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(2017/10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
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

1. M.H. Yuan, Y.H. Chen, J.H. Chen, Y.M. Luo, Dependence of cold filter plugging point on saturated fatty acid profile of biodiesel blends derived from different feedstocks, Fuel, 195, 59–68, January 2017.

2. 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.

3. 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.

4. 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.

5. 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.

6. 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%)

7. 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%)

8. 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%)

9. 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%)

10. 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%) 

11. 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%)

12. 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%) 

13. 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%)

14. 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%)

15. 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%)

16. 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%)

17. 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%)

18. 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%)

19. 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%)

20. 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%)

21. 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%)

22. 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%)

23. 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%)

24. 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%)

25. 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%)

26. 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%)

27. 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%) 

28. 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%)

29. 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%)

30. 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%)

31. 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%)

32. 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%)

33. 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%)

34. 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%)

35. 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%)

36. 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%)

37. 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%)

38. 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%)