主要工作經歷
1996.8~2001.1 中國科學技術大學熱科學和能源工程系,助教2000.1~2004.1 中國科學技術大學熱科學和能源工程系,講師
2004.1~至今 中國科學技術大學熱科學和能源工程系,副教授
1997.9~1998.9 日本九州大學工學部,訪問研究員
2001.9~2002.9 日本東京農工大學生物系統研究科,訪問研究員
研究方向
1. 工作流體熱物理性質的測量和預測2. 傳熱、傳質
3. 能源轉化和利用
授課情況
《壓縮製冷與熱泵技術》(本科):1999《工程熱力學》(本科):2001~2002
《高等工程熱力學》(研究生):2003年
《熱物理基礎概論》(本科):2003至今
教材編寫
《熱物理基礎概論講義》,胡漢平,程文龍,中國科學技術大學出版社,2003承擔科研項目:
(1) 主持項目:
① 關於表面添加劑對溶液傳熱傳質過程中強化機理的研究,國家自然科學基金項目(50206020),2003.1~2005.12
② 添加劑對吸收與冷凝過程的強化作用,中國科學技術大學回國人員啟動基金,2003.1~2004.12
③ LNG空分設備預可研,廣鋼集團,2001.7~2002.1
(2)參加項目:
① 利用LNG冷能制氫技術的研究,科技部863探索項目(2002AA515010),2002~2004,所屬主題:後續能源技術,所屬領域:能源技術
② 特種功能薄膜CVD製備過程熱物理研究和新工藝探索,國家自然科學基金(59976038),2000.01~2002.12
③ 製冷混合工質熱物性推算法則的機理與實驗研究,國家自然科學基金(59976040) ,2000.01~2002.12
④ 微重力條件下晶體爐熱損計算(1998),經費提供單位:上海矽酸鹽研究所
⑤ 熱泵系列高效節能產品的開發研製,安徽省科委新能源與節能攻關項目,2001~2003。
主要論文
已發表論文60餘篇[1] Wen-Long Cheng, Kouichi Houda, Ze-Shao Chen, Atsushi Akisawa, Peng Hu, and Takao Kashiwagi, “Heat Transfer Enhancement by Additive in Vertical Falling Film Absorption of H2O/LiBr”, Applied Thermal Engineering, 24(2-3), 281-298,2004 (IDS Number 760VF)
[2] 程文龍,陳則韶, “添加劑對LiBr溶液吸收蒸氣過程中的強化機理研究”,化學物理學報,17(2),179-185,2004 (IDS Number 818EX)
[3] Wen-Long Cheng, Chang Liu, Rui Zhao, Ze-Shao Chen, “Experimental Study on Surface Tension of Ammonia-Water Solution in the presence of Additive”, Proceedings of the 7th Asian Thermophysical Properties Conference, Hefei & Huangshan, Anhui, August 23-28, pp108
[4] Cheng Wenlong, Chen Zeshao, Akisawa Atsushi, Hu Peng,Kashiwagi Takao, “Theoretical and Experimental Study of Surface Tension and Dynamic Surface Tension of Aqueous Lithium Bromide and Water with Additive”, Science in China, Serial E,Vol.46,No.2,2003, 191-203
[5] Z.S Chen, P. Hu, W.L. Cheng, “Thermophysical Properties Temperature Scale and Estimation for Thermophysical Properties of Fluids”, Proceedings of the 7th Asian Thermophysical Properties Conference, Hefei & Huangshan, Anhui, August 23-28, pp10
[6] Ze-shao Chen, Peng Hu, Jian-xin Chen and Wen-Long Cheng, “Corresponding Relationships of p-v-T of Working Fluids”, Proceedings of the 7th Asian Thermophysical Properties Conference, Hefei & Huangshan, Anhui, August 23-28, pp143
[7] 陳則韶,程文龍,胡芃,“一種利用LNG冷能的空氣分離裝置新流程”,工程熱物理學報,2004.11,25(6),913-916
[8] 陳則韶,胡芃,程文龍,“飽和蒸氣密度、焓和蒸發潛熱的通用對比態推算式”,工程熱物理學報,Vol.24,No. 2, 2003, 198-201。
[9] 胡芃,陳則韶,程文龍,“製冷工質PVT實驗系統研製及HFC-227ea蒸氣壓測量”,工程熱物理學報,24(1),2003
[10] Hu P, Chen ZS, Cheng WL, “Prediction of Vapor-Liquid Equilibrium Properties of Several HFC binary refrigerant Mixtures”, Fluid Phase Equilibrium, 204(1): Jan 15, 2003, 75-84
[11] Peng Hu, Ze-Shao Chen, and Wen-Long Cheng, “Gaseous PVT Behavior of 1,1,1,2,3,3,3-Heptafluoropropane”, Journal of Chemical and Engineering Data, Volume 48 Issue 2 , 2003, pp 337 – 340
[12] Z.S. Chen, P. Hu and W.L. Cheng,“Generalized Estimation Equations for Thermophysics Properties of Saturated Fluids and the Saturated Properties Table of HFC-227ea”,15th Symposium on Thermophysical Properties, Boulder, CO, USA, June,2003
[13] 程文龍,陳則韶,“溴化鋰風冷垂直降膜吸收過程數值模擬”,製冷學報,2001年第4期,11-15
[14] Peng Hu, Ze-Shao Chen, Wen-Long Cheng, “Vapor Pressure Measurements of 1,1,1,2,3,3,3-heptafluoropropane from 233.15 to 375.15K”, Journal of Chemical and Engineering Data, Volume 47, Issue 1, 2002.1, P20-22.
[15] 程文龍, 賈磊, 陳則韶, 方貴銀,“風冷垂直管降膜吸收器及其傳熱——傳質問題的研究”,太陽能學報,Vol.23,N02,2002,175~180 (Ex 02397108231)
[16] 陳則韶,戚學貴,程文龍,胡芃,方貴銀,“高溫水蓄冷空調的原理和理論分析”,工程熱物理學報,23(2),133-138
[17] 胡芃,陳則韶,羅大為,程文龍,“製冷工質PVT實驗用精密低溫恆溫槽的研製”,儀器儀表學報,Vol.23,No.4,2002,414-416
[18] 程文龍,陳則韶, 秋澤淳,胡芃,柏木孝夫,“添加劑對溴化鋰溶液及水表面張力影響的理論和實驗研究”,中國科學E輯,Vol.32,No.6,2002,771-781
[19] 程文龍,陳則韶,“關於添加劑蒸汽對溴化鋰溶液吸收促進作用的實驗研究”,流體機械,Vol.30,No.12,2002,40-43
[20] 陳則韶,程文龍,胡芃,“熱力參數的對比變換與流體工質熱力性質的通用對比方程”,工程熱物理學報,Vol.22,No.1,Jan.,2001,19-21
[21] 程文龍,陳則韶,胡芃,“一種新的製冷工質性質的通用四參數預測方法”,製冷學報,2001年第一期(總87期),P1-6
[22] 程文龍,陳則韶,胡芃,“電站中液化天然氣可用冷能的回收利用”, 工程熱物理學報,Vol.22,No.2,Mar. 2001,148-150
[23] 陳則韶,胡芃,程文龍,“飽和液體密度的推算法和通用算式”,工程熱物理學報,Vol.22,Suppl.,Jun. 2001,pp9-12.
[24] W.L. Cheng, Z.S. Chen, P. Hu, L. Jia, “A New Generalized Four-Parameter Corresponding States Method for Predicting volumetric Behaviour of Working Fluids”, International Journal of Thermophysics, Vol.22. No.6, November 2001, pp1769-1779
[25] Zeshao Chen, Wenlong Cheng, Kuixiang Zhang, “Calculation of the Thermal Conductivity of Three-Phased Sand Conglomerate Oil Pool”, High Temperature and High Pressure, 1995/1996, Volumes 27/28, British
[26] 程文龍,陳則韶,陳美英,吳廣華, “單套管相變蓄冷器凝固過程一種簡單解法及其傳熱特性”,工程熱物理學報,Vol.17 Supple. Dec,1996 (In Chinese)
[27] Chen Zeshao, Wu Guanghua, Cheng Wenlong, Xie huaqing, “A New Method to Solve the Diffusive/Convective Phase Change Heat Transfer Problems”, Proceedings of the 1996 4th International Symposium on Heat Transfer, Beijing, China, Heat Transfer of Science and Technology, High School Publisher, Beijing, 1996
[28] 陳則韶,程文龍,“蓄冷空調的經濟性分析和最佳蓄冷率選擇”,製冷與空調,1997.1
[29] Zeshao Chen, Wenlong Cheng, “Prospect of Air-Conditioning with Cool Storage in China and Its Economic Appraisal and Optimum Designing”, 3rd International Thermal Energy Congress, Kitakyushu, Japan, July 28- August 1, 1997
[30] Chen Zeshao, Cheng Wenlong, Ito Takehiro, “ A New Scheme of Air-Conditioning with Cold Storage by Water through the Method of Super-Cooling Refrigerant ”, 1997 China-Japan Joint Symposium on Advanced Energy and Transportation Engineering, Yellow Mountain City, P. R. China
[31] 胡芃,李川,程文龍,陳則韶,林朝光,“空氣冷凝器管內分層流實驗觀測及數值計算”,中國科學技術大學學報,Vol.29, No.1, Feb. 1999
[32] 程文龍,伊藤猛宏,陳則韶,“一種回收液化天然氣冷能的低溫動力循環系統”,中國科學技術大學學報Vol.29, No.6,Dec. 1999
[33] Z.S Chen, C Li, W.L. Cheng, X.H. Qiu, and P. Hu, “ The Principle to Measure Thermal Conduvtivity by a New Thermal probe Method ”, Heat Transfer Science and Technology 2000, Edited by Bu-Xuan Wang, Higher Education Press.2000
[34] C.G. Lin, Z.S. Chen, P. Hu, W.L. Cheng, and J.P. Fu, “ Numerical Simulation and Experimental Research on Flow Characteristics of Capillary in Refrigerator ”, Heat Transfer Science and Technology 2000, Edited by Bu-Xuan Wang, Higher Education Press.2000
[35] 陳則韶,李川,程文龍,胡芃,“據熱擴散率最小離散度確定導熱係數的新熱探針法”,中國科學技術大學學報, Vol.30, No.3,Jun. 2000
[36] 林朝光,陳則韶,胡芃,程文龍,“毛細管數值模擬及實驗研究”,流體機械,Vol.28,NO.10,2000,pp42-46
[37] 陳則韶,戚學貴,程文龍,周相芝,陶然, “壓縮製冷空調裝置動態仿真研究”,低溫工程,No.6,2000,Sum No.118,35-39