陳延平 教授 / Yan-Ping Chen Professor

Index
陳延平 教授
Yan-Ping Chen
電話(02)2366-1661 (02)3366-3029
傳真(02)23623040
電子郵件 ypchen@ntu.edu.tw
辦公室:223
研究室資料

 

  • 學經歷

國立台灣大學 化工學士,1976
美國萊斯大學 化工博士,1982

  • 研究主題

熱力學相平衡、超臨界流體系統之計算與實驗、程序模擬與計算
相平衡是熱力學與分離技術上之重要課題,也是本研究室致力研究的目標。本研究室之研究項目包括: (1)應用改良之配位數模式,提出長鏈型狀態方程式,並應用至高分子溶液之汽液相平衡計算。(2)針對汽液相平衡,及固體在超臨界流體中之溶解度,提出改良之混和規則,並得到通用及具有預估能力之關聯。(3)高分子系統、超臨界萃取系統、界面活性劑系統、以及多成分系統之相平衡研究。(4)利用局部組成模式,提出擴散係數關聯方法,並進行其他熱力性質,如表面張力之理論計算。(5)在實驗方面,進行常壓與高壓之汽液相平衡測量,固體分子在超臨界二氧化碳中溶解度之量測與關聯,以及應用超臨界二氧化碳合成導電性高分子材料之研究。(6)應用計算流體力學、化工程序模擬軟體、程序整合技術,進行工業製程之節能計算,及清潔製程之分析與設計,達成高效率與低污染之工業製程改善,此研究並與中油公司及英國進行國際合作。

  • 最新研究

1.Green Chemical Process Technology (Phase 2), Part A1. Micronization of Pharmaceutical Compounds and Food Additives Using Supercritical Fluid Technology. 綠色化學程序尖端技術(第二期,第三年):子計畫A1 ,Ministry of Economic Affairs, 1/12/2009-30/11/2010

2.Solid Solubility Measurement, Model Correlation, and Particle Micronization of Pharmaceutical Compounds in Supercritical Carbon Dioxide (1/3) 藥物分子在超臨界二氧化碳中之固體溶解度量測、模式關聯、與微粒化研究(2/3),National Science Council, 1/8/2009-31/7/2010

3.Gas Hydrate Resources Investigations and Assessment: Thermodynamics Research (3/4) 天然氣水合物資源調查與評估:熱力學研究(3/4),Ministry of Economic Affairs, 1/1/2010-31/12/2010

  • 榮譽獎項
  1. 國立臺灣大學傅斯年獎,2005年9月
  2. 化工技術獎(團體獎)2006. 11.24本人參與台大化工系執行經濟部學界科專計畫,於2006. 11.24獲得台灣化學工程學會化工技術獎(團體獎)
  3. 金開英獎,台灣化學工程學會,2009年11月
  4. 化工傑作獎,台灣化學工程學會,2012年11月(與蔡佩紋,陳立仁,林祥泰共同獲獎)
  5. 共同主持的氣體水合物研究團隊研究成果榮登PCCP(Physical Chemistry Chemical Physics)期刊封面,2016
  1. Yu-Wan Juan, Muoi Tang, Li-Jen Chen, Shiang-Tai Lin, Po-Chun Chen and Yan-Ping Chen, “Measurements for the Equilibrium Conditions of Methane Hydrate in the Presence of Cyclopentanone or 4-Hydroxy-4-methyl-2-pentanone Additives”, Fluid Phase Equilibria, 386, 162-167 (2015) (SCI)
  2. Jheng-Yu Wu, Yan-Ping Chen and Chie-Shaan Su, “Density and Viscosity of Ionic Binary Mixtures of 1-n-Butyl-3-methylimidazolium Tetrafluoroborate with Acetonnitrile, N,N-Dimethylacetamide, Methanol, and N-Methyl-2-pyrrolidone”, J. Solution Chem., 44, 395-412 (2015) (合著) (SCI)
  3. Jyun-Yi Wu, Li-Jen Chen, Yan-Ping Chen and Shiang-Tai Lin, “Molecular Dynamics on the Equilibrium and Kinetic Properties of Tetrahydrofuran Clathrates”, J. Phys. Chem. C, 119, 1400-1409 (2015) (合著) (SCI)
  4. Che-Kang Chu, Po-Chun Chen, Yan-Ping Chen, Shiang-Tai Lin and Li-Jen Chen, “Inhibition Effect of 1-Ethyl-3-Methylimidazolium Chloride on Methane Hydrate Equilibrium”, J. Chem. Thermodyn., 91, 141-145 (2015) (合著) (SCI)
  5. Jyun-Yi Wu, Li-Jen Chen, Yan-Ping Chen and Shiang-Tai Lin, “Molecular Dynamics Study on the Growth Mechamism of Methane Plus Tetrahydrofuran Mized Hydrates”, J. Phys. Chem. C, 119, 19883-19890 (2015) (合著) (SCI)
  6. Chai-Siah Lee, Muoi Tang, Sheau-Ling Ho and Yan-Ping Chen, “Recrystallization and Micronization of 4-Dimethylaminoantipyran Using the Rapid Expansion of Supercritical solution (RESS) Process”, Intl. J. of Chem. Eng. And Applications, 6, 427-431 (2015)
  7. Yan-Ping Chen, Li-Jen Chen, Shiang-Tai Lin and Muoi Tang, “Measurement for the Dissociation Conditions of Methane and Carbon Dioxide Hydrates in the Presence of Additive Materials”, MRS Advances, 1, 1013-1019 (2016) (EI)
  8. Jyun-Yi Wu, Li-Jen Chen, Yan-Ping Chen, and Shiang-Tai Lin, “Molecular Dynamics Study on the Nucleation of Methane + Tetrahydrofuran Mixed Guest Hydrate”, Phys. Chem. Chem. Phys., 18, 9935-9947 (20-16) (合著) (SCI)
  9. Che-Kang Chu, Shiang-Tai Lin, Yan-Ping Chen, Po-Chun Chen and Li-Jen Chen, “Chain Length Effect of Ionic Liquid 1-Alkyl-3-Methylimidazolium Chloride on the Phase Equilibrium of Methane Hydrate”, Fluid Phase Equilibria, 413, 57-64 (2016) (合著) (SCI)
  10. Xian-Heng Fan, Yan-Ping Chen and Chie-Shaan Su, “Viscosity Measurements for Binary Mixtures of 1-Ethyl-3-Methylimidazolium Tetrafluoroborate with Acetonitrile, Ethylene Glycol, and Methanol”, J. Solution Chem., 45, 1377-1390 (2016) (合著) (SCI)
  11. Xian-Heng Fan, Yan-Ping Chen and Chie-Shaan Su, “Densities and Viscosities of Binary Liquid Mixtures of 1-Ethyl-3-Methylimidazolium Tetrafluoroborate with Acetone, Methyl Ethyl Ketone, and N-Methyl-2-Pyrrolidone”, J. Taiwan Inst. of Chem. Engr., 61, 117-123 (2016) (合著) (SCI)
  12. Xian-Heng Fan, Yan-Ping Chen and Chie-Shaan Su, “Density and Viscosity Measurements for Binary Mixtures of 1-Ethyl-3-Methylimidazolium Tetrafluoroborate ([Emin][BF4]) with Dimethylacetamide, Dimethylformamide, and Dimethyl Sulfoxide”, J. Chem. Eng. Data, 61, 920-927 (2016) (合著) (SCI)
  13. Chun-Ta Chen, Chen-An Lee, Muoi Tang and Yan-Ping Chen, “Experimental Investigation for the Solubility and Micronization of Pyridin-4-Amine in Supercritical Carbon Dioxide”, J. CO2 Utilization, 18, 173-180 (2017) (SCI)
  14. Jaehoon Kim, Youn-Woo Lee, Tadafumi Adschiri, Yan-Ping Chen, Motonobu Goto and Buxing Han, “Preface, Special Issue –11th International Symposium on Supercritical Fluids”, J. Supercrit.Fluids, 120, 207-208 (2017) (SCI)
  15. Yen-An Chen, Che-Kang Chu, Yan-Ping Chen, Lee-Shin Chu, Shiang-Tai Lin, and Li-Jen Chen “Measurements of diffusion coefficient of methane in water/brine under high pressure” , Terr. Atmos. Ocean. Sci., 29, 577-587 (2018) (合著) (SCI)
  16. Tz-Bang Du, Chun-Ta Chen, Kung-Hsun Huang, and Yan-Ping Chen, “Development of an Effective Method for the Separation of Petroleum Pitch Using High Pressure CO2”, Journal of CO2 Utilization, 34, 163-170 (2019) (SCI)
  17. Li-Ting Li, Yan-Ping Chen and Muoi Tang, “Experimental Measurements for the Dissociation Conditions of Methane Hydrate Mixture with Each Additive of Acetamide, Cyclopentanol or 1,3-Dioxane”, Journal of Chemical & Engineering Data, 65, 177-184 (2020) (SCI)
  18. Tsung-Tse Wu, Wan-Chun Shao, Yan-Ping Chen and Muoi Tang, “Measurements of the Dissociation Conditions for Methane Hydrates with Various Additives of 1,2-Epoxybutane, 2,3-Dihydrofuran, N-methylformamide, 4-Methylmorpholine, or 1-(2-Furyl)methylamine”, Fluid Phase Equilibria, in press (2020) (SCI)
  19. Chun-Hao Fang, Pei-Hua Chen, Yan-Ping Chen and Muoi Tang,“Micronization of Three Active Pharmaceutical Ingredients Using the Rapid Expansion of Supercritical Solution Technology”, Chemical Engineering & Technology, in press (2020) (SCI)