2004-2008 bat365在线中国官网登录入口 制冷与低温工程专业 博士

2010-  bat365在线中国官网登录入口  制冷与低温工程研究所,　助理研究员、副教授、教授
2008-2010   bat365在线中国官网登录入口  机械工程博士后流动站    博士后

2012.7-2013.7  挪威科技大学  能源与过程工程学院      访问研究员

氢能换热器开发（氢液化/气化换热器、合金储氢换热器）；
高效换热器、反应器及流程仿真优化；
海洋能源利用；
蓄热、蓄冷技术、流动与传热；
基于动态仿真和数据挖掘的故障诊断、寿命预测、健康管理
飞机/机载/车用制冷空调系统计算机仿真（换热器、散热器、闪发器、泵/风扇/进气格栅）
低温冷藏冷冻系统计算机仿真与优化设计
家用/商用/特种环保制冷系统研究；
制冷低温系统热质传递特性机理（多相流动模拟）；
飞机空调组件/压缩式辅助冷却系统动态仿真及优化、航空航天热设计
能源系统稳态仿真及动态仿真

毕业研究生就业单位：
1）中国商飞、航天研究院、华为、航空工业集团研究所；
2）上汽、远景能源/智能；美的研究院、海尔、开利、约克、特灵、海立、卡特彼勒；
3）花旗银行、TP link、百度、网易、宇量昇等。
4）硕士毕业，攻读博士研究生（清华、交大）。

招收研究生：直博生（欢迎报考直博生）、硕博连读生(欢迎报考)、硕士生、博士生

2024-2026 工信部子课题 高效均温传热机理、设计技术及工艺，主持
2021-2025 国防基础重大专项 XXX换热及温控技术研究，主持
2023-2024 企业项目“储氢换热器仿真优化”，主持
2024-2024 大型液化装置制冷换热设备选型评价研究，主持
2023-2026 企业项目“多相流强化传热与换热器仿真软件、优化设计”，主持
2023-2028 企业项目“低温生物样本库制冷系统研制”，主持
2023-2024 企业项目“飞机压缩式制冷系统动态仿真”，主持
2021-2024 企业项目“ARJ21飞机喷洒系统试验“”ARJ21-700新型灭火介质及高空抛洒性能模拟”，主持
2022-2023 企业项目“能源与空调系统仿真智能控制系统”，主持
2021-2023 企业项目“高效换热器仿真及优化设计”，主持
2021-2022 企业项目“基于特征解耦和人工智能的飞机空调组件动态性能及故障诊断平台”，主持
2020-2023 国家自然基金“碳氢制冷剂在泡沫金属内流动沸腾机理”（51976115），负责人；
2021-2023 企业项目“换热器分配器优化设计”
2021-2023 企业项目“空调系统温度湿度智能控制及节能分析”
2019-2022 上海市科委“飞行器恒温控制系统研究”，负责人；
2020-2021 军横项目“**热惯量特性模拟平台”
2017-2021 上海市经信委“飞机辅助冷却系统国产化关键技术”，交大方负责人；
2018-2021 北京航天基金“飞行器恒温控制系统动态性能研究”，负责人；
2020-2021 商飞项目“飞机辅助冷却系统性能仿真”，负责人；
2020-2021 上海航天项目“高温流动安全性模拟与设计”，负责人
2020-2021 北京航天项目“飞行器恒温控制系统设计”，负责人
2019-2022 企业合作项目“水盘管换热器设计开发”，负责人
2020-2022 企业合作项目“微通道换热器设计开发”，负责人
2020-2022 企业委托项目“管翅式换热器性能仿真”，负责人；
2016-2021 企业委托项目“板翅式换热器性能模拟与实验”，负责人；
2019-2020 上海航天研究院 氦冷却器仿真及实验系统，负责人；
2019-2020 北京航天“飞行器恒温系统动态仿真”，负责人；
2019-2020 北京临近空间研究所“沸腾温控系统研究”，负责人
2020-2021 航天研究院“基于数据的发动机故障诊断”，负责人；
2020-2021 上海飞机研究院“飞机水废水系统故障诊断”，负责人；
2016-2019 国家基金“受冷湿空气在泡沫金属纤维骨架内相变组分凝析与疏导机制”，负责人；
2010-2012 国家自然基金“含油制冷剂泡沫金属内流体流动沸腾热质传递的影响机制”负责人；
2015-2017 上海市自然基金“泡沫金属换热器湿空气热质传递机理”负责人；
2014-2016 教育部“泡沫金属纤维表面凝结液滴行为研究”，负责人；
2013-2015 bat365在线中国官网登录入口晨星“湿空气相变热质传递”，负责人；
2011-2012 bat365在线中国官网登录入口晨星“含油制冷剂两相流体流动迟滞与相间滑移效应”，负责人；
2010-2012 青年教师项目“含油制冷剂两相流型转化机制与流动沸腾热质传递特性”，负责人。
2008-2010 中国博士后基金“泡沫金属内流动沸腾的热质传递模型与实验验证”，负责人；
2008-2010 上海博士后基金“纳米粉体迁移规律的定量描述”，负责人；

2019-2020 北京航天“温度控制系统开发及性能分析”，负责人；
2016-2017 中船重工“电机及换热器性能模型开发”，负责人；
2016-2020 中船重工“FLNG换热器冷箱性能实验平台、控制系统及仿真模型开发”，负责人；
2016-2018 商飞项目“大型客机辅助冷却系统仿真研究”，负责人；
2015-2016 企业合作“空调换热器优化设计分析”，负责人；
2013-2015 企业合作“满液式机组换热器优化分析”，负责人；
2013-2014 企业合作“纳米流体热质传递机理研究”，负责人；
2013-2014 企业合作“高效换热流体性能测试实验”，负责人；

2016.05-2019.04 上海市学术带头人项目“制冷系统多尺度仿真与优化技术研究”，第2负责人；
2014.02—2015.11 中海油气电集团合作项目“LNG绕管式换热器壳侧流动与传热特性实验研究”，第2负责人；
2014.02—2016.06 中海油气电集团合作项目“大型海水-混合介质管壳式冷凝器实验研究”，第2负责人；
2014.01—2017.12 国家自然科学基金项目“制冷剂与润滑油溶析交变过程中纳米粒子的迁移机制”，第2负责人；
2013.01—2016.12 国家高技术研究发展计划(863计划) “海上天然气液化存储关键技术研究-晃荡对绕管式换热器性能影响的数值模拟与试验研究”，第2负责人（实验研究）。
2013.01-2018.12 江苏唯益换热器责任有限公司合作项目“板式换热器性能测试及优化”，第2负责人；
2012.03-2013.01 丹佛斯板式换热器有限公司合作项目“板式换热器内的流量不均匀分布数值仿真的研究”，第2负责人；
2011.07-2012.07 日本大金公司合作项目“湿工况下翅片管换热器析湿特性的CFD模拟研究”，第2负责人；
2011.03-2011.06 博威合金材料股份有限公司合作项目“新型四通换向阀阀块节能效果研究”，第2负责人；
2010.01-2012.12 国家自然科学基金项目“含油纳米制冷剂沸腾中零维和一维纳米粉体的迁移机制及定量描述(50976065)”，第2负责人；
2010.06-2012.05 海信容声(广东)冰箱有限公司合作项目“BCD-226U/A系列冰箱性能优化”，第2负责人；
2010.03-2011.12 世本乐自动售卖技术研究开发公司合作项目“自动售卖机风道系统及压机舱优化设计”，第2负责人。
2009.12-2010.06 霍尼韦尔综合科技（中国）有限公司合作项目“太阳能集热板优化及模拟仿真系统设计”，第2负责人；
2009.07-2010.07 博世西门子合作项目“冰箱冷凝系统及风道优化设计”，第2负责人；
2007.01-2009.06 国际铜业协会合作项目“含油制冷剂在小管径换热管内流动沸腾及冷凝特性研究”，第2负责人；
2006.05-2006.12 日本大金公司合作项目“含油制冷剂在压缩机吸气管内的流动特性研究”，第2负责人；
2005.05-2006.04 日本大金公司合作项目“毛细管内含油制冷剂流动特性研究”，第2负责人；
2004.06-2015.05 日本富士通将军公司合作项目“含油制冷剂在小管径换热管内的流动沸腾换热特性研究”，第2负责人；

【论文】
2024年
【8】LI et al. Dynamic Modelling of Supplemental Cooling Systems with Vapor Compression Refrigeration Units in Civil Aircrafts. Applied Thermal Engineering. 2024
【7】LI X. et al. Performance Analysis of a Vapor Injection Linear Compressor in a Dual-Temperature Zone Refrigerator. International Journal of Refrigeration, 2024, 162: 74-85.
【6】Hui Y. et al. Boiling heat transfer characteristics of confined jet impingement on metal foam with different structures. Applied Thermal Engineering. 2024
【4】Numerical investigation on propane flow condensation in zigzag channel of printed circuit heat exchanger. Applied Thermal Engineering. 2024.
【3】LI Y. et al. Dynamic Modelling of Supplemental Cooling Systems with Vapor Compression Refrigeration Units in Civil Aircrafts. Applied Thermal Engineering. 2024.
【2】Chang S.J. et al. Experimental study of novel paraffin-fatty acid eutectic mixtures for thermal management of electronic devices. Journal of Energy Storage, 84, Part A, 15 April 2024, 110846.
【1】 Hui Y. et al. Experimental investigation on confined jetimpingement boiling heat transfer characteristics on metal foam cover. Volume 236, Part D, 10 January 2024, 121806.
2023年
Li Y. et al. Performance simulation and diagnosis of faulty states in air-cycle refrigeration systems in civil aircrafts. International Journal of Refrigeration, Volume 156, December 2023, Pages 232-242.
Yuhan Li, Rui Lei, Haitao Hu, Kangzuo Zhao. A black box based model for phase change heat exchanger in refrigeration system simulations using Kriging interpolation method. International Journal of Refrigeration. 2023, 153, 231-239.
Hu H, Chang S, Li Y, et al. Design and thermal characteristic test of a temperature control system for spacecraft precision instrument[J]. International Journal of Refrigeration, 2023, 146: 462-470.
Hu H, Zhao Y, Sheng J, et al. Influence of surface wettability on heat transfer and pressure drop characteristics of R1234ze (E) flow boiling in metal foam filled tubes[J]. International Journal of Refrigeration, 2023, 146: 366-374.
Hu H, Li J, Li Y, et al. Experimental investigation on flow boiling characteristics in offset strip fin channels under different sloshing conditions[J]. Experimental Thermal and Fluid Science, 2023, 145: 110880.
Li Y, Hu H, Sun H, et al. Dynamic simulation model for three-wheel air-cycle refrigeration systems in civil aircrafts[J]. International Journal of Refrigeration, 2023, 145: 353-365.
Hu H, Li Y, Li J. Experimental investigation on flow boiling characteristics in zigzag channels under different sloshing conditions[J]. Applied Thermal Engineering, 2023, 230: 120780.
Research progress on flow and heat transfer characteristics of fluids in metal foams. Renewable and Sustainable Energy Reviews, Volume 171, January 2023, 113010.
2022年
Duan Z, Sun H, Wu C, et al. Flow-network based dynamic modelling and simulation of the temperature control system for commercial aircraft with multiple temperature zones[J]. Energy, 2022, 238: 121874.
Duan Z, Sun H, Wu C, et al. Multi-objective optimization of the aircraft environment control system based on component-level parameter decomposition[J]. Energy, 2022, 245: 123330.
Yuhan Li, Haitao Hu, et al. DYNAMIC SIMULATION MODEL FOR THREE-WHEEL AIR-CYCLE REFRIGERATION SYSTEMS IN CIVIL AIRCRAFTS. International Journal of Refrigeration, 2022 (https://doi.org/10.1016/j.ijrefrig.2022.08.026).
赵康佐，周永戬，胡海涛等。基于效率修正的变频压缩机性能模型开发，制冷技术，制冷技术. 2022,42(03).
2021年
[9] Haitao Hu, et al. Measurement and correlation for two-phase frictional pressure drop characteristics of flow boiling in printed circuit heat exchangers. International Journal of Refrigeration, Volume 129, September 2021, Pages 69-77.
[8] Haitao Hu, et al. Heat transfer and pressure drop of refrigerant flow boiling in metal foam filled tubes with different wettability. International Journal of Heat and Mass Transfer, Volume 177, October 2021, 121542
[7] Haitao Hu, Zhancheng Lai, et al. Droplet shedding characteristics on metal fibers with different wettability and inclined angles. International Journal of Refrigeration. 2021. (Accepted,DOI: 10.1016/j.ijrefrig.2021.05.030; Available online 25 May 2021)
[6] Haitao Hu, et al. Influence of surface wettability on pool boiling heat transfer on metal foam covers. International Journal of Thermal Sciences, Volume 168, October 2021, 107069 (DOI: 10.1016/j.ijthermalsci.2021.107069)
[5] Haitao Hu, Li J, Xie Y, et al. Experimental investigation on heat transfer characteristics of flow boiling in zigzag channels of printed circuit heat exchangers[J]. International Journal of Heat and Mass Transfer, 2021, 165: 120712.
[4] Haitao Hu, Li J. Experimental investigation on heat transfer characteristics of two-phase flow boiling in offset strip fin channels of plate-fin heat exchangers. Applied Thermal Engineering, 2021, 185: 116404.
[3] Jianrui Li, Haitao Hu, Youhu Zhang. Experimental investigation and correlation development for two-phase pressure drop characteristics of flow boiling in offset strip fin channels. International Journal of Thermal Sciences, 2021, 160:106693
[2] Li J, Hu H, Xie Y, et al. Two-phase flow boiling characteristics in plate-fin channels at offshore conditions[J]. Applied Thermal Engineering, 2021, 187: 116595.
[7] 赵雅鑫，胡海涛等. R1234ze(E)在泡沫金属管内的流动沸腾换热和压降特性. 化工学报，2021（网络首发时间：2021-06-11）
[6] 胡海涛，赖展程等. 泡沫金属结构对流动沸腾换热特性的影响. 制冷学报，2021.4 （网络首发时间：2021-04-20）
[5] 王兆奇;李孟山;胡海涛等. 双排对折型微通道换热器仿真模型开发。化工学报，2021（S1）
[4] 谢瑶;李剑锐;胡海涛. 印刷电路板式换热器内超临界甲烷流动换热特性模拟. 化工学报，2021（S1）
[3] 张弛;李浩;胡海涛等. 基于自动特征工程的客机压缩机轴承故障诊断研究. 化工学报（封面论文），2021（S1）: 430-436
[2] 林石泉;赵雅鑫;吕中原;赖展程;胡海涛. 亲疏水性对泡沫金属池沸腾换热特性的影响. 化工学报，2021（S1）
[1] **孙浩然, 吕中原, 吴成云, 等. 机载补气增焓制冷系统动态仿真模型[J]. 化工学报, 2021: 10-15.

2020年
[11] Hu, H. Zhao Y. et al. Experimental investigation on nucleate pool boiling heat transfer characteristics on hydrophobic metal foam covers. Applied Thermal Engineering, 179 (2020) 115730.
[10] Haitao Hu, Jianrui Li, Yao Xie, Yongdong Chen. Experimental investigation on heat transfer characteristics of flow boiling in zigzag channels of printed circuit heat exchangers. International Journal of Heat and Mass Transfer, 2020.
[9] Jianrui Li, Haitao Hu, Youhu Zhang. Experimental investigation and correlation development for two-phase pressure drop characteristics of flow boiling in offset strip fin channels. International Journal of Thermal Sciences, 2021, 160:106693
[8] Jianrui Li, Haitao Hu, Haoxian Wang. Numerical investigation on flow pattern transformation and heat transfer characteristics of two-phase flow boiling in the shell side of LNG spiral wound heat exchanger. International Journal of Thermal Sciences, 152 (2020) 106289.
[6] Yuxin FU，Alain VALTZ，Snaïde AHAMADA，Haitao HU，Christophe COQUELET. Density data for carbon dioxide (CO2) +trans-1,3,3,3-tetrafluoroprop-1-ene (R-1234ze(E)) mixture at temperatures from 283.32 to 353.02K and pressures up to 10MPa. International Journal of Refrigeration 120 (2020) 430–444.
[5] 李阳, 常守金, 胡海涛, 孙浩然, 赖展程, 2020. 飞行器机载精密仪器温控系统性能的实验研究. 化工学报, 71(S1), 77-82.
[4] 密晓光, 陈杰, 余思聪, 等. LNG 绕管式换热器壳侧两相流动压降特性的实验研究[J]. 制冷技术, 2018, 1.
[3] 吴静玮 张弛 胡鸣鹤 李剑锐 孙浩然 胡海涛 魏文建. 晃荡工况下板翅式换热器封头内两相流分配模拟. 制冷技术. 2020,(05), 16-21, 28
[2] 魏文建 常守金 丁二刚 胡海涛. 不同结构风冷换热器风侧特性对比分析. 制冷技术. 2020,(05) 53-57
[1] 张弛 胡海涛 魏文建 毛英超. 制冷剂在近三角形微通道内流动沸腾特性的模拟分析. 制冷技术. 2020,(03) 18-23

2019年
Hu, H., Sun, H., Wu, C., Wang, X., & Lv, Z. A steady-state simulation model of supplemental cooling system integrated with vapor compression refrigeration cycles for commercial airplane. Applied Thermal Engineering, 2019, 114692.
*Hu H, Zhou F, Lai Z, et al. Influence of surface wettability on liquid drainage characteristics of metal foams under sloshing conditions[J]. International Journal of Refrigeration, 2019, 106: 188-200(October 2019)
* Hu H, Lai Z, Ding G. Influence of surface wettability on heat transfer and pressure drop characteristics of wet air in metal foam under dehumidifying conditions[J]. International Journal of Thermal Sciences, 2019, 135: 331-343.(January 2019)
Hu H, Ding C, Ding G, et al. Heat transfer characteristics of two-phase mixed hydrocarbon refrigerants flow boiling in shell side of LNG spiral wound heat exchanger[J]. International Journal of Heat and Mass Transfer, 2019, 131: 611-622 (March 2019)-5
Lai Z, Hu H, Ding G. Influence of pore density on heat transfer and pressure drop characteristics of wet air in hydrophilic metal foams[J]. Applied Thermal Engineering, 2019: 113897.( August 2019)
Zhou, F., Hu, H., Lai, Z., & Ding, G. (2019). Experimental study on liquid drainage characteristics of metal foams under sloshing conditions. International Journal of Refrigeration, 99, 351-362. (March 2019)
Sun, H., Hu, H., Ding, G., Chen, H., Zhang, Z., Wu, C., & Wang, L. (2019). A general distributed-parameter model for thermal performance of cold box with parallel plate-fin heat exchangers based on graph theory. Applied Thermal Engineering, 148, 478-490.( 5 February 2019)-1
Wang, S., Fauve, R., Coquelet, C., Valtz, A., Houriez, C., Artola, P. A., ... & Hu, H. (2019). Vapor–liquid equilibrium and molecular simulation data for carbon dioxide (CO2)+ trans-1, 3, 3, 3-tetrafluoroprop-1-ene (R-1234ze (E)) mixture at temperatures from 283.32 to 353.02 K and pressures up to 7.6 MPa. International Journal of Refrigeration, 98, 362-371.( February 2019)
Jiangjun XIE, Alain VALTZ, Christophe COQUELET, Haitao HU. UTILIZATION OF CO2 AND R1234ze(E) AS REFRIGERANT: DETERMINATION OF MIXTURE VOLUMETRIC PROPERTIES AT THE VICINITY OF CRITICAL POINT. Proceedings of the 25th IIR International Congress of Refrigeration, August 24-30, 2019, Montreal, Canada.
Jianrui Li(a), Haitao Hu, et al. Numerical investigation on flow boiling characteristics of liquified natural gas in FLNG plate-fin heat exchanger under sloshing conditions. Proceedings of the 25th IIR International Congress of Refrigeration, August 24-30, 2019, Montreal, Canada.
Haitao Hu, Zhancheng Lai, et al. Heat transfer and pressure drop characteristics of wet air flow in metal foams with different structures and surface wettability during dehumidifying conditions. Proceedings of the 25th IIR International Congress of Refrigeration, August 24-30, 2019, Montreal, Canada.
** 李浩 孙浩然 胡海涛 吴成云 王旭阳 吕中原. 适用于制冷系统泄漏探测的制冷剂质量计算模型. 制冷学报. 2019,(06) 78-81
周发贤, 赖展程, 胡海涛,等. 横摇对泡沫金属内液体疏泄特性影响的实验研究[J]. 制冷技术, 2019, v.39;No.172(06):30-34+73.
胡晨昱, 赖展程, 胡海涛,等. 泡沫金属结构对池沸腾换热特性的影响[J]. 制冷学报, 2019, 040(006):98-102.
胡晨昱赖展程胡海涛丁国良韩维哲. 疏水改性对泡沫金属表面池沸腾换热特性的影响. 制冷技术. 2018,(06) 第8-11页

2018年
* Hu H, Lai Z, Ding G. Heat transfer and pressure drop characteristics of wet air flow in metal foam with hydrophobic coating under dehumidifying conditions[J]. Applied Thermal Engineering, Volume 132, 5 March 2018, Pages 651-664--4
Hu H, Yang G, Ding G, et al. Heat transfer characteristics of mixed hydrocarbon refrigerant flow condensation in shell side of helically baffled shell-and-tube heat exchanger[J]. Applied Thermal Engineering, 2018, 133: 785-796(March 2018)-4
Lai, Z., Hu, H., & Ding, G. (2018). Effect of porosity on heat transfer and pressure drop characteristics of wet air in hydrophobic metal foam under dehumidifying conditions. Experimental Thermal and Fluid Science, 96, 90-100. (September 2018)-3
Lai, Z., Hu, H., Ding, G., & Weng, X. (2018). Influence of pore density and porosity on the wet air flow in metal foam under different operation conditions. International Journal of Refrigeration, 88, 117-128.( April 2018)-1
Yang G, Hu H, Ding G, et al. Experimental investigation on heat transfer characteristics of two-phase propane flow condensation in shell side of helically baffled shell-and-tube condenser[J]. International Journal of Refrigeration, 88, 2018, Pages 58-66(April 2018)
Ding, C., Hu, H., Ding, G., Chen, J., Mi, X., Yu, S. Influences of tube pitches on heat transfer and pressure drop characteristics of two-phase propane flow boiling in shell side of LNG spiral wound heat exchanger. Applied Thermal Engineering, 2018, 131: 270-283.( 25 February 2018)-7
Sun, H., Haitao Hu, et al. (2018). A theory-based explicit calculation model for variable speed scroll compressors with vapor injection. International Journal of Refrigeration, 88, 402-412.( April 2018)-2
Yang G, Hu H, Ding G, et al. Influence of component proportion on heat transfer characteristics of ethane/propane mixture flow condensation in shell side of helically baffled shell-and-tube heat exchanger[J]. Experimental Thermal and Fluid Science, 2018, 97: 381-391.( October 2018)-1

2017年
* Hu H, Lai Z. et al. Experimental investigation on water drainage characteristics of open-cell metal foams with different wettabilities. International Journal of Refrigeration, 2017, 79: 101-113. (July 2017)-2
* Hu H, Weng X, Zhuang D, Ding, G., Lai, Z., Xu, X. Numerical model of dehumidifying process of wet air flow in open-cell metal foam[J]. Applied Thermal Engineering, 2017, 113: 309–321. (25 February 2017)-2
Sun, H., Ding, G., Hu, H., Ren, T., Xia, G., & Wu, G. (2017). A general simulation model for variable refrigerant flow multi-split air conditioning system based on graph theory[J]. International Journal of Refrigeration, 2017, 82: 22-35.( October 2017)-3
Ding, C., Hu, H., Ding, G., Chen, J., Mi, X., Yu, S., Li, J. Experimental investigation on downward flow boiling heat transfer characteristics of propane in shell side of LNG spiral wound heat exchanger. International Journal of Refrigeration, 2017, 84: 13-25. (December 2017)-13
Ding, C., Hu, H., Ding, G., Chen, J., Mi, X., Yu, S. Experimental investigation on pressure drop characteristics of two-phase hydrocarbon mixtures flow in the shell side of LNG spiral wound heat exchangers. Applied Thermal Engineering, 2017, 127: 347-358. (25 December 2017)-3

2016
* Hu H, Eikevik T.M.,Neksa P, Hafner A, Ding G., Huang Q., Ye J. Performance analysis of a R744 ground source heat pump system with air-cooled and water-cooled gas coolers. International Journal of Refrigeration, 2016, 63: 72–86—8(March 2016)
* Hu H, Weng X, Zhuang D, et al. Heat transfer and pressure drop characteristics of wet air flow in metal foam under dehumidifying conditions[J]. Applied Thermal Engineering, 2016,93(25): 1124–1134.--13 (25 January 2016)
Zhuang, D., Ding, G., Hu, H., Fujino, H., & Inoue, S. (2016). Condensing droplet behaviors on fin surface under dehumidifying condition: Part I: numerical model. Applied Thermal Engineering, 105, 336-344.( 25 July 2016)-8
Zhuang, D., Ding, G., Hu, H., Fujino, H., & Inoue, S. (2016). Condensing droplet behaviors on fin surface under dehumidifying condition. Part II: Experimental validation. Applied Thermal Engineering, 105, 345-352.( 25 July 2016)-3
Yang, Y., Zhuang, D., Ding, G., & Hu, H. (2016). A mathematic model for predicting the volume of water bridge retaining between vertical fin surfaces. International Journal of Refrigeration, 67, 157-166.( July 2016)-2
Yang, Y., Zhuang, D., Ding, G., & Hu, H. (2016). Observation and description of the shape of water bridge retaining between vertical plane surfaces. International Journal of Refrigeration, 64, 20-31.( April 2016)
H HU, X XU, X WENG, D ZHUANG, G DING, Z LAI. Heat transfer and pressure drop characteristics of wet air flow in metal foam under dehumidifying conditions: numerical model and experimental validation. International Conference of Cryogenics and Refrigeration Technology, Bucharest, Romania. June 22 – 25, 2016
H Hu, J Chen, H Pu, G Ding, C Ding, J Li, D Zhuang. Falling film flow and evaporation characteristics at shell-side of spiral wound heat exchanger under different conditions. International Conference of Cryogenics and Refrigeration Technology, Bucharest, Romania. June 22 – 25, 2016.

2015
* Hu, H., Zhang, R., Zhuang, D., Ding, G., Wei, W., Xiang, L. Numerical model of two-phase refrigerant flow distribution in a plate evaporator with distributors. Applied Thermal Engineering, 2015,75:167-176.[6] 22 January 2015
Zhu, Y., Hu, H., Sun, S., & Ding, G. (2015). Flow boiling of refrigerant in horizontal metal-foam filled tubes: Part 1–Two-phase flow pattern visualization. International Journal of Heat and Mass Transfer, 91, 446-453. (December 2015)-10
Zhu, Y., Hu, H., Sun, S., & Ding, G. (2015). Flow boiling of refrigerant in horizontal metal-foam filled tubes: Part 2–A flow-pattern based prediction method for heat transfer. International Journal of Heat and Mass Transfer, 91, 502-511. (December 2015)-9
Haitao Hu, Yi Ding, Xiaomin Weng, Dawei Zhuang, Kairui Wu, Xudong Xu. Heat transfer and pressure drop characteristics of wet air flow in metal foam under dehumidifying conditions [C]. The 24th IIR International Congress of Refrigeration (ICR), Yokohama, Japan, 2015.

2014
* Haitao Hu, Yu Zhu, Hao Peng, Guoliang Ding, Shuo Sun, Influence of tube diameter on heat transfer characteristics of refrigerant-oil mixture flow boiling in metal-foam filled tubes, International Journal of Refrigeration, 2014, 41, 121-136--6. (May 2014)
* Haitao Hu, Yu Zhu,Hao Peng, Guoliang Ding, S Sun. Effect of tube diameter on pressure drop characteristics of refrigerant-oil mixture flow boiling inside metal-foam filled tubes. Applied Thermal Engineering 2014,62:433-443--8. (25 January 2014)
* Haitao Hu, Jingdan Gao, Guoliang Ding, Yifeng Gao, Ji Song. Fin design for an evaporator with small diameter microgroove tubes[J]. HVAC&R Research, 2014, 20(7): 790-797.( 06 Oct 2014)
Zhu Y, Hu H, Sun S, et al. Heat transfer measurements and correlation of refrigerant flow boiling in tube filled with copper foam[J]. international journal of refrigeration, 2014, 38: 215-226. (February 2014)
Dawei Zhuang, Haitao Hu, Guoliang Ding, Guannan Xi, Weizhe Han. Numerical model for liquid droplet motion on vertical plain-fin surface. HVAC&R Research, 2014, 20(3): 332-343.( 01 Apr 2014)
Haitao HU, Hao PENG, Guoliang DING, Yongxin ZHENG, Yifeng GAO, Ji SONG. Influence of Oil on Heat Transfer Characteristics of R410A Flow Boiling in Conventional and Small Size Microfin Tubes[C]. 15th International Journal and Air Conditioning Conference at Purdue. West Lafayette, USA, 2014.

2013
* Haitao Hu, Yu Zhu, Guoliang Ding, Shuo Sun. Effect of oil on two-phase pressure drop of refrigerant flow boiling inside circular tubes filled with metal foam. International Journal of Refrigeration, 2013, 36(2): 516–526--6.
* Haitao Hu, Hao Peng, Guoliang Ding. Nucleate pool boiling heat transfer characteristics of refrigerant/nanolubricant mixture with surfactant. International Journal of Refrigeration, 2013,36(3):1045–1055--28.
Yu Zhu, Haitao Hu, Guoliang Ding, Shuo Sun, Yaolong Jing. Influence of metal foam on heat transfer characteristics of refrigerant-oil mixture flow boiling inside circular tubes. Applied Thermal Engineering, 2013, 50(1): 1246-1256.-7 (10 January 2013)
2011
* Haitao Hu, Guoliang Ding, Xiangchao Huang, Bin Deng, Yifeng Gao. Experimental investigation and correlation of two-phase heat transfer of R410A/oil mixture flow boiling in a 5 mm microfin tube. Journal of Enhanced Heat Transfer, 2011, 18 (3): 209–220--3.
* Haitao Hu, Guoliang Ding, Wenjian Wei, Xiangchao Huang, Zhence Wang. Heat transfer characteristics of refrigerant-oil mixtures flow boiling in a horizontal C-shape curved smooth tube. International Journal of Refrigeration, 2010, 33(5):932-943--7
* Haitao Hu, Guoliang Ding, Xiangchao Huang, etc. Measurement and Correlation of Flow Boiling Heat Transfer of R410A/Oil Mixture inside a 4.18 mm Horizontal Straight Smooth Tube. HVAC&R Research, 2009, 15 (2): 287-314--2.
* Haitao Hu, GuoLiang Ding, Xiangchao, Huang, etc. Pressure drop during horizontal flow boiling of R410A/oil mixture in 5 mm and 3 mm smooth tubes. Applied Thermal Engineering, 2009, 29 (16): 3353-3365--10.
* Haitao Hu, Guoliang Ding, Wenjian Wei, etc. Heat transfer characteristics of R410A-oil mixture flow boiling inside a 7 mm straight smooth tube. Experimental Thermal and Fluid Science, 2008, 32: 857-869--7.
* Haitao Hu, Guoliang Ding, Wenjian Wei, etc. Measurement and correlation of frictional two-phase pressure drop of R410A/POE oil mixture flow boiling in a 7mm straight micro-fin tube. Applied Thermal Engineering, 2008, 28: 1272-1283--7.
* Haitao Hu, Guoliang Ding, Kaijian Wang. Heat transfer characteristics of R410A-oil mixture flow boiling inside a 7 mm straight microfin tube. International Journal of Refrigeration, 2008, 31 (6): 1081- 1093--19.
* Haitao Hu, Guoliang Ding, Wenjian Wei, etc. Measurement and Correlation of Frictional Pressure Drop of R410A/Oil Mixture Flow Boiling in a 7 mm Straight Smooth Tube. HVAC&R Research, 2008, 14 (5): 763-781[2].
Guoliang Ding, Haitao Hu, Xiangchao Huang, Bin Deng, Yifeng Gao. Experimental investigation and correlation of two-phase frictional pressure drop of R410A–oil mixture flow boiling in a 5 mm microfin tube. International Journal of Refrigeration, 2009, 32 (1): 150-161[12].
Yu Zhu, Haitao Hu, Guoliang Ding, etc. Heat transfer enhancement by metal foam during nucleate pool boiling of refrigerant/oil mixture at a wide range of oil concentration. HVAC&R RESEARCH, 2012, 18 (3): 377-389[10].
Yu Zhu, Haitao Hu, Guoliang Ding, etc. Influence of oil on nucleate pool boiling heat transfer of refrigerant on metal foam covers. International Journal of Refrigeration, 2011, 34(2): 509-517[16].
【第一作者国际会议论文】
Haitao Hu, Yu Zhu, Guoliang Ding, etc. Enhanced heat transfer characteristic during nucleate pool boiling of refrigerant/oil mixture under high oil concentration condition by metal foam. Proceedings of the 23rd IIR International Congress of Refrigeration, August 21-26, 2011, Prague, Czech Republic.【国际制冷大会分会场的主题报告(Keynote)，并担任分会场主席(Session Chair)】.
Haitao Hu, Trygve Magne Eikevik, Petter Neks, Armin Hafner, Dawei Zhuang. Parametric study on the performance of vertical ground source U-tube heat exchanger with long tube length. XV European Conference on Latest Technology in Refrigeration and Air conditioning. Milano, Italy, 7th-8th, 2013
Haitao Hu, Trygve Magne Eikevik, Petter Neks, Armin Hafner, Qingnan Huang, Jingjing Ye. Performance and economy analysis of a R744 heat pump system combining ambient air and a ground heat exchanger to avoid unbalance of traditional ground source systems under different climatic conditions. XV European Conference on Latest Technology in Refrigeration and Air conditioning. Milano, Italy, 7th-8th, 2013
HU H.T., DING G.L., GAO Y.F., SONG J. Effect of oil on heat transfer characteristics of R410A flow boiling inside small diameter microfin tubes. The 23th IIR International Congress of Refrigeration (ICR), Prague, Czech Republic, 2011.
HU H.T., ZHU Y., DING G.L., ZHUANG D.W. Enhanced heat transfer characteristics during nucleate pool boiling of refrigerant/oil mixture under high oil concentration condition by metal foam. The 23th IIR International Congress of Refrigeration (ICR), Prague, Czech Republic, 2011.
Haitao Hu, Guoliang Ding, Wenjian Wei, Zhence Wang, Kaijian Wang. Heat transfer and pressure drop characteristics of R410A-oil mixture flow boiling in a horizontal straight smooth tube, proceeding of the 22nd international congress of refrigeration, 2007.8.

[46] Hao Peng, Guoliang Ding, Haitao Hu, Weiting Jiang. Effect of nanoparticle size on nucleate pool boiling heat transfer of refrigerant/oil mixture with nanoparticles. International Journal of Heat and Mass Transfer, 2011, 54: 1839-1850.
[47] Hao Peng, Guoliang Ding, Haitao Hu. Effect of surfactant additives on nucleate pool boiling heat transfer of refrigerant-based nanofluid. Experimental Thermal and Fluid Science, 2011, 35 (6): 960-970.
[48] Hao Peng, Guoliang Ding, Haitao Hu. Migration of carbon nanotubes from liquid-phase to vapor-phase in the refrigerant-based nanofluid pool boiling. Nanoscale Research Letters, 2011, 6: 219.
[49] Hao Peng, Guoliang Ding, Haitao Hu. Influences of refrigerant-based nanofluid composition and heating condition on the migration of nanoparticles during pool boiling. Part I: Experimental measurement. International Journal of Refrigeration, 2011, 34(8): 1823-1832.
[50] Hao Peng, Guoliang Ding, Haitao Hu. Influences of refrigerant-based nanofluid composition and heating condition on the migration of nanoparticles during pool boiling. Part II: Model development and validation. International Journal of Refrigeration, 2011, 34(8): 1833-1845.
[51] Hui Pu, Guoliang Ding, Haitao Hu, Yi-feng Gao. Effect of salt spray corrosion on air-side hydrophilicity and thermal-hydraulic performance of copper-fin heat exchangers. Heat and Mass Transfer, 2010, 46 (8-9): 859-867. (SCI: 000282216400008, IF: 0.896)
[52] Hui Pu, Guoliang Ding, Haitao Hu, Yifeng Gao. Effect of salt spray corrosion on air-side performance of finned tube heat exchanger with hydrophilic coating under dehumidifying conditions. HVAC&R Research, 2010, 16(3): 257-272. (SCI: 000277866000002, IF: 0. 683)
[53] Yang, Y., Zhuang, D., Ding, G., Haitao Hu. (2016). A mathematic model for predicting the volume of water bridge retaining between vertical fin surfaces. International Journal of Refrigeration, 67, 157-166.
[54] Yang, Y., Zhuang, D., Ding, G., Haitao Hu. (2016). Observation and description of the shape of water bridge retaining between vertical plane surfaces. International Journal of Refrigeration, 64, 20-31.

Huang X, Ding G, Hu H, et al. Influence of oil on flow condensation heat transfer of R410A inside 4.18 mm and 1.6 mm inner diameter horizontal smooth tubes[J]. International journal of refrigeration, 2010, 33(1): 158-169.
Huang X, Ding G, Hu H, et al. Condensation heat transfer characteristics of R410A–oil mixture in 5 mm and 4 mm outside diameter horizontal microfin tubes[J]. Experimental Thermal and Fluid Science, 2010, 34(7): 845-856.
Huang X, Ding G, Hu H, et al. Two-phase frictional pressure drop characteristics of R410A-oil mixture flow condensation inside 4.18 mm and 1.6 mm ID horizontal smooth tubes[J]. HVAC&R Research, 2010, 16(4): 453-470.
Huang X, Ding G, Hu H, et al. Flow condensation pressure drop characteristics of R410A–oil mixture inside small diameter horizontal microfin tubes[J]. International journal of refrigeration, 2010, 33(7): 1356-1369.


【中文论文】
**胡海涛, 朱禹, 彭浩, 丁国良, 孙硕. 泡沫金属管内含油制冷剂流动沸腾的压降特性[J]. 化工学报, 2014, 65(S2): 95-100.
孙浩然1胡海涛1李浩1丁国良1吴成云2王旭阳2吕中原2. 带闪发器的中间补气型热泵系统稳态仿真模型. 化工学报. 2018,(S2) 第260-265页
密晓光1陈杰1余思聪1丁超2胡海涛2丁国良. 混合工质摩尔配比对LNG绕管式换热器壳侧换热特性的影响. 流体机械. 2018,(08) 第17-20+12页
丁超1胡海涛1丁国良1陈杰2密晓光2余思聪. 运行工况对LNG绕管式换热器壳侧换热特性的影响. 化工学报. 2018,(06) 第2417-2423页
大型客机辅助冷却系统稳态仿真模型. 吴静玮1孙浩然1胡海涛1李革萍2吴成云2吕中原. 民用飞机设计与研究. 2017,(03) 第58-63页
**胡海涛, 朱禹, 丁国良, 孙硕. 含油制冷剂在泡沫金属圆管内流动沸腾的换热特性. 制冷学报，2013, 34(1): 24-29.
**胡海涛, 朱禹, 孙硕, 丁国良, 庄大伟, 景尧龙. 泡沫金属对含油制冷剂管内流动沸腾换热特性的影响. 工程热物理学报, 2012, 33(6): 1019-1022
**胡海涛, 黄翔超, 丁国良, 邓斌, 郑永新, 高屹峰, 宋吉. 润滑油对小管径强化管内R410A流动冷凝压降特性的影响. bat365在线中国官网登录入口学报, 2012, 46(4): 515-519

【中文论文】
**胡海涛, 朱禹, 彭浩, 丁国良, 孙硕. 泡沫金属管内含油制冷剂流动沸腾的压降特性[J]. 化工学报, 2014, 65(S2): 95-100.
孙浩然1胡海涛1李浩1丁国良1吴成云2王旭阳2吕中原2. 带闪发器的中间补气型热泵系统稳态仿真模型. 化工学报. 2018,(S2) 第260-265页
密晓光1陈杰1余思聪1丁超2胡海涛2丁国良. 混合工质摩尔配比对LNG绕管式换热器壳侧换热特性的影响. 流体机械. 2018,(08) 第17-20+12页
丁超1胡海涛1丁国良1陈杰2密晓光2余思聪. 运行工况对LNG绕管式换热器壳侧换热特性的影响. 化工学报. 2018,(06) 第2417-2423页
大型客机辅助冷却系统稳态仿真模型. 吴静玮1孙浩然1胡海涛1李革萍2吴成云2吕中原. 民用飞机设计与研究. 2017,(03) 第58-63页
**胡海涛, 朱禹, 丁国良, 孙硕. 含油制冷剂在泡沫金属圆管内流动沸腾的换热特性. 制冷学报，2013, 34(1): 24-29.
**胡海涛, 朱禹, 孙硕, 丁国良, 庄大伟, 景尧龙. 泡沫金属对含油制冷剂管内流动沸腾换热特性的影响. 工程热物理学报, 2012, 33(6): 1019-1022
**胡海涛, 黄翔超, 丁国良, 邓斌, 郑永新, 高屹峰, 宋吉. 润滑油对小管径强化管内R410A流动冷凝压降特性的影响. bat365在线中国官网登录入口学报, 2012, 46(4): 515-519

1）课程名称：工程设计     授课对象：本科生；
2）课程名称：工程与社会  授课对象：本科生；
3）课程名称：制冷原理及设备 授课对象：本科生；
4)  课程名称：流体力学泵与风机   授课对象：本科生；
5）担任本科生班主任
     2010年获“bat365在线中国官网登录入口十佳班主任”；
     2011年获“bat365在线中国官网登录入口优秀班主任”；
     2016年担任“钱学森班”班主任。

专利与软件著作权：
软件著作权：蒸汽压缩式制冷与电子散热系统仿真设计软件
软件著作权：三轮升压式空气调节系统效能设计软件
软件著作权：火星土壤热惯量仿真计算软件
软件著作权：火箭发动机故障诊断仿真试验验证系统软件
软件著作权：飞行器精密仪器恒温控制系统控温性能仿真软件
软件著作权：飞机蒸气压缩式制冷单元性能仿真软件
软件著作权：大型客机辅助冷却系统部件模型库仿真软件
软件著作权：B787客机辅助冷却系统性能仿真软件
软件著作权：空气换热器性能仿真软件
软件著作权：微通道换热器性能仿真软件
软件著作权：板翅式换热器性能仿真软件
软件著作权：中间补气型变频压缩机性能仿真软件
软件著作权：基于图形交互技术的晃荡工况下板翅式换热器冷箱仿真软件
软件著作权：板式换热器冷箱仿真软件

专利：一种高导热型热固复合材料及其制备方法和应用
专利：一种可用于超低温制冷的嵌入式平板蒸发器
专利：一种偏心式套管换热器
专利：一种强化自然对流的圆盘式超低温蒸发器
专利：一种小型超低温生物样本库制冷系统
专利：一种带有折弯结构的水平安装多孔分配器
专利：一种多排翅片管换热器性能快速仿真与设计方法
专利：一种具有梯级相变温度和相变界面调控功能的散热器
专利：一种地外天体表面热惯量反演与验证方法
专利：一种基于热管散热的机载精密测量仪器温控装置 (ZL 202010147111.0)
专利：一种基于图论的大型客机辅助冷却系统仿真建模方法
专利：一种基于数据驱动和模型的制冷系统制冷剂泄漏探测方法
专利：一种基于局部线性化理论的变频补气压缩机性能计算方法
专利：一种配管以及具有该配管结构的大型冷箱；授权号：ZL 201720257477.7（排1）；
专利：一种气液分配部件以及具有该部件的封头和板翅式换热器,CN201720193179.6
专利：一种除霜过程中室内不间断制热的空调系统,CN201510189288.6
专利：一种适用于摇晃工况的板翅式换热器,CN201820136502.0
专利：一种改善液体分布不均的板翅式换热器,CN201820137127.1
专利：CO2-油混合物跨临界循环换热测量装置；授权号：ZL 2009 1 0050459.1 （排1）；
专利：基于泡沫金属强化沸腾换热的芯片冷却装置；授权号：ZL 201210100441.X （排1）。
专利：一种空调器无水加湿装置；授权号：ZL 2014 10101113.0 （排1）；
专利：气泡导流满液式壳管蒸发器；授权号：ZL 2015 21008655.X（排1）；
专利：具有气道的满液式壳管蒸发器；授权号：ZL 201521010330.5（排1）；
专利：一种多源耦合的二氧化碳地源热泵系统；授权号：ZL 201410735908.7（排1）；
专利：一种防液击空调除霜系统；授权号：ZL 201510287888.6（排1）；
专利：基于弓形折流板的管壳式换热器；授权号：ZL 201620548167.6（排4）。

《制冷技术》，常务副主编；
上海市制冷学会副秘书长、理事 /编译委员会副主任；
压力容器换热器委员会，委员
国际制冷大会，分会场主席
国际制冷学会会员

期刊审稿专家：
Applied Energy; Energy
International Journal of Thermophysics
International Journal of Heat and Mass Transfer；
Physics of Fluids;
Journal of Heat Transfer；
International Journal of Multiphase Flow;
International Communications in Heat and Mass Transfer；
Applied Thermal Engineering,
 International Journal of Refrigeration, 
International Journal of Thermal Science

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1）教育部科技进步二等奖
2）中国仿真学会科学技术一等奖
3）上海市科技进步一等奖
4）中国制冷学会科学技术青年奖、中国制冷学会先进工作者
5）中国机械工业科技进步一等奖
6）中国制冷学会科技进步一等奖
7）上海市科技进步二等奖
8）上海市科技进步三等奖
         
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 聘期考核优秀；