18D0687 |
Adopting automatic film wrapping machines to save energy and enhance productivity
|
Chemical Products |
Packaging |
DP |
| 18D0684 |
Adoption of central control and monitoring system (CCMS) to enhance centralized air-conditioning system operation efficiency and save energy
|
Chemical Products |
Central air conditioning |
DP |
| 18D0682 |
Installation of a composite exhaust air treatment system using low-temperature plasma and activated carbon adsorption to reduce VOC emissions from plastic products manufacturing process
|
Metal and Metal Products |
Others |
DP |
| 18D0681 |
Installation of a composite exhaust air treatment system using a combination of water scrubbing, UV-degradation and activated carbon adsorption to reduce VOC emissions from paint spraying process
|
Chemical Products |
Paint spraying |
DP |
| 18D0675 |
Using high temperature waste flue gas from thermal oil boiler to replace electrical heater in sludge drying process to save energy
|
Chemical Products |
Energy saving |
DP |
| 18D0669 |
Use of combination of UV-degradation and activated carbon adsorption technologies to reduce VOC emissions from pad printing process
|
Chemical Products |
Printing |
DP |
| 18D0663 |
Energy efficient two-stage rotary screw air compressor with built-in variable speed drive feature to save energy
|
Printing and Publishing |
Compressed air system |
DP |
| 18D0655 |
Retrofitting UV-degradation treatment system to existing air treatment system to reduce VOC emissions from lost-wax casting
|
Metal and Metal Products |
Others |
DP |
| 18D0654 |
Retrofitting UV-degradation treatment system to existing air treatment system to reduce VOC emissions from lost-wax casting
|
Metal and Metal Products |
Others |
DP |
| 18D0653 |
Using pervaporation technology to replace azeotropic distillation for ethanol dehydration process to save energy
|
Chemical Products |
Pharmaceutical |
DP |
| 18D0647 |
Adoption of heat recovery technology of hot waste dye water from dyeing process to save energy
|
Textiles |
Dyeing |
DP |
| 18D0646 |
Use of energy efficient oil-free magnetic-bearing centrifugal blower in aeration process for waste water treatment to save energy
|
Chemical Products |
Energy saving |
DP |
| 18D0639 |
Using selective non-catalytic reduction (SNCR) NOx reduction technology to treat boiler flue gas and reduce air pollutant emissions
|
Chemical Products |
Others |
DP |
| 18D0634 |
Adopting grid-connected photovoltaic system as an ancillary electrical power supply for a textile factory to reduce air pollutant and save energy
|
Textiles |
Energy saving |
DP |
| 18D0630 |
Using non-invasive electromagnetic scale control system to prevent limescale formation and enhance heat transfer efficiency of steam boilers for textiles factory
|
Textiles |
Boiler |
DP |
| 18D0628 |
Replacing multiple standalone compressed air network with centralized compressed air network employing central controller and variable speed drive for achieving optimal efficiency and saving energy
|
Metal and Metal Products |
Compressed air system |
DP |
| 18D0625 |
Adopting automatic thin-film transistor liquid crystal display (TFT-LCD) glass cutting machine to save energy and enhance productivity
|
Metal and Metal Products |
Machining |
DP |
| 18D0624 |
Using non-invasive electromagnetic scale control system to prevent limescale formation and enhance heat transfer efficiency of cooling tower of centralized air-conditioning system
|
Printing and Publishing |
Central air conditioning |
DP |
| 17D0616 |
Adoption of a composite treatment system using low-temperature plasma + UV photocatalytic technology to reduce VOC emissions from paint spraying process
|
Chemical Products |
Paint spraying |
DP |
| 17D0613 |
Installation of composite exhaust air treatment systems using UV photocatalytic oxidation and activated carbon adsorption technologies to remove VOCs from printing process
|
Printing and Publishing |
Printing |
DP |
| 17D0609 |
Waste heat recovery of compressed air systems to recover rejected heat and produce hot water for PCB plating process.
|
Metal and Metal Products |
Compressed air system |
DP |
| 17D0597 |
Adopting energy optimization system for package air conditioners with water cooled condenser to save energy
|
Textiles |
Central air conditioning |
DP |
| 17D0592 |
Installation of wet spraying scrubber with quicklime to treat exhaust gas of boiler and reduce SO2 emissions
|
Generic application |
Drying/Heating |
DP |
| 17D0581 |
Adoption of iron carbon micro-electrolysis + UV-degradation technologies to reduce VOCs emissions from paint spraying process
|
Chemical Products |
Paint spraying |
DP |
| 17D0579 |
Using non-invasive electromagnetic scale control system to prevent limescale formation and enhance heat transfer efficiency of cooling tower of centralized air-conditioning systems
|
Chemical Products |
Blow moulding / Injection moulding |
DP |
| 17D0577 |
Energy efficient UV-LED powered printed circuit board (PCB) solder mask exposure machine
|
Metal and Metal Products |
Others |
DP |
| 17D0563 |
Installation of an exhaust air treatment system using chemical scrubbing to reduce VOC emissions from electronics product manufacturing
|
Metal and Metal Products |
Paint spraying |
DP |
| 17D0555 |
Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove VOCs in exhaust gas from electrophoretic painting process
|
Metal and Metal Products |
Others |
DP |
| 16D0521 |
Adoption of high-performance microporous squeezing rolls to remove excess liquid in textile finishing process to reduce steam consumption and hence save energy
|
Textiles |
Drying/Heating |
DP |
| 15D0419 |
Adoption of in-line acidic etchant regeneration and copper recovery system in printed circuit board production process
|
Metal and Metal Products |
PCB manufacturing |
DP |
| 15D0422 |
Adoption of low temperature plasma technology to reduce VOC emissions from plastic products manufacturing process
|
Chemical Products |
Plastic processing |
DP |
| 15D0424 |
Plasma technology to reduce VOC emissions from paint spraying of optical manufacturing process
|
Metal and Metal Products |
Paint spraying |
DP |
| 15D0425 |
Using etching solution electrolysis regeneration and recirculating filtration system for on-site recycling the etching solution in a plastic products factory to save water and reduce waste chemical production
|
Chemical Products |
Surface treatment |
DP |
| 15D0426 |
Using on-line recirculating de-smear solution filtration system for on-site recycling de-smear solution for a PCB factory to save water and reduce waste chemical production
|
Metal and Metal Products |
PCB manufacturing |
DP |
| 15D0430 |
Replacing multiple standalone cooling systems with centralized cooling system for CNC machines employing variable speed drive and automatic monitoring / control for achieving optimal efficiency of cooling system and saving energy
|
Metal and Metal Products |
Machining |
DP |
| 15D0433 |
Installation of on-line dryer fabrics cleaner for paper product manufacturing process to save energy and increase productivity
|
Paper and Paper Products |
Papermaking |
DP |
| 15D0434 |
Adopting automatic cartoning and film wrapping machines to save energy and enhance productivity
|
Chemical Products |
Packaging |
DP |
| 15D0435 |
Adoption of Jeans Denim Laser Engraving Machine to replace the traditional “washing finish” process
|
Textiles |
Laundry process |
DP |
| 15D0436 |
Adoption of photo-Fenton for treatment of organic chelating chemical wastewater from metal surface finishing and to reduce the amount of waste sludge and pollutant discharge
|
Chemical Products |
Surface treatment |
DP |
| 15D0437 |
Using non-invasive electromagnetic scale control system to prevent limescale formation and enhance heat transfer efficiency of steam boilers for printing factory
|
Printing and Publishing |
Others |
DP |
| 15D0438 |
Adopting grid-connected photovoltaic system as an ancillary electrical power supply for a textile factory to save energy
|
Textiles |
Energy saving |
DP |
| 15D0439 |
Installation of continuous sterilization system with heat recovery to save energy
|
Food and Beverage |
Cleaning/disinfection |
DP |
| 15D0440 |
Installation of a composite exhaust air treatment system using a combination of UV photocatalytic oxidation and activated carbon adsorption technologies to remove VOCs from pad printing process
|
Chemical Products |
Printing |
DP |
| 15D0441 |
Retrofitting textile stenter machine with direct gas-fired heating system to replace indirect heating system and save energy
|
Textiles |
Stenter Machine |
DP |
| 15D0443 |
Use of energy efficient high-temperature heat pump heating systems with automatic control to replace diesel-fired boiler to heat up electroplating baths to save energy and reduce direct air pollutant emissions
|
Chemical Products |
Surface treatment |
DP |
| 15D0444 |
Retrofitting central air-conditioning system with phase change material (PCM) cooling thermal storage to achieve optimal energy efficiency and save energy
|
Metal and Metal Products |
Central air conditioning |
DP |
| 15D0445 |
Adoption of Energy Optimization System for Air Conditioners to save energy
|
Paper and Paper Products |
Central air conditioning |
DP |
| 15D0446 |
UV-degradation technology to reduce VOC emissions from printing process
|
Printing and Publishing |
Printing |
DP |
| 16D0448 |
Use of Infrared (IR) heating furnace to replace diesel-fired furnace for die-casting process to reduce air pollutant emission
|
Metal and Metal Products |
Drying/Heating |
DP |
| 16D0449 |
Installation of a composite exhaust air treatment system using a combination of water scrubbing, activated carbon adsorption and UV photocatalytic oxidation to reduce VOC emissions from PCB screen printing process
|
Metal and Metal Products |
PCB manufacturing |
DP |
| 16D0450 |
Applying thermal insulation cover on rotary cylinder dryer to save energy
|
Textiles |
Drying/Heating |
DP |
| 16D0453 |
Energy efficient UV-LED powered printed circuit board exposure machine
|
Metal and Metal Products |
PCB manufacturing |
DP |
| 16D0456 |
Adoption of steam management system to reduce steam consumption in textiles production process
|
Textiles |
Drying/Heating |
DP |
| 16D0458 |
Adoption of high efficiency tube filling and sealing machine to save energy
|
Chemical Products |
Packaging |
DP |
| 16D0460 |
Adoption of UV-degradation technology to remove VOCs from plastic products manufacturing processing
|
Chemical Products |
Blow moulding / Injection moulding |
DP |
| 16D0462 |
Adoption of etching solution electrolysis regeneration and re-circulating filtration system to on-site recycle the etching solution in an automotive plastic parts manufacturing factory
|
Chemical Products |
Surface treatment |
DP |
| 16D0463 |
Adoption of constructed wetland system for total phosphorus removal of wastewater from a footwear manufacturing plant
|
Textiles |
Wasterwater pre-treatment |
DP |
| 16D0464 |
Installation of heat recovery devices on industrial electric drying/curing ovens to save energy
|
Metal and Metal Products |
Drying/Heating |
DP |
| 16D0465 |
Adoption of solvent recovery technology using cryogenic condensation to reduce VOCs emissions from pharmaceutical production process
|
Chemical Products |
Pharmaceutical |
DP |
| 16D0466 |
Installation of an exhaust air treatment system using chemical scrubbing to reduce VOC emissions from photo and mirror frame manufacturing
|
Furniture |
Paint spraying |
DP |
| 16D0467 |
Installation of an exhaust air treatment system using chemical scrubbing to reduce VOC emissions from plastic product manufacturing
|
Non-metallic Mineral Products |
Paint spraying |
DP |
| 16D0468 |
Adoption of low-temperature plasma and UV photo-catalytic oxidation technology to reduce VOC emissions from printing process
|
Printing and Publishing |
Printing |
DP |
| 16D0469 |
Using selective non-catalytic reduction (SNCR) technology to treat exhaust gas of boiler and reduce air pollutant emissions
|
Textiles |
Boiler |
DP |
| 16D0470 |
Adoption of energy efficient infrared heating coils for plastic sheet extruder to save energy
|
Chemical Products |
Blow moulding / Injection moulding |
DP |
| 16D0472 |
Adoption of UV-degradation technology to reduce VOC emissions from printing process
|
Printing and Publishing |
Printing |
DP |
| 16D0474 |
Installation of a composite exhaust air treatment system using chemical scrubbing, plasma technologies and activated carbon adsorption to reduce VOC emissions from paint spraying of furniture manufacturing
|
Furniture |
Paint spraying |
DP |
| 16D0477 |
Retrofitting textile stenter machine with direct gas-fired heating system to replace coal-fired indirect heating system and reduce air pollutant emissions
|
Textiles |
Stenter Machine |
DP |
| 16D0478 |
Installation of an exhaust air treatment system using chemical scrubbing to reduce VOC emissions from printing process of plastic product manufacturing
|
Chemical Products |
Printing |
DP |
| 16D0482 |
Using water activation devices to replace water softeners in a textile factory to reduce the scaling of boilers and reduce coal consumption.
|
Textiles |
Boiler |
DP |
| 16D0483 |
Retrofitting coal-fired thermal oil boiler with natural gas-fired thermal oil boiler to replace in a textile industry to reduce air pollutants emissions
|
Textiles |
Drying/Heating |
DP |
| 16D0488 |
Adoption of central control and monitoring system (CCMS) to enhance centralized air-conditioning system operation efficiency and save energy
|
Others |
Central air conditioning |
DP |
| 16D0489 |
Installation of waste steam recovery devices on industrial noodle steamer to save energy
|
Food and Beverage |
Drying/Heating |
DP |
| 16D0490 |
Installation of a composite VOC treatment system for paint manufacturing using wet scrubbing and biofiltration technology to reduce VOC emissions
|
Chemical Products |
Paint manufacturing |
DP |
| 16D0491 |
Adopting of automatic outer diameter (OD) grinder to enhance productivity and save energy
|
Chemical Products |
Energy saving |
DP |
| 16D0494 |
Installation of enclosed vehicle paint spraying chamber with dual-filter and activated carbon adsorption exhaust treatment system to reduce VOC emissions
|
Others |
Paint spraying |
DP |
| 16D0498 |
Retrofitting of metal halide lamps with LED explosion-proof light in high-bay lighting application for printing ink factory to save energy
|
Chemical Products |
Others |
DP |
| 16D0499 |
Adoption of iron carbon micro-electrolysis + activated carbon concentrator and catalytic oxidation technologies to reduce VOCs emissions from plastic product manufacturing
|
Chemical Products |
Blow moulding / Injection moulding |
DP |
| 16D0501 |
Adoption of UV photo-catalytic oxidation technology to reduce VOC emissions from printing process
|
Printing and Publishing |
Printing |
DP |
| 16D0504 |
Adoption of time-programmed dyeing method in textiles production process to save energy
|
Textiles |
Dyeing |
DP |
| 16D0505 |
Adoption of UV-degradation technology to reduce VOC emissions from printing process
|
Printing and Publishing |
Printing |
DP |
| 16D0508 |
Using non-invasive electromag- netic scale control system to prevent limescale formation and enhance heat transfer efficiency of steam boilers for textiles factory
|
Textiles |
Boiler |
DP |
| 16D0510 |
Using new jet aerator system in biological process for sewage treatment to increase the removal efficiency of pollutants
|
Food and Beverage |
Wasterwater pre-treatment |
DP |
| 16D0513 |
Using flue gas recirculation (FGR) technology and selective non-catalytic reduction (SNCR) to treat exhaust gas of boiler and reduce air pollutant emissions
|
Textiles |
Boiler |
DP |
| 16D0514 |
Adoption of energy-efficient UV-LED powered curing machine to replace high pressure mercury curing machine for solder mask and silkscreen process to save energy
|
Metal and Metal Products |
PCB manufacturing |
DP |
| 16D0515 |
Installation of membrane press machine to replace the paint spraying process of panel furniture manufacturing to reduce VOC emissions
|
Furniture |
Paint spraying |
DP |
| 16D0516 |
Adoption of wet scrubbing and low temperature plasma technology to reduce VOC emissions from plastic products manufacturing process
|
Chemical Products |
Plastic processing |
DP |
| 16D0519 |
Adoption of iron carbon micro-electrolysis + UV-degradation technologies to reduce VOCs emissions from lighting fixture manufacturing
|
Metal and Metal Products |
Paint spraying |
DP |
| 16D0520 |
Adoption of energy efficient industrial drying machine for denim fabric to save energy
|
Textiles |
Dyeing |
DP |
| 17D0525 |
Adoption of vertical continuous plating (VCP) to improve plating quality and save water
|
Metal and Metal Products |
Surface treatment |
DP |
| 17D0526 |
Replacing multiple standalone compressed air network with centralized compressed air network employing central controller and variable speed drive for achieving optimal efficiency and saving energy
|
Metal and Metal Products |
Compressed air system |
DP |
| 17D0529 |
Using Electrically Driven Membrane system and RO technology to online recycle and reuse chemicals from cupronickel-tin cleaning water in electroplating process in a metal and metal products manufacturing factory.
|
Metal and Metal Products |
Surface treatment |
DP |
| 17D0531 |
Using Electrically Driven Membrane system and RO technology to online recycle and reuse cyanide copper rinse wastewater in electroplating process in a metal and metal products manufacturing factory.
|
Metal and Metal Products |
Surface treatment |
DP |
| 17D0537 |
Installation of automatic ultraviolet (UV) cured coating line for wooden furniture to replace conventional solvent-based manual spraying operation to reduce VOC emissions
|
Furniture |
Roller coating |
DP |
| 17D0538 |
Installation of composite exhaust air treatment systems using UV photocatalytic oxidation and activated carbon adsorption technologies to remove VOCs from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP |
| 17D0540 |
Waste heat recovery of compressed air systems to recover rejected heat and produce hot water for PCB plating process.
|
Metal and Metal Products |
Compressed air system |
DP |
| 17D0545 |
Installation of turbine driven boiler feed pump to replace electric boiler feed pump to use waste steam from combined heat and power (CHP) plant to save energy
|
Paper and Paper Products |
|
DP |
| 17D0548 |
Energy efficient oil-free two-stage rotary screw air compressor to save energy
|
Chemical Products |
Compressed air system |
DP |
| 17D0549 |
Use of energy efficient oil-free magnetic-bearing centrifugal blower in aeration process for waste water treatment to save energy
|
Chemical Products |
Pharmaceutical |
DP |
| 17D0550 |
Energy efficient two-stage rotary screw air compressor with built-in variable speed drive feature to save energy
|
Metal and Metal Products |
Compressed air system |
DP |
| 17D0552 |
Adoption of iron carbon micro-electrolysis + UV-degradation technologies to reduce VOCs emissions from paint spraying process
|
Chemical Products |
Paint spraying |
DP |
| 17D0553 |
Use of high-temperature heat pump condenser coil to directly replace the electric heater for the heating process of electroplating solution to save energy
|
Metal and Metal Products |
Surface treatment |
DP |
| 17D0554 |
Using composite ceramic membrane and ultrafiltration membrane to filter semiconductor grinding wastewater
|
Metal and Metal Products |
Wasterwater pre-treatment |
DP |
| 11D0219 |
Installation of fiber bundle filtration system to boost up the recycle rate of the biological treated wastewater effluent for paper manufacturing processes reuse to save water and reduce wastewater discharge cost
|
Paper and Paper Products |
Wasterwater pre-treatment |
DP |
| 17D0566 |
Adoption of a composite treatment system using low-temperature plasma + UV photocatalytic technology to reduce VOC emissions from printing process
|
Printing and Publishing |
Printing |
DP |
| 17D0569 |
Use of energy efficient water-cooled chiller equipped with oil-free magnetic-bearing centrifugal compressor to save energy
|
Paper and Paper Products |
Central air conditioning |
DP |
| 17D0571 |
Adoption of UV photo-catalytic oxidation technology to reduce VOC emissions from plastic pellet manufacturing process
|
Chemical Products |
Blow moulding / Injection moulding |
DP |
| 17D0572 |
Adoption of UV photo-catalytic oxidation technology to reduce VOC emissions from printing process
|
Paper and Paper Products |
Printing |
DP |
| 17D0575 |
Installation of side stream pipeline electro adsorption control system for cooling tower of air-conditioning system to replace traditional chemical softening system to reduce waste chemical
|
Metal and Metal Products |
Central air conditioning |
DP |
| 17D0576 |
Using water activation devices to replace water softeners to reduce the scaling of cooling tower and save energy
|
Non-metallic Mineral Products |
Fiberglass |
DP |
| 17D0584 |
Installation of automatic enclosed screen printing system replacing the conventional manual screen printing to save paint/solvent and reduce VOC emissions
|
Metal and Metal Products |
Screen printing |
DP |
| 17D0586 |
Adoption of UV photo-catalytic oxidation technology to reduce VOC emissions
|
Chemical Products |
Paint manufacturing |
DP |
| 17D0588 |
Retrofitting indoor dehumidifiers with centralized refrigerated fresh air dehumidifier to save energy
|
Printing and Publishing |
Central air conditioning |
DP |
| 17D0590 |
Installation of flash steam recovery system on industrial noodle ovens to save energy
|
Food and Beverage |
Drying/Heating |
DP |
| 17D0594 |
Using electro dialysis and cyclone electrolysis technology to online recover copper and reuse cleaning water from acid copper cleaning water in electroplating process in a metal and metal products manufacturing factory.
|
Metal and Metal Products |
Surface treatment |
DP |
| 17D0595 |
Installation of composite exhaust air treatment systems using UV photocatalytic oxidation and activated carbon adsorption technologies to remove VOCs from paint manufacturing process
|
Chemical Products |
Paint manufacturing |
DP |
| 17D0598 |
Adopting of multi-function computer numerical control (CNC) lathe to enhance productivity in machining process and save energy
|
Metal and Metal Products |
Machining |
DP |
| 17D0599 |
Installation of a composite exhaust air treatment system using wet scrubbing, low-temperature plasma, UV photocatalytic technologies and activated carbon adsorption to reduce VOC emissions from wire and cable assembly process
|
Metal and Metal Products |
Others |
DP |
| 17D0600 |
Retrofitting central air-conditioning system with phase change material (PCM) cooling thermal storage to achieve optimal energy efficiency and save energy
|
Metal and Metal Products |
Central air conditioning |
DP |
| 17D0603 |
Using electrostatic precipitation technologies to remove and recover gaseous organics emitted from chemical fiber drying process
|
Textiles |
Drying/Heating |
DP |
| 17D0605 |
Use of energy efficient oil-free magnetic-bearing centrifugal blower in aeration process for waste water treatment to save energy
|
Paper and Paper Products |
Others |
DP |
| 17D0606 |
Energy efficient two-stage permanent magnet variable-speed-drive (VSD) rotary screw air compressors
|
Metal and Metal Products |
Compressed air system |
DP |
| 17D0611 |
Improvement of drying process of furniture manufacturing using microwave infrared coupled drying technology to facilitate switching to water-based painting process and reduce VOC emission
|
Furniture |
Surface lining |
DP |
| 17D0612 |
Use of a combination of activated carbon adsorption and catalytic oxidation technologies to reduce VOCs emission in exhaust gas from paint spraying process in furniture industry
|
Furniture |
Paint spraying |
DP |
| 17D0615 |
Adoption of chemical scrubbing via iron carbon micro-electrolysis + Non-thermal plasma removal + UV Photocatalytic Oxidation technologies to reduce VOCs emissions from silk screen processing
|
Metal and Metal Products |
Screen printing |
DP |
| 17D0617 |
Replacing multiple standalone compressed air network with centralized compressed air network employing central controller and variable speed drive for achieving optimal efficiency and saving energy
|
Metal and Metal Products |
Compressed air system |
DP |
| 18D0620 |
Retrofitting alternate-switching regenerative combustion system for aluminum alloy melting furnace to save energy
|
Metal and Metal Products |
Drying/Heating |
DP |
| 18D0621 |
Adopting Mechanical Vapor Recompression (MVR) system in Chinese medicine concentration process to enhance productivity and save energy
|
Chemical Products |
Pharmaceutical |
DP |
| 18D0622 |
Using energy-efficiency roller hearth furnace to replace pit furnace for copper tube annealing process to save energy
|
Metal and Metal Products |
Drying/Heating |
DP |
| 18D0626 |
Installation of composite exhaust air treatment systems using UV photocatalytic oxidation and activated carbon adsorption technologies to remove VOCs from rubber manufacturing process
|
Chemical Products |
Plastic processing |
DP |
| 18D0635 |
Retrofitting phase controller on three phase asynchronous motor to optimizing the power factor and enhance save energy in a rubber mixing process
|
Textiles |
Others |
DP |
| 18D0683 |
Use of energy efficient oil-free magnetic-bearing centrifugal blower in aeration process for waste water treatment to save energy
|
Chemical Products |
Energy saving |
DP |
| 18D0692 |
Using pressurizing microbubble dissolved air floatation (DAF) process to treat and recycle the garment washing wastewater
|
Textiles |
Laundry process |
DP |
| 18D0694 |
Adoption of an integrated low-temperature plasma and UV photocatalytic oxidation treatment system and activated carbon adsorption to reduce VOC emissions from the glue spreading process.
|
Furniture |
Glue spreading |
DP |
| 13D0305 |
UV-degradation technology to reduce VOC emissions from printing process
|
Printing and Publishing |
Printing |
DP |
| 11D0222 |
Installation of on-site silicon recovery system to recover silicon particles from wafer dicing/backgrind wastewater and to facilitate reuse of process water in order to reduce water and materials consumption in production
|
Metal and Metal Products |
Machining |
DP |
| 14D0395 |
Installation of automatic servo motor driven CNC turret punch pressing machine to enhance productivity and reduce energy consumption
|
Metal and Metal Products |
Machining |
DP |
| 14D0397 |
Regenerative carbon adsorption with solvent recovery system for recovering organic solvent from pharmaceutical granulation process to reduce VOC emission
|
Chemical Products |
Pharmaceutical |
DP |
| 14D0399 |
Retrofitting steam pressing irons with automatic condensate removal valves to reduce energy use and enhance productivity
|
Textiles |
Drying/Heating |
DP |
| 15D0401 |
Energy efficient rotary screw air compressor with permanent magnet motor and built-in variable speed drive feature to save energy
|
Furniture |
Compressed air system |
DP |
| 15D0402 |
Installation of automatic servo motor driven plastic bottle blow moulding machine to enhance productivity and reduce energy consumption
|
Chemical Products |
Blow moulding / Injection moulding |
DP |
| 15D0403 |
Low temperature plasma technology to reduce VOC emissions from battery manufacturing process
|
Metal and Metal Products |
Others |
DP |
| 15D0408 |
Enclosed vehicle paint spraying chamber equipped with dual-filter+activated carbon adsorption exhaust treatment system to reduce VOC emissions
|
Others |
Paint spraying |
DP |
| 15D0412 |
Using on-line recirculating de-smear solution filtration system for on-site recycling de-smear solution for a PCB factory to save water and reduce generation of waste chemicals
|
Metal and Metal Products |
PCB manufacturing |
DP |
| 14D0375 |
Adoption of anaerobic baffled reactor (ABR) and membrane bioreactor (MBR) to enhance COD removal efficiency of wastewater treatment plant for recycling of process water
|
Chemical Products |
Others |
DP |
| 14D0379 |
Adoption of energy efficient infrared heating coils for plastic injection moulding machines to save energy
|
Chemical Products |
Blow moulding / Injection moulding |
DP |
| 14D0381 |
Adoption of non-invasive electromagnetic scale control system to prevent limescale formation and enhance heat transfer efficiency of cooling systems of plastic injection moulding machines
|
Metal and Metal Products |
Injection moulding |
DP |
| 14D0385 |
Reuse of waste water and recovery of waste heat from dyed textile continuous rinsing process to reduce process water consumption and effluent discharge, and to save energy
|
Textiles |
Laundry process |
DP |
| 14D0386 |
Retrofitting existing diesel-fired hot-air circulating ovens with renewable biomass burner for metal hardware paint drying/curing to save fossil fuel and reduce air pollutants emissions
|
Metal and Metal Products |
Drying/Heating |
DP |
| 14D0387 |
Installation of heat recovery devices on industrial electric drying/curing ovens to save energy
|
Metal and Metal Products |
Drying/Heating |
DP |
| 14D0388 |
Installation of automatic rubber injection moulding machine to replace conventional compression moulding machines to save energy and reduce material wastage
|
Chemical Products |
Blow moulding / Injection moulding |
DP |
| 14D0389 |
Installation of energy management system (EMS) integrated with enterprise resource planning (ERP) and product lifecycle management (PLM) system to optimize operating condition of production plant and save energy
|
Chemical Products |
Energy saving |
DP |
| 14D0391 |
Replacement of compressed air-driven venturi vacuum system with regional electric motor-driven vacuum pumps for PCB SMT (surface mount technology) placement equipment to save energy
|
Metal and Metal Products |
PCB manufacturing |
DP |
| 14D0394 |
Retrofitting existing coal-fired dryer to renewable biomass dryer for gypsum block drying to save fossil fuel and reduce air pollutants emissions
|
Non-metallic Mineral Products |
Non-metallic mineral |
DP |
| 14D0359 |
Installation of pulse-jet filters for zinc melting furnaces to control particulate emissions and recover zinc oxide for reuse
|
Metal and Metal Products |
Drying/Heating |
DP |
| 14D0363 |
Adoption of photo-Fenton process for treatment of organic chelating chemical wastewater from metal surface finishing process to reduce the sludge generation and pollutant discharge
|
Chemical Products |
Surface treatment |
DP |
| 14D0364 |
Adoption of wet scrubbing in combination with biofiltration technology to reduce VOC emissions from fiberglass laminate impregnation process
|
Metal and Metal Products |
PCB manufacturing |
DP |
| 14D0365 |
Adoption of energy efficient 3-Dimensional Wound Core Resin-insulated dry-type transformers to replace old transformers to save energy for a beverage manufacturing plant
|
Food and Beverage |
Energy saving |
DP |
| 14D0367 |
Application of selective non-catalytic reduction technology to reduce NOx emission of circulation fluidized bed boiler
|
Paper and Paper Products |
Boiler |
DP |
| 14D0368 |
Adoption of direct metallization system for plated-through-hole (PTH) process to reduce water, energy and chemical consumption, and wastewater discharge
|
Metal and Metal Products |
PCB manufacturing |
DP |
| 14D0369 |
Adoption of in-line acidic etchant regeneration and copper recovery system to recycle acidic etchant and recover copper for re-use in production process
|
Metal and Metal Products |
PCB manufacturing |
DP |
| 14D0370 |
Installation of energy management system (EMS) integrated with enterprise resource planning (ERP) system and manufacturing execution system (MES) to optimize operating condition to save energy for a printing factory
|
Printing and Publishing |
Energy saving |
DP |
| 14D0374 |
Installation of automatic ultraviolet (UV) cured roller coating system for wooden furniture to replace conventional solvent-based manual spraying operation to reduce VOC emissions
|
Furniture |
Roller coating |
DP |
| 13D0339 |
Use of energy efficient chiller equipped with oil-free magnetic-bearing centrifugal compressor to save energy
|
Metal and Metal Products |
Central air conditioning |
DP |
| 13D0340 |
Use of energy efficient chiller equipped with oil-free magnetic-bearing centrifugal compressor to save energy
|
Printing and Publishing |
Central air conditioning |
DP |
| 13D0341 |
Adoption of Membrane-enhanced Sequential Batch Reactor (SMBR) to remove nitrogen and COD from industrial effluent for recycling of treated waste water for production use
|
Metal and Metal Products |
Wasterwater pre-treatment |
DP |
| 13D0343 |
Using non-invasive electromagnetic scale control system to prevent membrane biofouling of reverse osmosis (RO) water recycling system for enhancing water recycling rate
|
Metal and Metal Products |
Central air conditioning |
DP |
| 13D0344 |
Using non-invasive electromagnetic scale control system to enhance heat transfer efficiency of cooling tower of air-conditioning system
|
Printing and Publishing |
Central air conditioning |
DP |
| 13D0346 |
Adoption of in-line alkaline etchant regeneration and copper recovery system in printed circuit board (PCB) production process
|
Metal and Metal Products |
PCB manufacturing |
DP |
| 14D0350 |
Installation of enclosed automatic UV screen printing machine to replace conventional solvent-based screen printing machines to save ink and solvent, and reduce VOC emissions
|
Chemical Products |
Printing |
DP |
| 14D0352 |
Adoption of submerged aerated bio-filter (SAF) technology to enhance COD and ammonia removal efficiency for treatment of PCB wastewater
|
Metal and Metal Products |
PCB manufacturing |
DP |
| 14D0354 |
Adoption of continuous monorail yarn drying oven with variable speed control to enhance productivity and reduce energy consumption
|
Textiles |
Drying/Heating |
DP |
| 14D0355 |
Adoption of energy efficient two-stage rotary screw air compressor with built-in variable speed drive to save energy
|
Metal and Metal Products |
Compressed air system |
DP |
| 14D0356 |
Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove VOCs in exhaust gas from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP |
| 14D0358 |
Adoption of micro-bubble wet scrubbing technology for replacing conventional wet scrubbing and activated carbon adsorption treatment system to remove VOC emissions from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP |
| 13D0327 |
Installation of stand-alone electric heat-conducting oil heaters to replace central coal-fired steam boiler for heat supply to rubber vulcanising hot press machines to save energy and reduce air pollutant emissions
|
Chemical Products |
Drying/Heating |
DP |
| 13D0330 |
Centralized dampening solution filtration system for offset printing machines to cut consumption of isopropyl alcohol (IPA) and reduce disposal of spent dampening solution and VOC emission
|
Printing and Publishing |
Ink/solvent |
DP |
| 13D0331 |
Integrated energy and water management system to optimize utilization of energy and water in a textiles factory
|
Textiles |
Energy saving |
DP |
| 13D0332 |
Retrofitting a fiberglass-melting furnace with heat-pipe waste heat recovery unit to reclaim waste heat from high-temperature exhaust gas to produce steam for production use
|
Non-metallic Mineral Products |
Fiberglass |
DP |
| 13D0333 |
Use of vertical electrostatic precipitator equipped with heat recovery unit to recover gaseous organics emitted from dye fixation process for VOC reduction and waste heat recovery
|
Textiles |
Dyeing |
DP |
| 13D0334 |
Using grid-connected photovoltaic system as an ancillary electrical power supply for a textile factory to save energy
|
Textiles |
Energy saving |
DP |
| 13D0336 |
Using magnetic separator and cascading ultra-filtration system to recycle ferromagnetic particles and wastewater from grinding process
|
Metal and Metal Products |
Machining |
DP |
| 13D0337 |
Adoption of electrocoagulation integrated with membrane bioreactor (MBR) to enhance COD removal efficiency for treatment of electroplating wastewater and to facilitate recycling of treated wastewater by reverse osmosis (RO) system for production use
|
Metal and Metal Products |
Surface treatment |
DP |
| 13D0338 |
Using vibrating membrane filtration system to recycle spent developing solution for a PCB factory to save water and reduce chemical wastes
|
Metal and Metal Products |
PCB manufacturing |
DP |
| 13D0316 |
Use of nano-bubble technology to reduce chemical consumption and wastewater discharge for fabric softening process
|
Textiles |
Others |
DP |
| 13D0318 |
On-line ion-exchange and reverse osmosis system to recover chromium and recycle wastewater from chrome plating rinse water for reuse in electroplating production line
|
Metal and Metal Products |
Surface treatment |
DP |
| 13D0320 |
High frequency switching-mode power supply for electrostatic precipitator to save energy and reduce particulate emissions
|
Others |
Energy saving |
DP |
| 13D0321 |
Energy efficient UV-LED powered printed circuit board exposure machine
|
Metal and Metal Products |
PCB manufacturing |
DP |
| 13D0322 |
DMF recovery system for solvent-laden exhaust from lamination process of circuit boards to reduce VOC emission
|
Metal and Metal Products |
PCB manufacturing |
DP |
| 13D0323 |
Adoption of turbulence suppressing and pressure boosting device with proper re-rating of circulating water pump to reduce pump motor power consumption
|
Textiles |
Energy saving |
DP |
| 13D0324 |
Energy-efficient ultraviolet (UV) cured coating system with laser engraved ceramic anilox roller for printing products finishing to save energy and coating material and reduce VOC emissions
|
Printing and Publishing |
Film laminating/Coating |
DP |
| 13D0325 |
Adoption of air ionization technology to treat VOC-laden off-gas from printing process
|
Printing and Publishing |
Printing |
DP |
| 13D0326 |
Retrofitting a heat-conducting oil boiler with exhaust gas heat recovery unit to preheat feedwater for another coal-fired steam boiler
|
Textiles |
Boiler |
DP |
| 13D0303 |
Use of ozone induced plasma technology to reduce chemical consumption and wastewater discharge from denim fabric decolorization process
|
Textiles |
Dyeing |
DP |
| 13D0304 |
Use of thick film heaters for bra cup moulding machine to save energy
|
Textiles |
Stenter Machine |
DP |
| 13D0306 |
Digital 9-colour ink-jet textile printer to save energy, water and ink thereby reduce VOC emissions
|
Textiles |
Ink-jet printing |
DP |
| 13D0308 |
Selective non-catalytic reduction technology to reduce NOx emission of cement kilns
|
Non-metallic Mineral Products |
Cement manufacturing |
DP |
| 13D0309 |
Variable speed drive for aggregate dryer to save energy for asphalt manufacturing plant
|
Non-metallic Mineral Products |
Cement manufacturing |
DP |
| 13D0310 |
Removal of nitrogen from ammonia-rich industrial effluent by ammonia stripping and anaerobic-anoxic/oxic (A2/O) biological process to recycle after-treatment water for production use
|
Metal and Metal Products |
Wasterwater pre-treatment |
DP |
| 13D0314 |
Vertically mounted reverse osmosis membrane filtration system to recycle the biological treated wastewater effluent for reuse in PCB manufacturing processes
|
Metal and Metal Products |
PCB manufacturing |
DP |
| 13D0315 |
Conductive polymer direct metallization system for plated –through-hole (PTH) process to reduce water, energy and chemical consumption, and wastewater discharge
|
Metal and Metal Products |
Energy saving |
DP |
| 13D0292 |
Heat recovery of used dye water from dyeing tank at a textiles manufacturing plant
|
Textiles |
Dyeing |
DP |
| 13D0293 |
Use of steam driven concentrator with steam regeneration unit to replace conventional water jet vacuum concentrator to save energy in liquid concentration process
|
Food and Beverage |
Drying/Heating |
DP |
| 13D0294 |
Automatic monitoring system to optimize utilization of energy and water in textiles factory
|
Textiles |
Energy saving |
DP |
| 13D0295 |
Low temperature plasma technology to remove VOC emissions from paint spraying process
|
Metal and Metal Products |
Paint spraying |
DP |
| 13D0297 |
Non-invasive electromagnetic scale control system to enhance heat transfer efficiency of cooling tower of air-conditioning system
|
Metal and Metal Products |
Central air conditioning |
DP |
| 13D0299 |
Regenerative carbon adsorption with solvent recovery system for recycling organic solvent from printing process to reduce VOC emission
|
Chemical Products |
Printing |
DP |
| 13D0300 |
VOC reduction system using scrubbing and electrostatic precipitation technologies to remove and recover gaseous organics emitted from dye fixation process of a textile factory
|
Textiles |
Dyeing |
DP |
| 13D0301 |
High-efficiency enclosed continuous-feed horizontal scroll discharge filter centrifuge to reduce fugitive SO2 emissions and save energy
|
Chemical Products |
Others |
DP |
| 13D0302 |
Energy efficient two-stage rotary screw air compressor to save energy
|
Textiles |
Compressed air system |
DP |
| 13D0283 |
Installation of a composite exhaust air treatment system to remove non-methane VOCs (NMVOCs) and odour from plastic processing lines using a combination of physical and biological technologies to reduce VOC emission
|
Chemical Products |
Plastic processing |
DP |
| 13D0284 |
Installation of VOC/odour treatment system for leather spraying/drying and sludge-composting operations with biofiltration technology with immobilized biofilms to reduce VOC emissions
|
Textiles |
Paint spraying |
DP |
| 13D0285 |
Waste heat recovery retrofit of existing compressed air systems to recover rejected heat and produce hot water for Plated Through Hole (PTH) process in a PCB manufacturing plant
|
Metal and Metal Products |
Compressed air system |
DP |
| 13D0286 |
Installation of exhaust air treatment system with the principle of filtering/condensation/electrostatic precipitation to remove and recover gaseous organics emitted from dye fixation process of a textile factory
|
Textiles |
Dyeing |
DP |
| 13D0287 |
Electrostatic precipitator equipped with heat recovery unit to recover gaseous organics emitted from dye fixation process for VOC reduction and waste heat recovery
|
Textiles |
Dyeing |
DP |
| 13D0288 |
Installation of automatic enclosed paint spraying line replacing the conventional manual spraying operation to save ink/solvent and reduce VOC emissions
|
Chemical Products |
Paint spraying |
DP |
| 13D0291 |
Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove VOCs in exhaust gas from printing process
|
Printing and Publishing |
Printing |
DP |
| 12D0272 |
Retrofit of the dryer desiccant regeneration system of an existing twin tower regenerative desiccant compressed air dryer by using a blower and external heating unit to provide regenerative purge air instead of using system compressed air for regenerating the desiccant in order to reduce the amount of regeneration system air consumed and save energy
|
Metal and Metal Products |
Compressed air system |
DP |
| 12D0264 |
Electroless induction lamps for replacing metal halide lamps in high-bay lighting application for an electrical appliance manufacturing plant
|
Metal and Metal Products |
Others |
DP |
| 11D0233 |
Waste heat recovery of compressed air systems to recover rejected heat and produce hot water for production use
|
Food and Beverage |
Compressed air system |
DP |
| 11D0212 |
Installation of renewable biomass boiler in a textile factory to save fossil fuel and reduce air pollutants emissions
|
Textiles |
Boiler |
DP |
| 11D0207 |
Installation of a biogas steam boiler utilizing renewable energy of biogas from wastewater treatment plant as fuel stock to save energy and reduce emissions
|
Food and Beverage |
Others |
DP |
| 11D0204 |
Installation of energy management system (EMS) to automatically and centrally monitor energy facilities for optimizing energy performance and operating condition to save energy for an enameled wire factory
|
Metal and Metal Products |
Energy saving |
DP |
| 09D0128 |
Installation of sealed ink cup rotary pad printer replacing the traditional open ink trough pad printer to save ink/solvent and reduce VOC emissions
|
Metal and Metal Products |
Screen printing |
DP |
| 09D0125 |
Waste heat recovery of rejected heat from compressed air systems to produce hot water for dormitory use
|
Chemical Products |
Compressed air system |
DP |
| 09D0124 |
Electroless induction lamps for replacing high pressure sodium lamps for a metal products factory
|
Metal and Metal Products |
Others |
DP |
| 09D0118 |
Evacuated tube solar water heating system to heat water for soya sauce fermentation process to save energy
|
Food and Beverage |
Drying/Heating |
DP |
| 10D0137 |
Installation of high volume low pressure (HVLP) spray guns to replace the conventional spray guns to save ink/solvent and reduce VOC emissions
|
Metal and Metal Products |
Paint spraying |
DP |
| 10D0136 |
Waste heat recovery of rejected heat from compressed air systems to replace diesel boiler to produce hot water for dormitory use
|
Metal and Metal Products |
Compressed air system |
DP |
| 10D0135 |
In-line etchant regeneration and copper recovery system to regenerate etchant and copper for re-use in production process
|
Metal and Metal Products |
PCB manufacturing |
DP |
| 09D0129 |
Installation of a cold pad batch dyeing machine for fabric dyeing to save energy and water
|
Textiles |
Dyeing |
DP |
| 09D0119 |
Renovating existing coal-fired chain-grate boiler with multilayer combustion technology to sort coal properly in layers for combustion efficiency enhancement to reduce air pollutants emission and save coal consumption
|
Textiles |
Boiler |
DP |
| 08D0080 |
Variable speed drive (VSD) controller for plastic injection moulding machine to save energy
|
Metal and Metal Products |
Injection moulding |
DP |
| 08D0071 |
Solvent recovery system to recover contaminated solvents in cleaning silkscreen for re-use in solder mask screen-printing process
|
Metal and Metal Products |
PCB manufacturing |
DP |
| 08D0067 |
Applying insulation coating on dyeing tank to reduce heat loss and save energy
|
Textiles |
Dyeing |
DP |
| 08D0062 |
Use of electric central aluminum furnace to replace diesel-fired furnace for continuous melting aluminium ingot for aluminium diecasting process to save energy and reduce direct air pollutant emission
|
Metal and Metal Products |
Drying/Heating |
DP |
| 08D0058 |
Use of dual burning technology with pulverized coal firing in chain-grate boiler
|
Textiles |
Boiler |
DP |
| 08D0008 |
Replacing traditional sewing machines by single needle direct drive straight lock stitcher with thread trimmer for improving energy efficiency for textiles industry
|
Textiles |
Others |
DP |
| 10D0163 |
Heat recovery of used dye water from dyeing tank at a textiles manufacturing plant.
|
Textiles |
Dyeing |
DP |
| 12D0267 |
Installation of thermal vapor recompression evaporator with steam jet ejector/thermocompressor to boost low-pressure steam exhaust to a useful higher pressure for heating process reuse to reduce venting of low-pressure exhaust steam and steam consumption to save energy
|
Chemical Products |
Drying/Heating |
DP |
| 12D0270 |
An innovative anhydrous process to remove soap impurity in crude edible oil to reduce water and energy consumption in edible oil refinery
|
Food and Beverage |
Others |
DP |
| 12D0273 |
Replacement of multiple point-of-use cooling systems for CNC machines to centralized cooling system with variable speed drive technology and automatic monitoring/control to match the load demand for achieving optimal efficiency of cooling system and saving energy
|
Metal and Metal Products |
Machining |
DP |
| 12D0275 |
Installation of automatic enclosed vacuum coating system replacing the conventional manual spraying operation to save paint/solvent and reduce VOC emissions
|
Metal and Metal Products |
Paint spraying |
DP |
| 12D0277 |
Servo motor control retrofit for hydraulic pressing machines to enhance productivity and reduce energy consumption
|
Metal and Metal Products |
Injection moulding |
DP |
| 12D0278 |
Graphite particles recovery and process wastewater recycling from battery manufacturing wastewater by plate-and-frame filter press and a cascading filtration system with ultrafiltration and reverse osmosis (RO) to recover materials and to save water
|
Metal and Metal Products |
Machining |
DP |
| 12D0279 |
Printing ink tank wash wastewater recycling Ink and wastewater recovery with a NF vibrating membrane filtration system for a printing ink manufacturing plant
|
Chemical Products |
Others |
DP |
| 12D0281 |
Enclosed solvent/vapour degreasing system with automated solvent recovery system using alternative hydrocarbon solvent to reduce VOC emissions
|
Metal and Metal Products |
Others |
DP |
| 11D0241 |
Leather processing wastewater recycling by a cascading filtration system with ultrafiltration and reverse osmosis (RO) for manufacturing processes reuse to save water and reduce wastewater discharge cost
|
Textiles |
Dyeing |
DP |
| 11D0242 |
Reclamation of biological treated PCB wastewater to produce industrial water of different grades by membrane and ion-exchange unit processes to save water and reduce wastewater discharge
|
Metal and Metal Products |
PCB manufacturing |
DP |
| 11D0243 |
Installation of energy management system (EMS) to automatically and centrally monitor energy facilities for optimizing energy performance and operating condition to save energy for a stainless steel foundry
|
Metal and Metal Products |
Energy saving |
DP |
| 11D0244 |
Enclosed automatic silk screen cleaning and solvent recovery system to automatically clean screen and reclaim contaminated solvents in silkscreen cleaning for re-use in solder mask screen-printing process
|
Metal and Metal Products |
PCB manufacturing |
DP |
| 11D0245 |
Installation of power saving system employing self-coupling transformer to stabilize voltage and achieve energy saving in a metal products manufacturing plant
|
Metal and Metal Products |
Energy saving |
DP |
| 11D0246 |
Accomplishment of metal rinse treatment, wastewater recycling and copper recovery by an in-line ion-exchange+electrowinning process for a PCB manufacturing plant
|
Metal and Metal Products |
PCB manufacturing |
DP |
| 11D0248 |
Knit-wear wastewater effluent recycling by a cascading filtration system with ultrafiltration and reverse osmosis (RO) for manufacturing processes reuse to save water and reduce wastewater discharge cost
|
Textiles |
Wasterwater pre-treatment |
DP |
| 12D0249 |
Installation of automatic chemical (resin) spraying systems to replace traditional inefficient chemical dipping baths for denim garment resin finishing process to reduce chemical consumption and wastewater discharge
|
Textiles |
Others |
DP |
| 12D0253 |
Introduction of a two-stage RO systems (i.e. 2nd stage RO to further polish 1st stage RO concentrate) with UF pre-filtration to recycle the general rinse effluent and boost up the overall wastewater recycle rate for a PCB manufacturing plant
|
Metal and Metal Products |
Machining |
DP |
| 12D0254 |
Retrofit of conventional aluminium ingots preheating furnaces with energy efficient nozzle design and heat recovery for improving the overall thermal efficiency to save energy and reduce air pollutants emissions
|
Metal and Metal Products |
Others |
DP |
| 12D0256 |
Installation of a new advanced oxidation system working in combination with biological treatment for effective dye degradation to enhance colour and COD removal for a textile manufacturing plant
|
Textiles |
Wasterwater pre-treatment |
DP |
| 12D0257 |
Installation of water recycling system with ion-exchange +ultrafiltration to recycle the biological treated wastewater effluent for machines cooling and other uses
|
Metal and Metal Products |
Machining |
DP |
| 12D0260 |
Retrofitting existing effluent treatment system with upflow anaerobic sludge blanket (UASB) technology adopting an innovative dynamic pulse feeding unit and sludge retention packing to enhance COD removal efficiency for high COD industry effluent to reduce the loading in the subsequent recovery system for process water reuse
|
Textiles |
Others |
DP |
| 12D0263 |
Retrofitting of hydraulic pumps with servo motors on a hydraulic plastic injection moulding machines to reduce energy consumption
|
Chemical Products |
Others |
DP |
| 11D0224 |
On-site recycling of de-waxing wastewater with vibrating membrane filtration system for an electroplating factory to save water and reduce waste chemical in production
|
Metal and Metal Products |
Surface treatment |
DP |
| 11D0225 |
Installation of inline electromagnetic scale control system to replace traditional chemical softening system to enhance heat transfer efficiency of cooling tower of air-conditioning system
|
Textiles |
Central air conditioning |
DP |
| 11D0226 |
Use of energy efficient high-temperature heat pump heating systems with automatic control to replace diesel-fired boiler to provide high-temperature process water for anodizing sealing process to save energy and reduce direct air pollutant emissions
|
Metal and Metal Products |
Surface treatment |
DP |
| 11D0227 |
Installation of wireless high precision filling level sensor and high performance fuzzy-expert control system for ball mill of a cement manufacturing plant to maintain the mill operating at optimum level to save energy and enhance productivity
|
Non-metallic Mineral Products |
Others |
DP |
| 11D0228 |
Wool apparel wastewater effluent recycling by a cascading filtration system with ultrafiltration and reverse osmosis (RO) for manufacturing processes reuse to save water and reduce wastewater discharge cost
|
Textiles |
Dyeing |
DP |
| 11D0229 |
Installation of energy efficient microprocessor-controlled battery formation system with discharge energy recycling module to save energy from reduced power losses and cooling demands
|
Metal and Metal Products |
Others |
DP |
| 11D0230 |
Installation of direct-drive type servo-controlled overlock sewing machines to save energy for textiles industry
|
Textiles |
Others |
DP |
| 11D0231 |
Replacement of fluorescent tube with energy efficient LED lighting tube for general lighting application to save energy in a metal products factory
|
Metal and Metal Products |
Others |
DP |
| 11D0232 |
Installation of electric steam cabinets with heat recovery system to reclaim waste heat from exhaust steam to save energy
|
Food and Beverage |
Drying/Heating |
DP |
| 11D0234 |
Use of electric zinc melting and holding furnace to replace diesel-fired furnace for zinc die-casting process to save energy and reduce direct air pollutant emission
|
Metal and Metal Products |
Drying/Heating |
DP |
| 11D0239 |
Removal of nitrogen and COD from printing & dyeing ammonia-rich industrial effluent by anaerobic/anoxic/oxic (A2/O) biological process to facilitate recycling of the after-treatment water for production use
|
Textiles |
Wasterwater pre-treatment |
DP |
| 11D0240 |
Metal hardware manufacturing process wastewater recycling by a cascading filtration system with ultrafiltration and reverse osmosis (RO) for manufacturing processes reuse to save water and reduce wastewater discharge cost
|
Metal and Metal Products |
Surface treatment |
DP |
| 11D0208 |
Energy-efficient ultraviolet (UV) coating system for printing products finishing to enhance productivity, save energy and reduce VOC emissions
|
Printing and Publishing |
Film laminating/Coating |
DP |
| 11D0211 |
Solvent/vapour degreasing system with automated solvent recovery system using alternative hydrocarbon solvent to completely eliminate the emission of trichloroethylene
|
Metal and Metal Products |
Drying/Heating |
DP |
| 11D0213 |
Installation of energy efficient electric pressure cooker to increase productivity and reduce heat lost to save energy
|
Food and Beverage |
Drying/Heating |
DP |
| 11D0214 |
Installation of energy efficient industrial drying machine with heat recovery systems to reclaim waste heat from exhaust air and steam condensate to save energy
|
Textiles |
Drying/Heating |
DP |
| 11D0215 |
Installation of energy efficient industrial drying machine with heat recovery systems to reclaim waste heat from exhaust air and steam condensate to save energy
|
Textiles |
Drying/Heating |
DP |
| 11D0216 |
Installation of NMP recovery system for recycling NMP organic solvent for coatings and cathode substrates in the manufacture of lithium ion batteries to reduce VOC emission
|
Metal and Metal Products |
Others |
DP |
| 11D0217 |
Use of energy efficient natural gas-fired steam boiler to replace coal-fired steam boiler in a textile factory to save energy and reduce air pollutants emissions
|
Textiles |
Boiler |
DP |
| 11D0221 |
Installation of a dampening solution filtration system for sheet-fed offset printing which facilitates extending dampening solution cycle and reducing ratio of isopropyl alcohol (IPA) in order to reduce VOC emission and waste chemical disposal in production
|
Printing and Publishing |
Ink/solvent |
DP |
| 11D0223 |
Installation of energy efficient centralized heat pump heating system with automatic loading control to provide hot process water for electroplating process to save energy
|
Metal and Metal Products |
Energy saving |
DP |
| 10D0186 |
Installation of automatic water-based film laminating machine to eliminate the use of solvent and the emission of VOC.
|
Printing and Publishing |
Film laminating/Coating |
DP |
| 10D0187 |
In-line ion-exchange system to process, recycle and reuse industrial process water in a PCB plant to save water use
|
Metal and Metal Products |
PCB manufacturing |
DP |
| 10D0190 |
Replacement of fluorescent tube with energy efficient LED lighting tube for general lighting application to save energy in a metal products factory
|
Metal and Metal Products |
Others |
DP |
| 11D0195 |
On-site recycling of degreasing wastewater with absorbing oil separator filtration system for an metal products factory to save water and reduce waste chemical in production
|
Metal and Metal Products |
Surface treatment |
DP |
| 11D0196 |
Installation of wastewater treatment system with biological reduction technology for the bioremediation of hexavalent chromium to trivalent chromium and removal of heavy metals from process/wastewater streams for an electroplating factory
|
Metal and Metal Products |
Surface treatment |
DP |
| 11D0197 |
In-line process water saving and recycling system for an electroless nickel immersion gold (ENIG) process line of a PCB manufacturing plant
|
Metal and Metal Products |
PCB manufacturing |
DP |
| 11D0198 |
Replacement of multiple point-of-use vacuum pumps with centralized vacuum system to achieve optimal efficiency and save energy
|
Printing and Publishing |
Others |
DP |
| 11D0199 |
Installation of inline electromagnetic scale control system to replace traditional chemical softening system to enhance heat transfer efficiency of cooling tower of air-conditioning system
|
Chemical Products |
Central air conditioning |
DP |
| 11D0202 |
Replacement of liquid ring vacuum pump by dry rotary screw vacuum pump with solvent recovery unit to reduce water consumption and recover organic solvent in pharmaceutical manufacturing process
|
Chemical Products |
Others |
DP |
| 11D0203 |
Installation of pulse-jet baghouse filters for zinc melting furnaces to control particulate emissions and recover zinc oxide for reuse
|
Metal and Metal Products |
Drying/Heating |
DP |
| 11D0205 |
(Installation of automatic energy-efficient hot stamping machines for pen barrels imprinting to replace manual hot stamping operations to enhance operation efficiency and reduce energy consumption)
|
Chemical Products |
Energy saving |
DP |
| 11D0206 |
Use of hot-air re-circulating wire enameling ovens with catalytic combustion to replace electric-heated wire enameling ovens to reduce VOC emissions and energy consumption
|
Metal and Metal Products |
Drying/Heating |
DP |
| 10D0171 |
Installation of automatic servo-controlled eight-lane four-side seal bag making machine to replace traditional single-lane bag sealing machine to enhance operation efficiency and reduce energy consumption.
|
Chemical Products |
Pharmaceutical |
DP |
| 10D0172 |
Retrofitting a heat-conducting oil boiler with heat-pipe waste heat recovery unit to reclaim waste heat from exhaust gas to produce hot water for production use at a textiles manufacturing plant.
|
Textiles |
Others |
DP |
| 10D0173 |
Installation of electric steam cabinets with heat recovery system to reclaim waste heat from exhaust steam to save energy.
|
Food and Beverage |
Drying/Heating |
DP |
| 10D0174 |
Installation of automatic front placket machine to replace manual cutting and sewing operation by traditional sewing machines to enhance operation efficiency and reduce energy consumption.
|
Textiles |
Others |
DP |
| 10D0175 |
Replacement of multiple point-of-use vacuum pumps with centralized vacuum system to achieve optimal efficiency and save energy.
|
Printing and Publishing |
Others |
DP |
| 10D0177 |
Pressurized condensate return system to recover heat from steam condensate at a textiles manufacturing plant.
|
Textiles |
Boiler |
DP |
| 10D0179 |
Retrofitting coal-fired boiler with biofuel co-firing system utilizing biomass from low-temperature sludge drying system as supplementary feedstock to reduce fossil fuel consumption and energy use
|
Paper and Paper Products |
Others |
DP |
| 10D0180 |
Automatic central ink supply system for sheet-fed offset printing to enhance productivity and save ink, thereby reducing VOC emissions.
|
Printing and Publishing |
Ink/solvent |
DP |
| 10D0181 |
Installation of all-electric injection moulding machine for ultimate precision and energy saving.
|
Chemical Products |
Blow moulding / Injection moulding |
DP |
| 10D0182 |
Installation of a dual filtration and Reverse Osmosis (RO) system to recycle the biological treated wastewater effluent for manufacturing processes use to save water and reduce wastewater discharge cost.
|
Textiles |
Wasterwater pre-treatment |
DP |
| 10D0183 |
Installation of high shear rapid mixer granulator with fluidized bed dryer to replace traditional oscillating granulator with tray-dryer to enhance operation efficiency and reduce energy consumption
|
Chemical Products |
Pharmaceutical |
DP |
| 10D0184 |
Installation of low pressure resin dryer to replace traditional desiccant dryer for plastic injection moulding machine to save energy.
|
Metal and Metal Products |
Injection moulding |
DP |
| 10D0185 |
Installation of sealed ink cup rotary pad printer replacing the traditional open ink trough pad printer to save ink/solvent and reduce VOC emissions.
|
Metal and Metal Products |
Screen printing |
DP |
| 10D0153 |
Installation of renewable biomass boiler in a textile factory to save fossil fuel and reduce air pollutants emissions.
|
Textiles |
Boiler |
DP |
| 10D0156 |
On-site recycling of indigo dye and wastewater with vibrating membrane filtration system for a yarn dyeing factory to save water and reduce waste chemical in production.
|
Textiles |
Wasterwater pre-treatment |
DP |
| 10D0157 |
Retrofitting coal-fired boiler with biogas co-firing system utilizing gaseous fuel from biomass gasification system as supplementary feedstock to reduce fossil fuel consumption and air pollutants emissions.
|
Metal and Metal Products |
Drying/Heating |
DP |
| 10D0158 |
Replacement of conventional rectangular furnace with energy efficient top-feed cylindrical aluminium furnace with pre-heating and new nozzle design to improve the overall thermal efficiency and save energy.
|
Metal and Metal Products |
Drying/Heating |
DP |
| 10D0159 |
Retrofitting compressed air system with Intelligent Flow Controller (IFC) for demand side control to save energy.
|
Others |
Compressed air system |
DP |
| 10D0160 |
Installation of automatic enclosed paint spraying line replacing the conventional manual spraying operation to save ink/solvent and reduce VOC emissions.
|
Chemical Products |
Paint spraying |
DP |
| 10D0162 |
Installation of enclosed automatic screen printing machine to replace traditional screen printing machines to save ink/solvent and reduce VOC emissions.
|
Metal and Metal Products |
Screen printing |
DP |
| 10D0165 |
Replacement of refrigerant R22 by hydrocarbon refrigerant (HyChill Minus50) for a textile industry to reduce energy consumption and enhance cooling system efficiency.
|
Textiles |
Central air conditioning |
DP |
| 10D0167 |
Waste heat recovery retrofit of existing compressed air systems to recover rejected heat and produce hot water for degreasing process.
|
Furniture |
Compressed air system |
DP |
| 10D0168 |
Replacement of refrigerant R22 by hydrocarbon refrigerant (HCR22) for a printing and publishing industry to reduce energy consumption and enhance cooling system efficiency.
|
Printing and Publishing |
Central air conditioning |
DP |
| 10D0169 |
Use of electric central aluminum furnace to replace diesel-fired furnace for continuous melting aluminium ingot for aluminium diecasting process to save energy and reduce direct air pollutant emission.
|
Metal and Metal Products |
Drying/Heating |
DP |
| 10D0170 |
Installation of high energy ion purification system to the air-conditioning system to reduce VOC emission.
|
Metal and Metal Products |
Others |
DP |
| 10D0139 |
Pressurized condensate return system to recover heat from steam condensate at a textiles manufacturing plant.
|
Textiles |
Boiler |
DP |
| 10D0142 |
Use of regenerative combustion system for aluminium furnace to reduce fuel consumption and improve the overall thermal efficiency.
|
Metal and Metal Products |
Machining |
DP |
| 10D0144 |
Installation of micro-arc oxidation system for metal surface treatment to reduce waste chemical in production.
|
Metal and Metal Products |
Surface treatment |
DP |
| 10D0145 |
Installation of renewable biomass boiler in a textile factory to save fossil fuel and reduce air pollutants emissions.
|
Textiles |
Boiler |
DP |
| 10D0146 |
Installation of a dual membrane system (Ultrafiltration+Reverse Osmosis) to recycle the biological treated wastewater effluent for manufacturing processes reuse to save water and reduce wastewater discharge cost.
|
Metal and Metal Products |
Wasterwater pre-treatment |
DP |
| 10D0147 |
Retrofitting circulating fluidized bed boiler with biogas co-firing system utilizing renewable energy of biogas from wastewater treatment plant as fuel stock to save energy.
|
Paper and Paper Products |
Boiler |
DP |
| 10D0148 |
Installation of wastewater treatment system with biological phosphorus removal technology to remove phosphorus from phosphating industrial effluent and recycle the after-treatment water for production use.
|
Metal and Metal Products |
Machining |
DP |
| 10D0149 |
On-site recycling of degreasing wastewater with vibrating membrane filtration system for an electroplating factory to save water and reduce waste chemical in production.
|
Metal and Metal Products |
Surface treatment |
DP |
| 10D0150 |
Use of hybrid anaerobic baffled reactor (HABR) to enhance COD removal efficiency of anaerobic treatment system for a dyeing factory.
|
Textiles |
Wasterwater pre-treatment |
DP |
| 09D0110 |
Automatic central ink supply system for sheet-fed offset printing to enhance productivity and save ink, thereby reducing VOC emissions
|
Printing and Publishing |
Ink/solvent |
DP |
| 09D0114 |
Use of automatic stoking device for combustion efficiency enhancement in a coal-fired chain-grate boiler to reduce air pollutant emission and save coal consumption
|
Chemical Products |
Drying/Heating |
DP |
| 09D0115 |
Evacuated tube solar water heating system to heat water for electroplating process to save energy
|
Metal and Metal Products |
Drying/Heating |
DP |
| 09D0127 |
Using energy efficient natural gas-heated continuous ribbons/webbings dyeing machine with the use of alternative water-based pigments to save energy and reduce waste chemical from traditional disperse dye.
|
Textiles |
Dyeing |
DP |
| 09D0087 |
Energy efficient high frequency switching-mode power supply for electroplating process
|
Metal and Metal Products |
Injection moulding |
DP |
| 09D0088 |
Heat recovery of exhaust gas from oil heater at a textiles manufacturing plant
|
Textiles |
Boiler |
DP |
| 09D0090 |
Applying insulation coating on dyeing tank to reduce heat loss and save energy
|
Textiles |
Dyeing |
DP |
| 09D0091 |
Diesel fuel conditioning system consisting of an in-line magnetic treatment device and a re-circulating diesel pump for continuously treating diesel fuel in diesel tank in order to improve combustion efficiency of the diesel in diesel generator to save energy
|
Chemical Products |
Others |
DP |
| 09D0094 |
Intelligent power saver for flat grinding machine to provide the optimal working power and correct power factor to save energy
|
Metal and Metal Products |
Machining |
DP |
| 09D0095 |
Cooling tower ozone water treatment system with on-site ozone generator to enhance heat transfer efficiency of cooling tower of air-conditioning system
|
Printing and Publishing |
Central air conditioning |
DP |
| 09D0096 |
Direct clamp injection molding machine with servo motor for ultimate precision and energy saving
|
Metal and Metal Products |
Injection moulding |
DP |
| 09D0102 |
Retrofitting screw-type air compressors by variable speed drive technology to save energy
|
Food and Beverage |
Compressed air system |
DP |
| 09D0103 |
Using energy efficient induction heating coil for plastic injection machine to save energy
|
Chemical Products |
Blow moulding / Injection moulding |
DP |
| 09D0106 |
Using energy efficient induction heating coil for plastic injection machine to save energy
|
Chemical Products |
Blow moulding / Injection moulding |
DP |
| 08D0035 |
Variable speed drive (VSD) retrofit for hydraulic pressing and stamping machines to achieve energy saving
|
Metal and Metal Products |
Machining |
DP |
| 08D0037 |
Energy saver for stamping machines to achieve energy saving
|
Metal and Metal Products |
Machining |
DP |
| 08D0038 |
Fully automatic standby power management solution to connect individual power generators in parallel and automatic power switching under grid power supply interruption
|
Printing and Publishing |
Energy saving |
DP |
| 08D0044 |
High efficiency air-conditioner with heat recovery for hot water production
|
Textiles |
Central air conditioning |
DP |
| 08D0045 |
High efficiency air-conditioner that uses the low-temperature condensate for pre-cooling the return air
|
Textiles |
Central air conditioning |
DP |
| 08D0055 |
Flue gas treatment and desulfurization with cyclonic spray scrubber
|
Textiles |
Boiler |
DP |
| 08D0057 |
On-site solvent recovery system to recover solvent in water-based paint emulsifier manufacturing process
|
Chemical Products |
Others |
DP |
| 08D0070 |
Application of high efficiency pulverized coal burner with stepwise combustion technology for cogeneration boiler
|
Paper and Paper Products |
Boiler |
DP |
| 08D0002 |
Power Saving System employing self-coupling transformer
|
Printing and Publishing |
Others |
DP |
| 08D0011 |
High temperature high efficiency heat pump application
|
Textiles |
Central air conditioning |
DP |
| 08D0012 |
Using servo motor technology for reducing energy consumption by traditional sewing machines for textile industry
|
Textiles |
Others |
DP |
| 08D0024 |
No VOC post-printing equipment - Automatic Water Base Film Laminating Machine
|
Printing and Publishing |
Film laminating/Coating |
DP |
| 08D0025 |
High efficiency air-conditioner with heat recovery
|
Metal and Metal Products |
Central air conditioning |
DP |
| 18D0623 |
Installation of direct-drive type servo-controlled lockstitch and coverstitch sewing machines to save energy for textiles industry
|
Textiles |
Others |
DP |
| 17D0593 |
Installation of composite exhaust air treatment systems using chemical scrubbing and UV-degradation technology to reduce VOC emissions from paint spraying of toy manufacturing
|
Metal and Metal Products |
Paint spraying |
DP |
| 17D0602 |
Waste heat recovery of compressed air systems to recover rejected heat to produce hot water and preheat the fresh air for footwear manufacturing
|
Textiles |
Compressed air system |
DP |
| 16D0500 |
Adoption Jeans Denim Laser Engraving Machine to replace the traditional “washing finish” process
|
Textiles |
Laundry process |
DP |
| 16D0509 |
Use of a combination of activated carbon concentrator and catalytic oxidation technologies to remove VOCs in exhaust gas from paint spraying process
|
Chemical Products |
Paint spraying |
DP |
| 16D0476 |
Using fabric dyeing machine to save water
|
Textiles |
Dyeing |
DP |
