Updated by Juba on Jan. 2017

Green Technology Laboratory

綠色技術實驗室

熱誠歡迎想學一技之長的學生加入本研究團隊

陳奕宏 教授

 ENGLISH VERSION

 一、基本資料

中文姓名: 陳奕宏
英文姓名: YI-HUNG CHEN
聯絡地址: 台北市忠孝東路三段1號 (生物科技館 3F 302室)
聯絡電話: (02)2771-2171  #Office: 2539; #Lab: 4778
傳真號碼: (02)8772-4328
E-mail: yhchen1@ntut.edu.tw

二、教育經歷

學校名稱 主修學門系所 學位 起訖年月
國立台灣大學 環境工程學研究所 博士 1998/9~2003/7
國立台灣大學 化學工程學系 學士 1994/9~1998/6

三、現職及過去經歷

現任單位
服務機關 服務部門/系所 職稱 起訖年月
國立臺北科技大學 化學工程與生物科技系 教授兼系主任 2016/8~
現任單位
國立臺北科技大學 化學工程與生物科技系 教授 2014/2~
國立臺北科技大學 化學工程與生物科技系 副教授 2011/2~2014/1
國立臺北科技大學 化學工程與生物科技系 助理教授 2008/8~2011/1
國立高雄應用科技大學 化學工程與材料工程系 助理教授 2005/8~2008/7
美國加州大學柏克萊分校 土木與環境工程系 博士後研究 2004/8~2005/7
國立台灣大學 環境工程學研究所 博士後研究 2003/8~2004/7
德國Karlsruhe國家研究中心 技術化學所 研究人員 2002/9~2003/7

四、研究方向

1. 生質柴油

生質柴油(Biodiesel) 性質與石化柴油相近,可用任意比例與石化柴油摻合,並使用於柴油引擎。生產生質柴油之料源包括植物油、動物脂肪或廢食用油。將油品與醇類,經由轉酯化反應(Transesterification)及可生成生質柴油。若油品含有過多自由脂肪酸(Free fatty acids),需以兩階段反應方式,先進行酯化反應(Esterification)降低其自由脂肪酸含量,再經轉酯化反應獲得生質柴油。

2. 超重力技術

超重力系統是利用旋轉填充床(Rotating packed bed, RPB)在高速旋轉下來產生超重力場(HIGEE),可增加氣液相之間或液液相之間的混合效率,進而達到加速質量傳送與化學反應速率、降低設備體積、及提高能源使用效率等效果。可應用於奈米材料製造、氣液相質量傳送、及微觀混合(Micromixing)等領域。目前本實驗室主要應用超重力旋轉填充床如下所示 :

(1) 氨氮廢水處理。

(2) 氣體污染物(SO2NOxNH3)淨化。

(3) 揮發性有機物(VOCs)處理。

(4) 去除氣流中的粉塵(PM10PM2.5)。

五、本研究室成員(2017/1更新)

研究生
年級 姓名 研究領域
碩二 陳暐承 油脂生產及加工
陳宥琪 廢氣處理
邱冠霖 廢水處理
碩一 王昱凱 廢水處理
黃文娟 廢氣處理
許睿丞 油脂生產及加工
專題生
大學部 張瑞仁  
黃靖堯  
吳思諺
 
張良健  
陳怡勳  

點此查看歷屆畢業學生

六、課程資料

※以下資料歡迎同學下載:

1.  質能均衡

Chap.1  Chap.2  Chap.3  Chap.4  Chap.5  Chap.6  Chap.7  Chap.8  Chap.9  Chap.10  Chap.11  

(以上講義由John Wiley & Sons提供)

生質柴油-原理  生質柴油-製程1  生質柴油-製程2  生質柴油-生產系統與分析  生質柴油-在環境方面影響 

3.  潔淨生產技術

Chap.1  Chap.2  Chap.3  Chap.5   Chap.7  Chap.13

4.  潔淨生產概論

Chap.1  Chap.2  Chap.3  Chap.5   Chap.7  Chap.13

5.  生質能概論

生質能概論介紹 生質酒精(I)原理與製程 固態廢棄物衍生燃料 生質能產氫技術 生質柴油(I)原理 生質柴油(I)製程 生質柴油(III)製程

近五年發表之SCI論文

{C}1. {C}{C}S.Y. Pan, R. Adhikari, Y.H Chen, P. Li, P.C. Chiang*, Integrated and innovative steel slag utilization for iron reclamation, green material production and CO2 fixation via accelerated carbonation, Journal of Cleaner Production, 137, 617–631, July 2016.

{C}2. {C}{C}C.C. Chang, C.P. Chen, C.S. Yang, Y.H. Chen, M. Huang, C.Y. Chang*, J.L. Shie, M.H. Yuan, Y.H. Chen, C. Ho, K. Li, and M.T. Yang, Conversion of Waste Bamboo Chopsticks to Bio-oil via Catalytic Hydrothermal Liquefaction Using K2CO3, Sustainable Environment Research, 2016.

{C}3. {C}{C}K.W. Chen, S.Y. Pan, C.T. Chen, Y.H. Chen, P.C. Chiang*, High-gravity carbonation of basic oxygen furnace slag for CO2 fixation and utilization in blended cement, Journal of Cleaner Production, 124, 350–360, June 2016.

{C}4. {C}{C}S.Y. Pan, H.L. Liu, E.E. Chang, H. Kim, Y.H. Chen, and P.C. Chiang*, Multiple model approach to evaluation of accelerated carbonation for steelmaking slag in a slurry reactor, Chemosphere, 154, 63–71, July 2016.

{C}5. {C}{C}M.H. Yuan, C.C. Chang, Y.Y. Lin, C.Y. Chang*, W.C. Liao, J.L. Shie, Y.H. Chen, and D.R. Ji, Destruction of n-butanol by an atmospheric-pressure plasma jet over air and Ar working gases with a Pt/Al2O3 catalyst, Journal of Advanced Oxidation Technologies, 19(1), 19–26, January 2016. (2014 JCR IF: 0.988, Chemistry, Physical: 114/139 = 82%)

{C}6. {C}{C}M.H. Yuan, Y.H. Chen*, J.Y. Tsai, and C.Y. Chang, Removal of ammonia from wastewater by air stripping process in laboratory and pilot scales using a rotating packed bed at ambient temperature, Journal of Taiwan Institute of Chemical Engineers, 60, 488–495, March 2016. (2014 JCR IF: 3.000, Engineering, Chemical: 19/134 = 14%)

{C}7. {C}{C}S.Y. Pan, E.E. Chang, H. Kim, Y.H. Chen, and P.C. Chiang*, Validating carbonation parameters of alkaline solid wastes via integrated thermal analyses: Principles and applications, Journal of Hazardous Materials, 307, 253–262, April 2016. (2014 JCR IF: 4.529, Engineering, Civil: 2/124 = 2%)

{C}8. {C}{C}S.Y. Pan, Y.H. Chen, C.D. Chen, A.L. Shan, M. Lin, and P.C. Chiang*, High-gravity carbonation process for enhancing CO2 fixation and utilization exemplified by the steelmaking industry, Environmental Science and Technology, 49(20), 12380−12387, October 2015. (2014 JCR IF: 5.330, Engineering, Environmental: 3/47 = 6%)

{C}9. {C}{C}M.H. Yuan, C.C. Chang, C.Y. Chang*, W.C. Liao, W.K. Tu, J.Y. Tseng, D.R. Ji, J.L. Shie, and Y.H. Chen, Ozone-catalytic oxidation for 1,2-dichloroethane over Pt/Al2O3 catalyst, Journal of the Taiwan Institute of Chemical Engineers, 53, 52–57, August 2015. (2014 JCR IF: 3.000, Engineering, Chemical: 19/135 = 14%) 

{C}10. {C}{C}M.H. Yuan, C.C. Chang, C.Y. Chang*, W.C. Liao, J.L. Shie, Y.H. Chen, and C.H. Wu, Catalytic destruction of vinyl chloride over an alumina-supported platinum catalyst, Journal of Environmental Science and Health, Part A, 50(11), 1187–1193, July 2015. (2014 JCR IF: 1.164, Engineering, Environmental: 33/47 = 70%)

{C}11. {C}{C}C.C. Chang, C. Trinh, C.Y. Chiu, C.Y. Chang*, S.W. Chiang, D.R. Ji, J.Y. Tseng, C.F. Chang, and Y.H. Chen, UV-C irradiation enhanced ozonation for the treatment of hazardous insecticide methomyl, Journal of the Taiwan Institute of Chemical Engineers, 49, 100–104, April 2015. (2014 JCR IF: 3.000, Engineering, Chemical: 19/135 = 14%) 

{C}12. {C}{C}E.E. Chang, S.Y. Pan, L. Yang, Y.H. Chen, H. Kim, and P.C. Chiang*, Accelerated carbonation using municipal solid waste incinerator bottom ash and cold-rolling wastewater: Performance evaluation and reaction kinetics. Waste Management, 43, 283–292, September 2015. (2014 JCR IF: 3.220, Environmental Science: 46/223 = 21%)

{C}13. {C}C.A. Andrade-Tacca, C.C. Chang, Y.H. Chen, D.R. Ji, Y.Y. Wang, Y.Q. Yen, C.Y. Chang, Reduction of FFA in jatropha curcas oil via sequential direct-ultrasonic irradiation and dosage of methanol/sulfuric acid catalyst mixture on esterification process, Energy Conversion and Management, 88, 1078-1085, September 2014. (2014 JCR IF: 4.380, Thermodynamics: 3/55 = 5%)

{C}14. {C}{C}C.A. Andrade-Tacca, C.C. Chang, Y.H. Chen, D.V. Manh, C.Y. Chang, D.R. Ji, J.Y. Tseng, and J.L. Shie, Esterification of jatropha oil via ultrasonic irradiation with auto-induced temperature-rise effect, Energy, 71, 346-354, July 2014. (2014 JCR IF: 4.844, Thermodynamics: 2/55 = 3%)

{C}15. {C}C.A. Andrade-Tacca, C.C. Chang, Y.H. Chen, D.V. Manh, and C.Y. Chang, Esterification of jatropha oil by sequential ultrasonic irradiation with auto-induced temperature rise and dosing of methanol and sulfuric acid catalyst, J. Taiwan Inst. Chem. Eng., 45(4), 1523-1531, July 2014. (2014 JCR IF: 3.000, Engineering, Chemical: 19/134 = 14%)

{C}16. {C}Y.H. Chen*, N.C. Shang, L.L. Chen, C.Y. Chang, P.C. Chiang, C.Y. Hu, and C.H. Chang, Photodecomposition of dimethyl phthalate in an aqueous solution with UV radiation using novel catalysts, Desalin. Water Treat., 52(16-18), 3377-3383, June 2014. (2014 JCR IF: 1.173, Engineering, Chemical: 75/135 = 55%)

{C}17. {C}S.Y. Pan, P.C. Chiang, Y.H. Chen, C.S. Tan, and E.E. Chang, Kinetics of carbonation reaction of basic oxygen furnace slags in a rotating packed bed using the surface coverage model: Maximization of carbonation conversion, Applied Energy, 113, 267-276, January 2014. (2014 JCR IF: 5.613, Engineering, Chemical: 6/135 = 4%)

{C}18. {C}S.Y. Pan, P.C. Chiang, Y.H. Chen, C.D. Chen, H.Y. Lin, and E.E. Chang, Systematic approach to determination of maximum achievable capture capacity via leaching, Environ Sci Technol., 47(23), 13677-13685, December 2013. (2014 JCR IF: 5.330, Engineering, Environmental: 3/47 = 6%)

{C}19. {C}Z.S. Hung, C.C. Chang, C.F.H. Chang, Y.S. Lin, D.R. Ji, C.Y. Chang, J.Y. Tseng, S.W. Chiang, J.L. Shie, Y.H. Chen, C.H. Ko, and Y.S. Li, Autoclaving treatment of wasted disposable bamboo chopsticks, J. Taiwan Inst. Chem. Eng., 44(6), 1010-1015, November 2013. (2014 JCR IF: 3.000, Engineering, Chemical: 19/134 = 14%)

{C}20. {C}J.L. Shie, C.H. Lee, C.S. Chioua, Y.H. Chen, C.Y. Chang, Photocatalystic characteristic and photodegradation kinetics of toluene using N-doped TiO2 modified by radio frequency plasma, Environ. Technol., 35(5), 653-660, October 2013. (2014 JCR IF: 5.330, Engineering, Environmental: 3/47 = 6%)

{C}21. {C}S.Y. Pan, P.C. Chiang, Y.H. Chen, C.S. Tan, and E.E. Chang, Ex-situ CO2 capture by carbonation of steelmaking slag coupled with metalworking wastewater in a rotating packed bed, Environ. Sci. Technol., 47(7), 3308-3315, March 2013. (2014 JCR IF: 5.330, Engineering, Environmental: 3/47 = 6%)

{C}22. {C}Y.H. Chen*, T.H. Chiang, and J.H. Chen, Properties of Soapnut (Sapindus mukorossi) oil biodiesel and its blends with diesel, Biomass Bioenerg., 52, 15-21, March 2013. (2014 JCR IF: 3.394, Agricultural Engineering: 2/12 = 16%)

{C}23. {C}{C}E.E. Chang, T.L. Chen, S.Y. Pan, Y.H. Chen, and P.C. Chiang, CO2 capture using basic oxygen furnace slag coupled with cold-rolling wastewater in a rotating packed bed, J. Hazard. Mater., 260, 937-946, April 2013. (2014 JCR IF: 4.529, Engineering, Civil: 2/125 = 2%)

{C}24. {C}L.Y. Chen, Y.H. Chen*, Y.S. Hung, T.H. Chiang, and C.H. Tsai, Fuel properties and combustion characteristics of jatropha oil biodiesel-diesel blends, J. Taiwan Inst. Chem. Eng., 44(2), 214-220, March 2013. (2014 JCR IF: 3.000, Engineering, Chemical: 19/134 = 14%)

{C}25. {C}E.E. Chang, A.C. Chiu, S.Y. Pan, Y.H. Chen, C.S. Tan, and P.C. Chiang, Carbonation of basic oxygen furnace slag with metalworking wastewater in a slurry reactor, J. Greenhouse Gas Control, 12, 382-389, January 2013. (2014 JCR IF: 3.946, Engineering, Environmental: 9/47 = 19%)

{C}26. {C}{C}E.E. Chang, Y.C. Wang, S.Y. Pan, Y.H. Chen, and P.C. Chiang, CO2 capture by using blended hydraulic slag cement via a slurry reactor, Aerosol Air Qual. Res., 12(6), 1433-1443, December 2012. (2014 JCR IF: 2.094, Environmental Sciences: 93/223 = 42%) 

{C}27. {C}D.V. Manh, Y.H. Chen, C.C. Chang, C.Y. Chang, H.D. Hanh, C.V. Minh, and P.Q. Long, Effects of blending composition of tung oil and ultrasonic irradiation intensity on the biodiesel production, Energy, 48(1), 519-524, December 2012. (2014 JCR IF: 4.844, Thermodynamics: 2/55 = 3%)

{C}28. {C}S.W. Chiang, C.C. Chang, J.L. Shie, C.Y. Chang, D.R. Ji, J.Y. Tseng, C.F. Chang, and Y.H. Chen, Synthesis of alcohols and alkanes from CO and H2 over MoS2/γ-Al2O3 catalyst in a packed bed with continuous flow, Energies, 5(10), 4147-4164, October 2012. (2014 JCR IF: 2.072, Energy & Fuels: 43/89 = 48%)

{C}29. {C}Y.H. Chen*, T.C. Tang, T.H. Chiang, B.Y. Huang, C.Y. Chang, P.C. Chiang, J.L. Shie, M. Franzreb, and L.Y. Chen, A complementary biodiesel blend from soapnut oil and free fatty acids, Energies, 5(8), 3137-3148, August 2012. (2014 JCR IF: 2.072, Energy & Fuels: 43/89 = 48%)

{C}30. {C}E.E. Chang, S.Y. Pan, Y.H. Chen, C.S. Tan, and P.C. Chiang, Accelerated carbonation of steelmaking slags in a high-gravity rotating packed bed, J. Hazard. Mater., 227-228, 97-106, August 2012. (2014 JCR IF: 4.529, Engineering, Civil: 2/125 = 2%)

{C}31. {C}{C}Y.H. Chen*, J.H. Chen, and Y.M. Luo, Complementary biodiesel combination from tung and medium-chain fatty acid oils, Renew. Energ., 44, 305-310, August 2012. (2014 JCR IF: 4.844, Thermodynamics: 2/55 = 3%)

{C}32. {C}R.H. Lin, W.M. Wang, Y.H. Chen, and T.H. Ho, Preparation and characterization of biodegradable condensation polyimide, Polym. Degrad. Stab., 97(8), 1534-1544, August 2012. (2014 JCR IF: 3.163, Polymer Science: 17/82 = 21%)

{C}33. {C}Z.S. Hung, C.C. Chang, C.F. Ho Chang, Y.C. Wang, C.Y. Chang, D.R. Ji, J.Y. Tseng, C.H. Ko, Y.H. Chen, J.L. Shie, Y.S. Li, S.G. Wang, K.W. Liu, and S.L. Tseng, Autoclaving of waste plastic-free papers for resource recovery and reutilization, Fresenius Environ. Bull., 21(8c), 2486-2493, August 2012. (2014 JCR IF: 0.378, Environmental Sciences: 219/223 = 98%)

{C}34. {C}N.C. Shang, R.Z. Liu, Y.H. Chen*, C.Y. Chang, and R.H. Lin, Characterization of fatty acid methyl esters in biodiesel using high-performance liquid chromatography, J. Taiwan Inst. Chem. Eng., 43(3), 354-359, May 2012. (2014 JCR IF: 3.000, Engineering, Chemical: 19/134 = 14%)

{C}35. {C}{C}D.V. Manh, Y.H. Chen*, C.C. Chang, C.V. Minh, H.D. Hanh, and C.Y. Chang, Parameter evaluation of biodiesel production from unblended and blended tung oils via ultrasound-assisted process, J. Taiwan Inst. Chem. Eng., 43(3), 368-373, May 2012. (2014 JCR IF: 3.000, Engineering, Chemical: 19/135 = 14%)

{C}36. {C}{C}Y.H. Chen*, B.Y. Huang, T.H. Chiang, and T.C. Tang, Fuel properties of microalgae (Chlorella protothecoides) oil biodiesel and its blends with petroleum diesel, Fuel, 94, 270-273, April 2012. (2014 JCR IF: 3.520, Engineering, Chemical: 13/135 = 10%)

{C}37. {C}Y.H. Chen*, T.H. Chiang, and J.H. Chen, An optimum biodiesel combination: Jatropha and soapnut oil biodiesel blend, Fuel, 92(1), 377-380, January 2012. (2014 JCR IF: 3.520, Engineering, Chemical: 13/135 = 10%)