湖南大学

汤广发：男，教授，博士生导师

学科专业：供热、供燃气、通风及空调工程

学历学位：本科

工作单位：土木工程学院

通讯地址：湖南大学土木工程学院

邮政编码：410082

电话：0731-8822760

E-mail：gftang@mail.hnu.net.cn

研究方向：

（1）通风空调过程的数值仿真；

（2）建筑节能。

学习与工作经历：

（1）1960年7月～1978年7月，湖南大学土木系助教；

（2）1978年7～1982年10月，湖南大学土木系讲师；

（3）1982年10月～1992年2月湖南大学环工系副教授；

（4）1992年至今湖南大学土木学院教授；

（5）1995年博士生导师；

（6）1985年7月～1994年7月，任湖南大学环工系副系主任；

（7）1994年～1997年，湖南大学环工系主任。

主要学术兼职：

（1）《第1~3届空气动力学学会，风工程委员会委员；

（2）第二届全国暖通专业指导委员会委员；

出版教材与专著：

[1]汤广发，吕文瑚，王汉青。室内气流数值计算及通风模型试验。湖南大学出版社,1989.

主持或参加主要科研项目：

[1]国家自然基金项目：建筑环保数值风洞的研究；

[2]国家自然基金项目：室内气流动态数值模拟研究；

[3]国家自然基金项目：用数值方法研究气膜形成的最佳参数；

[4]原机械工业部基金项目：室内气流数值夌的研究；

[5]原机械工业部基金项目：车间内有害气体预测方法的研究。

主要科研获奖情况：

[1]原机械部科技进步二等奖：室内气流数值计算的研究；

[2]原机械部科技进步二等奖：车间有害气体预测方法的研究。

发表学术论文(近几年)：

[1]Ren Chengqin, Li Nianping, Tang Guangfa. Principles of exergy analysis in HVAC and evaluation of evaporative cooling schemes. Building and Environment, 2002, 37 (11):1045-1055

[2]Jian Sun, Guangfa Tang, Ling Zhang, Nianping Li. An efficient solution method for predicting indoor environment of buildings with complex geometric configuration. Building and Environment, 2002, 37(10): 915-922

[3]Ren Chengqin, Jiang Yi, Tang Guangfa, Zhang Yianpin, A characteristic study of liquid desiccant dehumidification/regeneration processes.  Solar Energy, 2005, 79(5): 483-494

[4]Zhiqiang Liu, Guangfa Tang, Fuyun Zhao, Dynamic simulation of air-source heat pump during hot-gas defrost , Applied Thermal Engineering. 2003, 23 (6): 675-685

[5]Tao Li, Guangfa Tang, Guangcai Gong, Guangqiang Zhang, Nianping Li, Lin Zhang, Investigation of prototype thermoelectric domestic-ventilator.  Applied Thermal Engineering, 2009, 29(10): 2016-2021

[6]Wang Hanqing, Huang Chunhua, Liu Zhiqiang, Tang Guangfa, Liu Yingyun, Wang Zhiyong, Dynamic evaluation of thermal comfort environment of air-conditioned buildings. Building and Environment, 2006, 41(11): 1522-1529

[7]Fu-Yun Zhao, Di Liu, Guang-Fa Tang, Natural convection in a porous enclosure with a partial heating and salting element. International Journal of Thermal Sciences, 2008,47(5): 569-583

[8]Di Liu, Fu-Yun Zhao, Guang-Fa Tang, Frosting of heat pump with heat recovery facility. Renewable Energy, 2007, 32(7): 1228-1242

[9]Di Liu, Fu-Yun Zhao, Guang-Fa Tang , Active low-grade energy recovery potential for building energy conservation. Renewable and Sustainable Energy Reviews, 2010,14(9): 2736-2747

[10]Fu-Yun Zhao, Di Liu, Guang-Fa Tang, Application issues of the streamline, heatline and massline for conjugate heat and mass transfer. International Journal of Heat and Mass Transfer, 2007,50(1-2): 320-334

[11]Qi-Hong Deng, Guang-Fa Tang, Yuguo Li, A combined temperature scale for analyzing natural convection in rectangular enclosures with discrete wall heat sources.  International Journal of Heat and Mass Transfer, 2002, 45(16): 3437-3446

[12]Fu-Yun Zhao, Guang-Fa Tang, Di Liu, Conjugate natural convection in enclosures with external and internal heat sources. International Journal of Engineering Science, 2006, 44(3-4): 148-165

[13]Fu-Yun Zhao, Di Liu, Li Tang, Yu-Long Ding, Guang-Fa Tang, Direct and inverse mixed convections in an enclosure with ventilation ports. International Journal of Heat and Mass Transfer, 2009, 52(19-20): 4400-4412

[14]Fu-Yun Zhao, Di Liu, Guang-Fa Tang, Determining boundary heat flux profiles in an enclosure containing solid conducting block. International Journal of Heat and Mass Transfer, 2010, 53(7-8): 1269-1282

[15]Fu-Yun Zhao, Di Liu, Guang-Fa Tang, Numerical determination of boundary heat fluxes in an enclosure dynamically with natural convection through Fletcher–Reeves gradient method. Computers & Fluids, 2009,38(4): 797-809

[16]Di Liu, Fu-Yun Zhao, Guang-Fa Tang, Thermosolutal convection in saturated porous enclosure with concentrated energy and solute sources. Energy Conversion and Management, 2008, 49(1): 16-31

[17]Di Liu, Fu-Yun Zhao, Guang-Fa Tang, Non-unique convection in a three-dimensional slot-vented cavity with opposed jets. International Journal of Heat and Mass Transfer, 2010, 53(5-6): 1044-1056

[18]Qi-Hong Deng, Guang-Fa Tang, Yuguo Li, Man Yeong Ha, Interaction between discrete heat sources in horizontal natural convection enclosures. International Journal of Heat and Mass Transfer, 2002, 45( 26): 5117-5132

[19]Fu-Yun Zhao, Di Liu, Guang-Fa Tang, Natural convection in an enclosure with localized heating and salting from below. International Journal of Heat and Mass Transfer, 2008, 51( 11-12): 2889-2904

[20]Fu-Yun Zhao, Di Liu, Guang-Fa Tang, Inverse determination of boundary heat fluxes in a porous enclosure dynamically coupled with thermal transport. Chemical Engineering Science, 2009,64(7): 1390-1403

[21]Di Liu, Guang-Fa Tang, Fu-Yun Zhao, Han-Qing Wang, Modeling and experimental investigation of looped separate heat pipe as waste heat recovery facility. Applied Thermal Engineering, 2006, 26(17-18): 2433-2441

[22]Min Tu, Cheng-Qin Ren, Guang-Fa Tang, Zhen-Sheng Zhao, Performance comparison between two novel configurations of liquid desiccant air-conditioning system. Building and Environment, 2010, 45(12): 2808-2816

[23]Qi-Hong Deng, Guang-Fa Tang, Numerical visualization of mass and heat transport for conjugate natural convection/heat conduction by streamline and heatline. International Journal of Heat and Mass Transfer, 2002, 45(11): 2373-2385

[24]Fu-Yun Zhao, Di Liu, Guang-Fa Tang, Resonant response of fluid flow subjected to discrete heating elements. Energy Conversion and Management, 2007,48(9): 2461-2472

[25]Qi-Hong Deng, Guang-Fa Tang, Numerical visualization of mass and heat transport for mixed convective heat transfer by streamline and heatline. International Journal of Heat and Mass Transfer, 2002, 45(11): 2387-2396

[26]Fu-Yun Zhao, Di Liu, Guang-Fa Tang , Multiple steady fluid flows in a slot-ventilated enclosure. International Journal of Heat and Fluid Flow, 2008, 29(5): 1295-1308

[27]Di Liu, Fu-Yun Zhao, Guang-Fa Tang, Numerical analysis of two contaminants removal from a three-dimensional cavity. International Journal of Heat and Mass Transfer, 2008, 51(1-2): 378-382

[28]Li Tang, Di Liu, Fu-Yun Zhao, Guang-Fa Tang, Combined heat and moisture convective transport in a partial enclosure with multiple free ports. Applied Thermal Engineering, 2010, 30(8-9): 977-990

[29]许仕荣 汤广发 孙泉, 基于小波分析的城市供水SCADA系统的信号消噪. 湖南科技大学学报,自然科学版, 2009, 2: 57-60,94

[30]陈生 汤广发, 蓄能机房自动控制设计. 制冷与空调（四川）, 2008, 2: 90-94

[31]谢玲 汤广发, 半导体制冷技术的发展与应用. 洁净与空调技术,2008,1: 68-71

[32]汤莉 汤广发, 三种墙体保温隔热性能的数值分析. 湖南大学学报：自然科学版, 2008,2: 31-34

[33]陈生 汤广发 汤柳华, 重视小城镇人居环境的建设. 制冷空调与电力机械, 2007,6: 95-98,77

[34]汤广发 杨光 郭岩杰 刘娣 卢继龙 熊帅 严继光, 热回收型空调器的性能分析与实验研究. 制冷与空调（北京）,2007,1: 73-75,60.

[35]陈生 汤广发 杨光 李涛 谢玲, 全热交换器和冰蓄冷解决超市室内空气污染问题的探讨. 制冷空调与电力机械, 2007,1: 61-63,76

[36]熊帅 汤广发 严继光 杨光, 冷却顶板与独立新风相结合系统的CFD研究. 建筑热能通风空调,2007,1: 40-43

[37]汤广发 李涛 卢继龙, 温差发电技术的应用和展望. 制冷空调与电力机械, 2006,6: 8-10,3

[38]杨光 汤莉 汤广发 刘娣 熊帅, 建筑生态环境与暖通空调系统的相关性研究. 制冷与空调（四川）,2006,4: 33-37