胡海濤

1997 年 9 月～2001 年 7 月在石家莊鐵道學院就讀熱能與動力工程專業本科；2001 年 9 月～2004年 3 月在合肥工業大學攻讀製冷與低温工程專業碩士研究生。

2008.7―2010.7 上海交通大學機械與動力工程學院機械工程博士後流動站 博士後

2010.7―2014.12 上海交通大學 機械與動力工程學院 製冷與低温工程研究所　 助理研究員

2014.12-至今 上海交通大學機械與動力工程學院 製冷與低温工程研究所　副教授

（1）多相流與強化傳熱

（2）製冷系統仿真與優化、換熱器的優化設計

（3）環保製冷劑傳熱特性、納米制冷劑應用

（4）航空航天

2021-2022 企業項目“ARJ21-700飛機性能試驗測試平台”（在研）

2021-2022 商飛項目“基於特徵解耦和人工智能的飛機空調組件動態性能及故障診斷平台”（在研）

2021-2022 商飛項目“飛機壓縮式製冷系統動態特性、故障診斷及壽命預測”（在研）

2020-2021 企業項目“**熱慣量特性模擬平台”（在研）

2020-2023 國家自然基金“碳氫製冷劑在泡沫金屬內流動沸騰機理”（51976115），負責人；（在研）

2016-2019 國家基金“受冷濕空氣在泡沫金屬纖維骨架內相變組分凝析與疏導機制”，負責人；

2010-2012 國家自然基金“含油製冷劑泡沫金屬內流體流動沸騰熱質傳遞的影響機制”負責人；

2019-2022 上海市科委“飛行器恆温控制系統研究”，負責人；（在研）

2017-2021 上海市經信委“飛機輔助冷卻系統計算機動態仿真”，交大方負責人；

2018-2021 北京航天基金“基於泡沫金屬的飛行器恆温控制系統動態性能研究”，負責人；（在研）

2020-2022 商飛項目“飛機輔助冷卻系統動態仿真”，負責人；（在研）

2020-2021 上海航天項目“高壓氧氣管道高温流動安全性模擬與設計”，負責人（在研）

2020-2021 北京航天項目“飛行器恆温控制系統設計”，負責人（在研）

2019-2021 企業合作項目“水盤管換熱器設計開發”，負責人（在研）

2020-2021 企業合作項目“微通道換熱器設計開發”，負責人（在研）

2020-2021 企業合作項目“翅片管換熱器設計開發”，負責人（在研）

2020-2021 企業委託項目“管翅式換熱器性能仿真”，負責人；（在研）

2016-2021 企業委託項目“板翅式換熱器性能模擬與實驗”，負責人；（在研）

2019-2020 上海航天研究院 氦冷卻器仿真及實驗系統，負責人；

2019-2020 北京航天“飛行器恆温系統動態仿真”，負責人；

2019-2020 北京臨近空間研究所“沸騰温控系統研究”，負責人

2020-2021 航天研究院“基於數據的發動機故障診斷”，負責人；

2020-2021 上海飛機研究院“飛機水廢水系統故障診斷”，負責人；

2015-2017 上海市自然基金“泡沫金屬換熱器濕空氣熱質傳遞機理”負責人；

2014-2016 教育部“泡沫金屬纖維表面凝結液滴行為研究”，負責人；

2013-2015 上海交通大學晨星“濕空氣相變熱質傳遞”，負責人；

2011-2012 上海交通大學晨星“含油製冷劑兩相流體流動遲滯與相間滑移效應”，負責人；

2010-2012 青年教師項目“含油製冷劑兩相流型轉化機制與流動沸騰熱質傳遞特性”，負責人。

2008-2010 中國博士後基金“泡沫金屬內流動沸騰的熱質傳遞模型與實驗驗證”，負責人；

2008-2010 上海博士後基金“納米粉體遷移規律的定量描述”，負責人；

2019-2020 北京航天“精密儀器温度控制系統開發及性能分析”，負責人；

2016-2017 中船重工“電機及換熱器性能模型開發”，負責人；

2016-2020 中船重工“FLNG換熱器冷箱性能實驗平台、控制系統及仿真模型開發”，負責人；

2016-2018 商飛項目“大型客機輔助冷卻系統仿真研究”，負責人；

2015-2016 企業合作“空調換熱器優化設計分析”，負責人；

2013-2015 企業合作“滿液式機組換熱器優化分析”，負責人；

2013-2014 企業合作“納米流體熱質傳遞機理研究”，負責人；

2013-2014 企業合作“高效換熱流體性能測試實驗”，負責人；

2010.01―2012.12 國家自然科學基金項目“高粘度非相變組分對泡沫金屬內流體流動沸騰熱質傳遞的影響機制”，負責人；

2009.09―2010.07 中國博士後基金項目“含高粘度非相變組分的流體在泡沫金屬內流動沸騰的熱質傳遞模型與實驗驗證”，負責人；

2009.03―2010.07 上海市博士後基金項目“含油納米制冷劑沸騰中納米粉體遷移規律的定量描述”，負責人； 2010.01―2012.12 國家自然科學基金項目“含油納米制冷劑沸騰中零維和一維納米粉體的遷移機制及定量描述”，第二負責人；

2011.07―2012.07 日本大金公司合作項目“濕工況下翅片管換熱器析濕特性的CFD模擬研究”第二負責人；

2010.11―2012.12 廣州世本樂自動售賣技術研究開發有限公司合作項目“Spengler自動售賣機仿真分析合作協議”，第二負責人；

2009.09―2010.08 博世西門子公司合作項目“冰箱壓機室和風道系統的優化設計”，第二負責人；

2006.10―2007.08 國際銅業協會合作項目“小管徑換熱管內流動沸騰換熱與壓降特性研究”，第二負責人；

2006.04―2006.09 日本大金公司合作項目“節流毛細管內含油製冷劑阻力特性的研究”，第二負責人；

2004.07―2006.03 日本富士通將軍公司合作項目“環保製冷劑管內流動沸騰換熱特性研究”，第二負責人.

2021年

[8] 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.

[7] 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

[6] 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)

[5] 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)

[4] 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.

[3] 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.

[2] 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

[1] Jianye Chen, Xinxin Gao, Shuangquan Shao, Haitao Hu, et al. Numerical investigation of the vortex tube performance in novel precooling methods in the hydrogen fueling station. International Journal of Hydrogen Energy, 2021, 46(7): 5548-5555.

[7] 趙雅鑫，胡海濤等. R1234ze(E)在泡沫金屬管內的流動沸騰換熱和壓降特性. 化工學報，2021（網絡首發時間：2021-06-11）

[6] 胡海濤，賴展程等. 泡沫金屬結構對流動沸騰換熱特性的影響. 製冷學報，2021.4 （網絡首發時間：2021-04-20）

[5] 王兆奇;李孟山;胡海濤等. 雙排對摺型微通道換熱器仿真模型開發。化工學報，2021（S1）

[4] 謝瑤;李劍鋭;胡海濤. 印刷電路板式換熱器內超臨界甲烷流動換熱特性模擬. 化工學報，2021（S1）

[3] 張弛;李浩;胡海濤等. 基於自動特徵工程的客機壓縮機軸承故障診斷研究. 化工學報（封面論文），2021（S1）: 430-436

[2] 林石泉;趙雅鑫;呂中原;賴展程;胡海濤. 親疏水性對泡沫金屬池沸騰換熱特性的影響. 化工學報，2021（S1）

[1] **孫浩然, 呂中原, 吳成雲, 等. 機載補氣增焓製冷系統動態仿真模型[J]. 化工學報, 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.

[7] Jianye Chen, Xinxin Gao, Shuangquan Shao, Haitao Hu, et al. Numerical investigation of the vortex tube performance in novel precooling methods in the hydrogen fueling station. International Journal of Hydrogen Energy, 2020. https://doi.org/10.1016/j.ijhydene.2020.11.070

[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] 李陽, 常守金, 胡海濤, 孫浩然, 賴展程, 2020. 飛行器機載精密儀器温控系統性能的實驗研究. 化工學報, 71(S1), 77-82.

[4] 密曉光, 陳杰, 餘思聰, 等. LNG 繞管式換熱器殼側兩相流動壓降特性的實驗研究[J]. 製冷技術, 2018, 1.

[3] 吳靜瑋 張弛 胡鳴鶴 李劍鋭 孫浩然 胡海濤 魏文建. 晃盪工況下板翅式換熱器封頭內兩相流分配模擬. 製冷技術. 2020,(05), 16-21, 28

[2] 魏文建 常守金 丁二剛 胡海濤. 不同結構風冷換熱器風側特性對比分析. 製冷技術. 2020,(05) 53-57

[1] 張弛 胡海濤 魏文建 毛英超. 製冷劑在近三角形微通道內流動沸騰特性的模擬分析. 製冷技術. 2020,(3) 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 孫浩然 胡海濤 吳成雲 王旭陽 呂中原. 適用於製冷系統泄漏探測的製冷劑質量計算模型. 製冷學報. 2019,(06) 78-81

周發賢, 賴展程, 胡海濤,等. 橫搖對泡沫金屬內液體疏泄特性影響的實驗研究[J]. 製冷技術, 2019, v.39;No.172(06):30-34+73.

胡晨昱, 賴展程, 胡海濤,等. 泡沫金屬結構對池沸騰換熱特性的影響[J]. 製冷學報, 2019, 040(006):98-102.

胡晨昱賴展程胡海濤丁國良韓維哲. 疏水改性對泡沫金屬表面池沸騰換熱特性的影響. 製冷技術. 2018,(06) 8-11

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

孫浩然1胡海濤等. 帶閃發器的中間補氣型熱泵系統穩態仿真模型.化工學報. 2018,(S2) 第260-265頁

密曉光1陳杰1餘思聰1丁超2胡海濤2丁國良. 混合工質摩爾配比對LNG繞管式換熱器殼側換熱特性的影響.流體機械. 2018,(08) 第17-20+12頁

師豔平1王皓顯2李劍鋭2胡海濤2陳慧. 波紋翅片通道內液化天然氣流動沸騰換熱特性分析.製冷技術. 2018,(02) 第27-32頁

密曉光1陳杰1餘思聰1丁超2胡海濤2丁國良. LNG繞管式換熱器殼側兩相流動壓降特性的實驗研究.製冷技術. 2018,(01) 第37-41頁

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

Ding, C., Hu, H., Ding, G (2017). Heat transfer and pressure drop characteristics of two-phase propane flow in shell side of LNG spiral wound heat exchanger. Energy Procedia, 142, 3857-3862.( December 2017)

Haitao, H., Zhancheng, L., Feilong, Z., Song, C., Guoliang, D., & Dawei, Z. (2017). Optimization of tube bundle arrangement for flooded shell-and-tube evaporator. Energy Procedia, 142, 3799-3804.( December 2017, Pages 3799-3804)

Hu, H., Ding, C., Ding, G. Mixed ethane-propane refrigerant flow boiling in shell side of spiral wound heat exchanger: experimental results and correlation. The 9th International Conference on Applied Energy - ICAE2017, 2017, Cardiff, UK.

Ding, C., Hu, H., Ding, G. Heat transfer and pressure drop characteristics of two-phase propane flow in shell side of LNG spiral wound heat exchanger. The 9th International Conference on Applied Energy - ICAE2017, 2017, Cardiff, UK.

大型客機輔助冷卻系統穩態仿真模型. 吳靜瑋1孫浩然1胡海濤1李革萍2吳成雲2呂中原. 民用飛機設計與研究. 2017,(03) 第58-63頁

高揚1陳坦2胡海濤. 基於神經網絡的建築節能預測方法. 製冷與空調(四川). 2017,(01) 第9-13+63頁

2012-2016年

* 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.

* 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.

* 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.

* 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)

* 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].

【第一作者國際會議論文】

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.【國際製冷大會分會場的主題報告(Keynote)，並擔任分會場主席(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.

【中文論文】

**胡海濤, 朱禹, 彭浩, 丁國良, 孫碩. 泡沫金屬管內含油製冷劑流動沸騰的壓降特性[J]. 化工學報, 2014, 65(S2): 95-100.

孫浩然1胡海濤1李浩1丁國良1吳成雲2王旭陽2呂中原2. 帶閃發器的中間補氣型熱泵系統穩態仿真模型. 化工學報. 2018,(S2) 第260-265頁

密曉光1陳杰1餘思聰1丁超2胡海濤2丁國良. 混合工質摩爾配比對LNG繞管式換熱器殼側換熱特性的影響. 流體機械. 2018,(08) 第17-20+12頁

丁超1胡海濤1丁國良1陳杰2密曉光2餘思聰. 運行工況對LNG繞管式換熱器殼側換熱特性的影響. 化工學報. 2018,(06) 第2417-2423頁

大型客機輔助冷卻系統穩態仿真模型. 吳靜瑋1孫浩然1胡海濤1李革萍2吳成雲2呂中原. 民用飛機設計與研究. 2017,(03) 第58-63頁

**胡海濤, 朱禹, 丁國良, 孫碩. 含油製冷劑在泡沫金屬圓管內流動沸騰的換熱特性. 製冷學報，2013, 34(1): 24-29.

**胡海濤, 朱禹, 孫碩, 丁國良, 莊大偉, 景堯龍. 泡沫金屬對含油製冷劑管內流動沸騰換熱特性的影響. 工程熱物理學報, 2012, 33(6): 1019-1022

**胡海濤, 黃翔超, 丁國良, 鄧斌, 鄭永新, 高屹峯, 宋吉. 潤滑油對小管徑強化管內R410A流動冷凝壓降特性的影響. 上海交通大學學報, 2012, 46(4): 515-519

（1）課程名稱：工程設計 授課對象：本科生；

（2）課程名稱：工程與社會 授課對象：本科生；

（3）課程名稱：製冷原理及設備 授課對象：本科生；

（4） 課程名稱：流體力學泵與風機 授課對象：本科生；

（5） 擔任本科生班主任

2010年獲“上海交通大學十佳班主任”；

2011年獲“上海交通大學優秀班主任”；

2016年擔任“錢學森班”班主任。

專利與軟件著作權：

軟件著作權：飛行器精密儀器恆温控制系統控温性能仿真軟件

軟件著作權：飛機蒸氣壓縮式製冷單元性能仿真軟件

軟件著作權：大型客機輔助冷卻系統部件模型庫仿真軟件

軟件著作權：B787客機輔助冷卻系統性能仿真軟件

軟件著作權：中間補氣型變頻壓縮機性能仿真軟件

軟件著作權：微通道換熱器仿真及設計軟件

軟件著作權：基於圖形交互技術的晃盪工況下板翅式換熱器冷箱仿真軟件

軟件著作權：板翅式換熱器冷箱仿真軟件

專利：一種基於熱管散熱的機載精密測量儀器温控裝置 (ZL 202010147111.0)

專利：一種基於圖論的大型客機輔助冷卻系統仿真建模方法

專利：一種基於數據驅動和模型的製冷系統製冷劑泄漏探測方法

專利：一種基於局部線性化理論的變頻補氣壓縮機性能計算方法

--一種配管以及具有該配管結構的大型冷箱；授權號：ZL 201720257477.7（排1）；

--一種氣液分配部件以及具有該部件的封頭和板翅式換熱器,CN201720193179.6

--一種除霜過程中室內不間斷制熱的空調系統,CN201510189288.6

--一種適用於搖晃工況的板翅式換熱器,CN201820136502.0

--一種改善液體分佈不均的板翅式換熱器,CN201820137127.1

--CO2-油混合物跨臨界循環換熱測量裝置；授權號：ZL 2009 1 0050459.1 （排1）；

--基於泡沫金屬強化沸騰換熱的芯片冷卻裝置；授權號：ZL 201210100441.X （排1）。

--一種空調器無水加濕裝置；授權號：ZL 2014 10101113.0 （排1）；

--氣泡導流滿液式殼管蒸發器；授權號：ZL 2015 21008655.X（排1）；

--具有氣道的滿液式殼管蒸發器；授權號：ZL 201521010330.5（排1）；

--一種多源耦合的二氧化碳地源熱泵系統；授權號：ZL 201410735908.7（排1）；

--一種防液擊空調除霜系統；授權號：ZL 201510287888.6（排1）；

--基於弓形折流板的管殼式換熱器；授權號：ZL 201620548167.6（排4）。

《製冷技術》，常務副主編；

上海市制冷學會副秘書長、理事 /編譯委員會副主任；

國際製冷大會，分會場主席

國際製冷學會會員

期刊審稿專家：

Energy

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

省部級獎勵

（1）2019年 上海市科技進步一等獎

（2）2017年 中國製冷學會科學技術青年獎

（3）2014年 中國機械工業科技進步一等獎

（4）2014年 中國製冷學會科技進步一等獎

（5）2009年 上海市科技進步二等獎

（6）2010年 上海市科技進步三等獎

其他獎勵

2019年 聘期考核優秀；

2018年 優秀班主任

2016年 聘期考核優秀；

2015年 中國製冷學會優秀論文三等獎（第一作者）；

2015年 上海交通大學“莙政導師”榮譽稱號；

2014年 《製冷技術》期刊優秀論文一等獎（第一作者）；

2013年 上海交通大學晨星優秀青年教師獎勵（B類）；

2012年 上海交通大學優秀博士後留校教師“獎勵基金”一等獎；

2012年 上海交通大學晨星優秀青年教師獎勵（C類）；

2011年 上海交通大學“優秀班主任”；

2010年 上海交通大學“十佳班主任”。

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