个人简介

建筑环境与能源应用工程系硕士生导师，主持和参与包括国家自然科学基金、教育部新教师基金等国家级课题6项，华中科技大学创新基金4项，校企合作项目多项。在国内外学术期刊发表相关研究论文80余篇， SCI和EI论文40余篇，授权专利8项，出版书籍1部，主编国际专刊1部。 近年来荣获多项荣誉称号： Ÿ中国制冷学会优秀青年科技工作者； Ÿ百名暖通空调杰出青年； Ÿ湖北省制冷学会青年才俊奖； Ÿ校教学质量二等奖； Ÿ校教师教学竞赛二等奖； Ÿ校优秀教师班主任； Ÿ环境学院优秀党员。 2004.09-2009.09 湖南大学土木工程学院 供热、供燃气、通风及空调工程 工学博士 2000.09-2004.06 湖南大学土木工程学院 建筑环境与设备工程 工学学士 工作经历 2019.12－现在 华中科技大学环境科学与工程学院，教授 2014.12－2019.12 华中科技大学环境科学与工程学院，副教授 2010.03－2014.12 华中科技大学环境科学与工程学院，讲师 近年主要研究项目 1. 外层定型相变与内嵌管式通风屋面的主动隔热与蓄冷机制研究，国家自然科学基金（面上项目）（51778255，2018.01-2021.12，主持 ） 2. 基于夜间通风蓄冷的定型相变屋面热性及气候适用性研究，华中科技大学自主创新基金，（2018KFYYXJJ131，2018.01-2020.12，主持） 3. 自力式能量迁移的套管封装相变墙体系统主动隔热机制研究. 国家自然科学基金 （面上项目）（51678263，2017.1－2020.12，参与） 4. 铁路旅客车站公共卫生间人性化设计的专题研究，企业联合研究项目(2019.1-2020.12，主持) 5. 智能车站铁路站房自然通风策略与控制研究，企业联合研究项目(2019.1-2020.12，参与) 6. 铁路客站高大空间顶部聚集热回收节能技术研究(20161755)，企业联合研究项目（2016.09-2017.12，主持） 7. 一种基于建筑节能安全的线侧式中型铁路站房公共区平面方案研究，企业联合研究项目（2016.09-2017.12，参与） 8. 空心砌块通风墙体热工性能与节能特性研究，华中科技大学自主创新基金（2015QN119，2015.01-2016.12，主持） 9. 建筑外墙气流外渗隔热机制研究，国家自然科学基金（面上项目）（51378231，2014/01-2017/12，参与） 10. 基于频域的空心砌块通风墙体动态传热模型及实验研究，国家自然科学基金（青年基金）（51208221，2013.01-2015.12，主持） 11. 夏热冬冷地区办公建筑透明围护结构的天然采光与节能设计研究，华中科技大学自主创新基金（2013QN069，2013.01-2014.12主持） 12. 内嵌管式围护结构的瞬态传热模型及实验研究，国家自然科学基金（面上项目）（51178201，2012.01-2015.12，参与） 13. 办公建筑围护结构节能优化设计的评价体系研究，高等学校博士学科点专项科研基金（新教师类）（20110142120084，2012.01-2014.12，主持） 14. 建筑不透明围护结构保温层厚度的优化分析研究，华中科技大学自主创新基金（2011QN123，2011.06-2012.12主持） 15. 基于车站配套综合物业开发项目的分布式能源应用研究，企业联合项目（2015.5.-2016.10，参与） 16. 武汉市大型公共建筑能耗特性分析及节能策略研究（2012.12-2015.11，参与） 17. 昆明南站综合节能技术研究，企业联合研究项目（2012.12-2013.11，参与） 18. 铁四院生产科研楼空调系统节能评价，企业联合研究项目（2012.11-2013.12，参与） 19. 地下水水源热泵回灌井群平衡回水关键技术研究，企业联合研究项目（2013.02-2014.12，参与） 20. 新长江地产绿色建筑相关技术的研究，企业联合研究项目（2010.12-2011.12，参与） 21. 铁路客站地源热泵系统热平衡控制策略研究, 企业联合研究项目（2010.05-2011.11，参与） 22. 旅客车站公共区自然通风节能分析，企业联合研究项目（2010.11-2011.10，参与） 23. 低碳经济下夏热冬冷武汉地区建筑节能发展模式研究，联合国开发计划署子课题（2010.01-2010.06 参与） 24. 地板辐射供热供冷系统研究, 企业联合研究项目（2010.04-2011.04，参与） 专利及著作权等 1. 于靖华. (2019).一种真空管道高速磁悬浮列车热交换系统.专利号：ZL201920803741.1 2. 于靖华. (2019).一种真空管道磁悬浮列车到发站台真空保持系统.专利号：ZL201910350504.9 3. 赵金罡,于靖华. (2019).一种内嵌管排风屋面.专利号：ZL201920153510.0 4. 于靖华. (2018).一种墙体降温冷却系统.专利号: ZL201820548133.6 5. 于靖华. (2018).一种无动力强化通风坡屋面系统.专利号:ZL201820549425.1 6. 于靖华. (2018).一种热管再热空调机组.专利号:ZL201820556446.6 7. 于靖华. (2018).一种定型相变与内嵌管式通风屋面.专利号:ZL20182 1497953.3 8. 田利伟，于靖华. (2016). 通风节能墙及空调房. 专利号：ZL201621424036.3 专著与标准等 1. 徐新华，于靖华，王飞飞，刚文杰，沈国民，王劲柏.《建筑环境与能源应用工程毕业设计指导》，机械工业出版社; 2019.2

研究领域

为建筑节能、可再生能源利用及室内热环境

建筑环境与设备工程、供热供燃气通风及空调工程、建筑技术科学

近期论文

查看导师新发文章 （温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

1. Jinghua Yu *, Kangxin Leng, Hong Ye, Xinhua Xu, Yongqiang Luo, Jinbo Wang, Xie Yang, Qingchen Yang, Wenjie Gang. Study on thermal insulation characteristics and optimized design of pipe-embedded ventilation roof with outer-layer shape-stabilized PCM in different climate zones. Renewable Energy 147 (2020) 1609-1622(SCI/EI) 2. Jinghua Yu*, Qingchen Yang, Hong Ye. Thermal performance evaluation and optimal design of building roof with outer-layer shape-stabilized PCM. Renewable Energy145 (2020) 2538-2549 (SCI/EI) 3. Yongqiang Luo, Ling Zhang, Zhongbing Liu, Jinghua Yu, Xiaosong Su, Towards net zero energy building: The application potential and adaptability of photovoltaic-thermoelectric-battery wall system.Applied Energy 258(2020)114066 4. Tian Yan, ZhongweiSun, JiajiaGao, XinhuaXu, JinghuaYu,WenjieGang, Simulation study of a pipe-encapsulated PCM wall system with self-activated heat removal by nocturnal sky radiation, Renewable Energy 146 (2020) 1451-1464 (SCI/EI) 5. TianYan, JiajiaGao, XinhuaXu, TaoXu, ZiyeLing, JinghuaYu. Dynamic simplified PCM models for the pipe-encapsulated PCM wall system for self-activated heat removal .International Journal of Thermal Sciences 144(2019) 27-41 (SCI/EI) 6. Hang Wan, Zhongwei Sun, Gongsheng Huang,XinhuaXu, Jinghua Yu. Calculation of the maximum moisture buffering thickness of building wall layer of hygroscopic material, building and environment 160(2019) 106-173 (SCI/EI) 7. Jinghua Yu*, Qingchen Yang, Hong Ye. The Optimum Phase Transition Temperature for Building Roof with Outer Layer PCM in Different Climate Regions of China. Energy Procedia 158 (2019) 3045-3051(EI) 8. Shan Peng, Jinghua Yu*,Wenjie Gang, Liwei Tian, Qingchen Yang and Junwei Tao. Study on load characteristics of different air conditioning systems in large space railway station. IOP Conference Series:Earth and Environmental Sciencen 238, (2019)conference 1. (EI) 9. Junchao Huang, Jinghua Yu*, Hongxing Yang. Effects of key factors on the heat insulation performance of a hollow block ventilated wall. Applied Energy 232 (2018) 409-423(SCI/EI) 10. Jinghua Yu*, Hong Ye, Xinhua Xu, Junchao Huang, Yunxi Liu, Jinbo Wang. Experimental study on the thermal performance of a hollow block ventilation wall. Renewable Energy 122 (2018) 619-631 (SCI/EI) 11. Jinghua Yu*, Junchao Huang, Xinhua Xu, etal. A semi-dynamic heat transfer model of hollow block ventilated wall for thermal performance prediction. Energy and Buildings 134 (2017) 285-294(SCI/EI) 12. Hong Ye, Jinghua Yu*, Biaobiao Wang et al. Study on the Influence of Air Curtain Barrier Efficiency on Infiltration Air Volume and Temperature Distribution in Large Space in Winter, Procedia Engineering 205 (2017):2509-2516, (EI) 13. Biaobiao Wang,Jinghua Yu*, Hong Ye, et al. Study on Present Situation and Optimization Strategy of infiltration air in a Train Station in winter. Procedia Engineering, 205(2017) 2517-2523 (EI) 14. Chong Zhang, Jinbo Wang, Xinhua Xu, Fuxi Zou, Jinghua Yu. Modeling and thermal performance evaluation of a switchable triple glazing exhaust air window. Applied Thermal Engineering 92(2016) 8-17(SCI/EI) 15. Jinghua Yu*, Jian Yang, Chao Xiong, Study of dynamic thermal performance of hollow block ventilated wall, Renewable Energy 84 (2015) 145-151(SCI/EI) 16. Jinghua Yu*, Liwei Tian, Xinhua Xua, Jinbo Wang. Evaluation on energy and thermal performance for office building envelope in different climate zones of China. Energy and Buildings 86 (2015) 626–639(SCI/EI) 17. Jinghua Yu*, Yu Liu, Chao Xiong, Jun chao Huang. Study on Daylighting and Energy Conservation Design of Transparent Envelope for office building in Hot Summer and Cold Winter Zone. Procedia Engineering 121 (2015) 1642-1649(EI) 18. Jian Yang, Jinghua Yu*, Xiong Chao. Heat Transfer Analysis of Hollow Block Ventilated Wall Based on CFD Modeling. Procedia Engineering 121 (2015) 1312 -1317 (EI) 19. Xiong Chao, Jinghua Yu*, Jian Yang. Study of the Simplified Dynamic Thermal Network Model for the Hollow Block Ventilated Wall. Procedia Engineering 121 (2015) 1304-1311 (EI) 20. Xinhua Xu, Jinghua Yu*, Shengwei Wang, Jinbo Wang, Research and application of active hollow core slabs in building systems for utilizing low energy sources, Applied Energy 116 (2014) 424-435(SCI/EI) 21. Jinghua Yu*, Liwei Tian, Weiqian Zhuang, Jian Yang. Prediction of the pollutant diffusion discharged from wind tower of the city traffic tunnel. Tunnelling and Underground Space Technology 42 (2014) 112-121(SCI/EI) 22. Jinghua Yu*, Liwei Tian, Changzhi Yang, Xinhua Xu, Jinbo Wang. Sensitivity analysis of energy performance for high-rise residential envelope in hot summer and cold winter zone of China, Energy and Buildings 64 (2013) 264-274(SCI/EI) 23. Jinghua Yu*, Liwei Tian,Changzhi Yang, Xinhua Xu, Jinbo Wang. Optimum insulation thickness of residential roof with respect to solar-air degree-hours in hot summer and cold winter zone of china, Energy and Buildings 43(9) (2011):2304-2313(SCI/EI) 24. Jinghua Yu*, Changzhi Yang, Liwei Tian and Dan Liao. A study on optimum insulation thicknesses of external walls in hot summer and cold winter zone of China. Applied energy 86(11) (2009):2520-2529 (SCI/EI) 25. Jinghua Yu*, Changzhi Yang, Liwei Tian and Dan Liao. Evaluation on energy and thermal performance for residential envelopes in hot summer and cold winter zone of China. Applied Energy 86(10)(2009):1970-1985 (SCI/EI) 26. Jinghua Yu*, Changzhi Yang and Liwei Tian. Low-energy envelope design of residential building in hot summer and cold winter zone in China. Energy and Buildings 40 (8) (2008)1536-1546 (SCI/EI) 27. Liwei Tian, Guoqiang Zhang, Yaolin Lin, Jinghua Yu, et.al. Mathematical model of particle penetration through smooth/rough building envelop leakages, Building and Environment 44(6) (2009):1144-1149(SCI/EI) 28. Jinghua Yu*, Changzhi Yang, Liwei Tian and Dan Liao。Methodology for calculating the energy consumption of air-conditioner in residential building of China. International Journal of Energy Technology and Policy 6(5/6) (2008)458-473 (EI) 29. Liwei Tian, Guoqiang Zhang, Jinghua Yu, Quan Zhang and Jin Zhou. Impact of surface roughness on particle penetration through building envelope leakage. International Journal of Energy Technology and Policy6(5/6)(2008) 534-542(EI) 1. Qingchen Yang, Jinghua Yu*, Junchao Huang, Shan Peng, Junwei Tao. A simplified dynamic model of roof integrated with shaped-stabilized phase change material. the 11th International Symposium on Heating, Ventilation and Air Conditioning ,July 12-15,2019,Harbin (EI) 2. Jinghua Yu*, Kangxin Leng, Biaobiao Wang. Study on Thermal Performance and Ventilation Strategy of Tubular Ventilation Roof. the 11th International Symposium on Heating, Ventilation and Air Conditioning ,July 12-15,2019,Harbin (EI) 3. Jinghua Yu*, Liwei Tian, Xinhua Xu, Jian Yang. Research process on thermal modeling of hollow Block ventilated wall. APEC Conference on Low-carbon Towns and Physical Energy Storage May 25-26, 2013, Changsha, China, 551-555 4. Qiuyuan Zhu, Xinhua Xu*, Jinghua Yu. Study of Dynamic Thermal Performance of Active Pipe-embedded Building Envelopes Based on Frequency-Domain Finite Difference Method. APEC Conference on Low-carbon Towns and Physical Energy Storage, May 25-26, 2013, Changsha, China,561-565(EI). 5. Jinghua Yu*, Liwei Tian, Changzhi Yang, Xinhua Xu, JinboWang. Analysis of energy efficiency design of residential envelopes by using EETP index. In: The 7th International Symposium on Heating Ventilating and Air Conditioning. Shanghai, November, 2011, 108-116 (EI) 6. Jinghua Yu*, Liwei Tian, Changzhi Yang, Xinhua Xu, JinboWang. Economic performance of energy conservation measures for residential envelopes in hot summer and cold winter zone of china. In: The 7th International Symposium on Heating Ventilating and Air Conditioning. Shanghai, November, 2011, 117-124(EI) 7. Jinghua Yu*, Xinhua Xu, Liwei Tian. Effect of envelope design on energy consumption respect to EETP index. Proceedings of International Conference on Energy and Environment Technology, Changsha, Feb, 2011:1140-1143 (EI). 8. Jinghua Yu*, Changzhi Yang, Liwei Tian, Dan Chen. Study of the optimum insulation thickness of opaque envelope using solar-air degree-days. In:The 6th International Symposium on Heating Ventilating and Air Conditioning. Nanjing, November, 2009,153-159 (EI) 9. Jinghua Yu*, Changzhi Yang, Liwei Tian, Dan Chen. A case study on optimum insulation thickness of a residential roof in hot summer and cold winter zone of china. Proceedings of the 6th International Symposium on Heating Ventilating and Air Conditioning. Nanjing, November, 2009,160-165 (EI) 10. Jinghua Yu*, Changzhi Yang, Dan Liao, Liwei Tian. Systemic evaluation of envelop thermal performance of residential buildings. Proceedings of the First International Conference on Building Energy and Environment. Dalian, July, 2008, 199-207 (ISTP) 11. Jinghua Yu*, Changzhi Yang, Liwei Tian, Dan Liao. Energy performance of window system in residential buildings. Proceedings of the First International Conference on Building Energy and Environment. Dalian, July, 2008, 208-214 (ISTP) 12. Jinghua Yu*, Changzhi Yang, Junwen Hu, Liwei Tian. Effects of envelope energy saving strategies on energy consumption in residential building. Proceedings of the 5th International Symposium on Heating Ventilating and Air Conditioning. Beijing, September, 2007, 849-857 (ISTP) 13. Jinghua Yu*, Changzhi Yang, Liwei Tian, Junwen Hu. Effects of envelope energy saving strategies on different rooms in residential building. Proceedings of the 5th International Symposium on Heating Ventilating and Air Conditioning. Beijing, September, 2007, 871-878 (ISTP) 14. Jinghua Yu*,Changzhi Yang,Rui Guo et al. The influence of operation modes, room temperature set point and curtain styles on energy consumption of room air conditioner. Proceedings of the 6th International Conference for Enhanced Building Operations. Shenzhen, November, 2006, Vol.V-4-4 15. Dan Chen, Changzhi Yang, Jinghua Yu. Evaporative cooling techniques for handling outdoor air. Proceedings of the 6th International Symposium on Heating Ventilating and Air Conditioning.Nanjing, November, 2009: 1669-1676. (EI) 16. Junwen Hu, Changzhi Yang, Jinghua Yu. The energy saving effect analysis of the different exterior envelope construction energy saving measures in Changsha. Proceedings of the 5th International Symposium on Heating, Ventilation and Air Conditioning. Beijing, September, 2007, 891-896 (ISTP) 17. Junwen Hu, Changzhi Yang, Jinghua Yu. Building energy analysis and simulation of Changsha area. Proceedings of the 10th International Building Performance Simulation Association Conference and Exhibition. Beijing, September, 2007, 1871-1876 (ISTP) 18. Zhu Qiuyuan, Xu Xinhua*, Yu Jinghua. Development of a dynamic simplified thermal model of active pipe-embedded building envelope. ASim 2012 IBPSA Asia Conference, Shanghai, Nov.25-27, 2012. 19. Zhu Qiuyuan, Xu Xinhua, Yu Jinghua. Study of Dynamic Thermal Performance of Active Pipe embedded Building Envelopes Based on Frequency- Domain Finite Difference Method. ASim 2012 IBPSA Asia Conference, Shanghai, Nov.25-27, 2012. 1. 彭珊,于靖华*, 杨清晨, 赵金罡.高达空间空气处理单元气流组织特性分析[J] . 制冷与空调, 2020, 20(3):40-44 2. 杨清晨,于靖华*,王彪彪,冷康鑫,杨颉,徐新华,田利伟[J]. 相变通风屋面简化动态热网模型研究[J] . 建筑热能调, 2020,7 3. 赵金罡,于靖华*, 田利伟等.某铁路旅客站房卫生间污染物浓度及影响因素实测研究[J]. 建筑热能调,2020,已接收待发表 4. 赵金罡, 于靖华*,田利伟,龚梦雅, 邹磊,夏提古丽,鲁展. 某铁路旅客站房卫生间排风系统优化设计研究[J]，洁净与空调技术，2019(3)：11-15 5. 赵金罡,于靖华*, 杨清晨, 田利伟, 郭辉, 陶俊威, 彭珊. 铁路站房高大空间渗风量与温度梯度测试研究[J]. 建筑热能通风空调，2019. (6):1-4 6. 于靖华*,杨清晨,田利伟,郭辉,郭旭晖,庄炜茜.铁路旅客站房高大空间冬季热环境测试与分析[J]. 制冷与空调, 2019. 7. 杨清晨,于靖华*,陶俊威,彭珊. 相变屋面隔热性能影响因素分析[J] . 建筑科学,2019.35(4)：15-21 8. 田利伟,于靖华. 基于顶送风形式的站房夏季送风冷负荷特性[J]. 暖通空调增刊1, 2018（48）：9~12 9. 田利伟,于靖华. 铁路旅客站房公共卫生间排风系统方案研究[J]. 暖通空调增刊1, 2018（48）：20~25 10. 田利伟,于靖华. 基于分层空调的铁路站房冬季热负荷特性分析. 建筑环境与能源, 2018,10 :203-207 11. 叶虹,于靖华*,黄俊潮,徐新华，空心砌块通风墙体热工性能实验研究[J]. 建筑热能通风空调，2017.36(12):1-4 12. 于靖华*,杨健,田利伟,徐新华,黄俊潮. 基于频域的空心砌块通风墙体动态传热模型研究[J] . 建筑热能通风空调，2017（2）：1-5. 13. 黄俊潮,于靖华*,田利伟. 某污水处理厂气流组织模拟分析.制冷与空调[J] . 2017,31（4）：406-410. 14. 于靖华*,杨健,徐新华,田利伟. 空心砌块通风墙体节能特性研究[J] . 建筑科学，2016(8)：47-51 15. 熊超,于靖华*. 空心砌块通风墙体二维简化传热模型研究[J]. 建筑节能，2016(2): 43-47 16. 黄俊潮,于靖华*, 熊超.空心砌块通风墙体的时域热特性分析. 2016年全国暖通年会论文集，海口, 2016.11. 17. 于靖华*，杨健,田利伟,徐新华. 利用低品味能的空心砌块通风墙体传热特性分析. 2016年全国暖通年会论文集，海口, 2016.11. 18. 于靖华*,刘煜,黄俊潮,熊超,夏热冬冷地区办公建筑透明围护结构的天然采光与节能优化设计研究. 2015 湖北省暖通空调制冷及热能动力学术年会论文集，2015.12, 389-393 19. 熊超,于靖华*，刘煜 黄俊潮, 空心砌块通风墙体的频率热特性研究. 2015 湖北省暖通空调制冷及热能动力学术年会论文集，武汉，2015.12, 507-510 20. 于靖华*,田利伟, 徐新华,杨健.空心砌块通风墙体技术及传热模型研究进展[J]. 建筑热能通风空调,2014,33(4):40-43 21. 田利伟,于靖华,郭旭辉. 铁路旅客站房高架车道污染物[J]. 制冷与空调, 2014,28(3):276-280 22. 于靖华*,田利伟,杨昌智. 夏热冬冷地区居住建筑屋顶保温层最佳厚度分析[J]．中南大学学报，2012,43(4):1545-1550 (EI收录) 23. 于靖华*,田利伟, 杨昌智. 夏热冬冷地区住宅围护结构能耗的灵敏度分析[J]．建筑热能通风空调,2012,21（1）41-45 24. 廖丹,杨昌智,于靖华.中央空调冷却水温度与温差优化设计, 2008年铁路暖通空调学术年会论文集， 2012-8： 50-54 25. 田利伟,于靖华. 昆明南站高架候车厅通风系统优化设计.暖通空调增刊2, 2012（42）：50-54 26. 田利伟,于靖华．新广州火车站自然通风潜力分析[J]．暖通空调, 2011, 41(9)：82-86 27. 田利伟 于靖华．城市交通隧道污染物风塔高空排放研究[J]. 洁净与空调技术，2011,2:30-34 28. 于靖华*, 田利伟,徐新华,王劲柏．基于EETP指标的居住建筑围护结构能耗研究[J]．华中科技大学学报2011，39(3) ：124-127(EI收录) 29. 田利伟,于靖华．城市交通隧道污染物风塔高空排放研究[J]．洁净与空调技术,2011,(2):30-34 30. 于靖华*,杨昌智,田利伟,廖丹．长沙地区居住建筑不透明围护结构保温层最佳厚度的研究[J]．湖南大学学报，2009，36(9)：16-20 （EI收录） 31. 于靖华*,杨昌智,田利伟，廖丹．夏热冬冷地区围护结构热工性能系统评价方法的研究[J]．湖南大学学报，2008，35(10)：15-19（EI收录） 32. 田利伟,张国强,于靖华等．颗粒物在建筑围护结构缝隙中穿透机理的数学模型[J]．湖南大学学报（自然科学版）2008，35(10)：11-15（EI 收录） 33. 郭瑞,杨昌智,于靖华等．湖南省博物馆千年古尸展厅空调系统性能分析与改造[J]．制冷与空调(四川),2007,(2)：66-71.

学术兼职

湖北省制冷学会委员，武汉制冷学会青年委员会委员；目前担任国际刊物Renewable energy、Energy、Journal of Cleaner Production，Energy and Buildings，building and Environment，Applied Energy评审专家