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PROJECTS

Research always needs supports.


Research Projects – Government

  1.  含全氟/多氟烷基物質廢棄物氣化燃燒生成之氣膠污染物淨排放特徵及控制。國科會,113-2221-E-006-050-MY3;PI;2024.08–2027.07

  2.  有機磷阻燃劑在居家室內環境流佈、宿命以及其對嬰幼兒健康與發展的影響。國科會,NSTC 113-2221-E-020-005-MY3;Co-PI (2/4);2024.08–2027.07

  3. 固體再生燃料–飛灰共氣化耦合稀釋低氧燃燒之高效低淨排放產能技術開發。國科會,NSTC 113-2222-E-006-001;PI;2024.01–2024.12

  4.  開發新型無焰混燒技術應用於SRF污染物之控制。環保署,112-EPA-F008;Co-PI (2/2);2023.01–2023.12

  5.  開發前沿熱處理工藝循環利用複雜生物質生產可再生燃料及其潛在環境衝擊。北京理工大學,30300122222102;PI;2020.08–2023.12

  6.  電子業酸鹼氣及細懸浮微粒排放係數盤點及控制技術優化。科技部/環保署,MOST-107-EPA-F-016-001;Co-PI (2/3);2019.01—2019.12

  7.  循環經濟應用–粗甘油及廢溶劑能源化與污排放減量技術研發。科技部,MOST 106-2221-E-230-001-MY2;PI;2017.08–2019.07

  8.  使用中車輛污染調查研究計畫。科技部/環保署,MOST-106-EPA-F-011-001;Co-PI (3/4);2017.09–2018.09

  9.  建立移動源不同期別燃料有害空氣污染物排放係數之研究。科技部/環保署,MOST 105-EPA-F-008-003;Co-PI (3/3);2016.08–2017.08

  10. 綠色多元油品研發:模式模擬與柴油引擎動力計測試。科技部,MOST 103-2221-E-230-003-MY2;PI;2014.08–2016.07
  11. 氫氣與汽柴油雙燃料混燒技術之研究:模式模擬與動力計實程測試。國科會/環保署,NSC 102-EPA-F-009-001;Co-PI (3/5);2013.08–2014.08

  12.  水乳化柴油於不同環境條件下之噴霧、燃燒及污染物排放特性研究:定容燃燒器雷射診斷及柴油引擎實驗。國科會,NSC 101-2221-E-230-024;PI;2012.10–2013.12

  13.  仁武、大社、林園石化工業區之揮發性有機物、多環芳香烴化合物、多溴聯苯醚之總量管制策略與最佳可行控制技術。國科會,NSC 100-EPA-F-006-001;PM;2011.12–2012.12

  14.  透過製成混和柴油及乳化重油收含水廢溶劑及含溶劑廢水之技術研發:單油滴燃燒及引擎測試。國科會,NSC 98-2917-I-006-105;PI;2010.06–2011.06


Research Projects – Industry cooperation 

  1. Net emission characteristics and control of aerosol pollutants generated by gasification and combustion of waste containing perfluorinated/polyfluoroalkyl substances. National Science and Technology Council , 113-2221-E-006-050-MY3; PI; 2024.08–2027.07

  2. Distribution and fate of organophosphorus flame retardants in the home and indoor environment and their effects on the health and development of infants and young children. National Science and Technology Council , NSTC 113-2221-E-020-005-MY3; Co-PI (2/4); 2024.08–2027.07

  3. Solid renewable fuel-fly ash co-gasification coupled with diluted low oxygen combustion for high efficiency and low net emission production technology development. National Science and Technology Council , NSTC 113-2222-E-006-001; PI; 2024.01–2024.12

  4. Development of novel flameless co-combustion technology for the control of SRF pollutants. Environmental Protection Administration , 112-EPA-F008; Co-PI (2/2); 2023.01–2023.12

  5. Development of cutting-edge thermal processing technology to recycle complex biomass to produce renewable fuels and its potential environmental impact. Beijing Institute of Technology, 30300122222102; PI; 2020.08–2023.12

  6. Inventory of acid and alkaline gas and fine particulate matter emission coefficients and optimization of control technology in the electronics industry. Ministry of Science and Technology/Environmental Protection Administration , MOST-107-EPA-F-016-001; Co-PI (2/3); 2019.01—2019.12

  7. Circular economy application – R&D of crude glycerol and waste solvent energy and pollution reduction technology. Ministry of Science and Technology, MOST 106-2221-E-230-001-MY2; PI; 2017.08–2019.07

  8. Research project on pollution investigation of vehicles in use. Ministry of Science and Technology/Environmental Protection Administration, MOST-106-EPA-F-011-001; Co-PI (3/4); 2017.09–2018.09

  9. Establishment of emission coefficients of hazardous air pollutants for mobile sources at different fuel stages. Ministry of Science and Technology/Environmental Protection Administration , MOST 105-EPA-F-008-003; Co-PI (3/3); 2016.08–2017.08

  10. Green multi-fuel product development: model simulation and diesel engine dynamometer testing. Ministry of Science and Technology, MOST 103-2221-E-230-003-MY2; PI; 2014.08–2016.07
  11. Research on hydrogen and gasoline-diesel dual-fuel co-combustion technology: model simulation and dynamometer test. National Science Council/Environmental Protection Administration , NSC 102-EPA-F-009-001; Co-PI (3/5); 2013.08–2014.08

  12. Study on the spray, combustion and pollutant emission characteristics of water-emulsified diesel under different environmental conditions: constant volume burner laser diagnosis and diesel engine experiments. National Science Council , NSC 101-2221-E-230-024; PI; 2012.10–2013.12

  13. Total Control Strategy and Best Available Control Techniques for Volatile Organic Compounds, Polycyclic Aromatic Compounds, and Polybrominated Diphenyl Ethers in the Renwu, Dashe, and Linyuan Petrochemical Industrial Parks. National Science Council , NSC 100-EPA-F-006-001; PM; 2011.12–2012.12

  14. Development of a technology to recover aqueous waste solvent and solvent-containing waste water by making a blend of diesel and emulsified heavy oil: single droplet combustion and engine testing. National Science Council , NSC 98-2917-I-006-105; PI; 2010.06–2011.06

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