2016.09-2021.06  上海交通大學(xué)  博士
2012.09-2016.07  江蘇大學(xué)        學(xué)士

2023.06至今          上海交通大學(xué)  助理研究員（碩士生導(dǎo)師）
2021.06-2023.06  上海交通大學(xué)   博士后（合作導(dǎo)師：陳江平，彭穎紅）
2018.06-2019.01  奧地利OBRIST ENGINEERING  訪問學(xué)者

新能源汽車(包括飛行汽車)整車熱管理
數(shù)據(jù)中心，AI芯片，機器人熱管理
寬溫區(qū)高效熱泵
新型環(huán)保制冷劑替代開發(fā)（CO2,  R290, 新型混合工質(zhì)）
全生命周期環(huán)境影響評價
拓撲優(yōu)化，增材制造強化換熱
生物醫(yī)用新材料，器官低溫保存

2026年可招收2名碩士，歡迎對熱管理，新材料，生物醫(yī)療，人工智能等方向感興趣的同學(xué)郵件聯(lián)系。

協(xié)助指導(dǎo)團隊博士生于2024，2025年連續(xù)獲博士生國家獎學(xué)金，畢業(yè)任職于跨國企業(yè)，上市公司等重要單位。

Peer-Review Referee for Renewable and sustainable energy review, Energy, Applied Energy, International Journal of Heat and Mass Transfer, Applied Thermal Engineering, International Journal of Refrigeration

國家自然科學(xué)基金評審專家
《制冷熱泵助力碳中和-技術(shù)途徑與案例2024》編委
Applied energy CUE2023國際學(xué)術(shù)會議分會場主席，日本
21?? International Conference on Sustainable Energy Technologies 分會場主席，上海
16th International Conference on Applied Energy (ICAE2024) 分會場主席，日本

1. 國家自然科學(xué)基金青年項目“梯度三周期極小曲面熱學(xué)超材料流動傳熱機理與優(yōu)化研究”2024.01-2026.12，負責(zé)人

2. 上海交通大學(xué)學(xué)生創(chuàng)新中心“生物材料醫(yī)工交叉研究及轉(zhuǎn)化中心（基地）”2024-2026，工科負責(zé)人

3. 國家重點實驗室開放基金項目“面向碳中和的電動汽車熱泵環(huán)保制冷劑全生命周期氣候性能模型與減排評估”2023.06-2024.06，負責(zé)人

4. 四川省自然科學(xué)基金項目(青年科學(xué)基金B(yǎng)類)“三周期極小曲面(TPMS)拓撲融合結(jié)構(gòu)熱-力-聲耦合強化機制研究”2026.01-2027.12.31，負責(zé)人
   

5. 上海交通大學(xué)醫(yī)工交叉基金項目“盆底聚丙烯網(wǎng)片鈦金屬界面生物力學(xué)調(diào)控技術(shù)的臨床應(yīng)用研究“ 2023.01-2025.12，工科負責(zé)人

6. 上海交通大學(xué)新進教師啟動計劃項目，2023.06-2026.12，負責(zé)人

7. 國家自然科學(xué)基金面上項目 "基于微流體操控技術(shù)的細胞膜功能性凍存損傷抑制研究及肝臟部分凍結(jié)探索" 2024.01-2027.12，主要參與（排2）

8. 上海交通大學(xué)醫(yī)工交叉基金項目 "聚丙烯補片表面鈦涂層處理及金屬微量摻雜工藝在腹壁疝臨床手術(shù)中的應(yīng)用研究" 2022.01-2024.12，主要參與

9. 企業(yè)橫向課題：新能源車用R290集成式熱管理系統(tǒng)開發(fā)，2024-2025，負責(zé)人

10. 企業(yè)橫向課題：燃料電池重卡熱管理集成方案設(shè)計，2024-2025，負責(zé)人

11. 企業(yè)橫向課題：集成熱管理系統(tǒng)續(xù)航里程仿真模型，2024，負責(zé)人

12. 企業(yè)橫向課題(國際合作)：新制冷劑電動汽車熱泵系統(tǒng)開發(fā)及臺架和整車性能研究，2025，負責(zé)人

13. 企業(yè)橫向課題：芯片散熱領(lǐng)域業(yè)務(wù)咨詢，2025-2026，負責(zé)人

14. 企業(yè)橫向課題：面向高功率AI芯片的高性能冷板開發(fā)，2025-2026，負責(zé)人

15. 企業(yè)橫向課題：微通道蓋板集成(MLCP)高功率芯片散熱液冷板開發(fā)，2026，負責(zé)人

16. 企業(yè)橫向課題(國際合作)：Development of diamond-enhanced liquid cooling technologies for AI chips, servers, 2026，負責(zé)人

國家自然科學(xué)基金面上項目，2018.01-2021.12，參與
參與企業(yè)橫向課題十余項（上汽，比亞迪，蔚來，小鵬，理想，銀輪，盾安...）

期刊論文：

2026年：

4. Zhang fengrui, ..., Binbin Yu*. Gradient-optimized triply periodic minimal surface (TPMS) cold plates for chip cooling under two scenarios: Single and multi-heat sources. International Communications in Heat and Mass Transfer, 172, 2026, 110703.

3. Jiaxuan Wang, ..., Binbin Yu*. Comprehensive performance evaluation and advanced design optimization of triply periodic minimal surface (TPMS) heat sinks. International Journal of Heat and Mass Transfer, 260, 2026, 128452.

2. Weicheng Xuan, ..., Binbin Yu, Jiangping Chen, Qiang Li, Junye Shi. Numerical and experimental study on novel fin-based heat exchanger optimization for performance enhancement of R290 secondary loop system. International Journal of Heat and Mass Transfer, 2026, 128270.

1. Zhang fengrui, ..., Binbin Yu*. Nature-inspired gradient triply periodic minimal surface cold plate: Coral wave structural design for enhancing electronics cooling. International Journal of Heat and Mass Transfer, 2026, 128252.

2025年：

10. 華菁陽, 俞彬彬, 余力, 等. 新型車用 R290 間接式熱管理系統(tǒng)及其性能研究[J]. 汽車工程, 2025, 47(10): 2037-2048.

9. Changtian Xu, Zhuoye Wang, ..., Binbin Yu*, Junye Shi*. Multi-Objective Topology Optimization of Lithium-ion Battery Pack Cooling Plate in Full-scale Electric Vehicles. Energy, 2025, 138922.

8. Qiuxiang, ..., J Shi, J Chen, Binbin Yu*. Experimental Study of a Small-Scale Refrigeration System with High Efficiency by Ultra-Fast Centrifugal Compressor. Energy, 2025, 138532.

7. Zekun Jiang, ... Binbin Yu, D Wang, J Shi, J Chen. A high-efficiency immersion cooling system with integrated flow distribution plates for vehicle-scale high-energy-density battery modules. Energy, 2025, 136885.

6. Zhang fengrui, ..., Binbin Yu*. Performance comparison and analysis of gradient-optimized triply periodic minimal surface heat exchangers based on field synergy principle. Applied Thermal Engineering 275, 2025, 126887.

5. Chenyi Qian, ..., Binbin Yu*. Optimization design and heat transfer investigation of TPMS compact heat exchanger based on field synergy principle. International Communications in Heat and Mass Transfer, 2025, 165, 109003.

4. Ruixin Ma, ..., Binbin Yu, Junye Shi, Jiangping Chen. Integrated liquid-cooled battery module with dual functions: Thermal runaway suppression and early warning via flexible pressure sensors. International Journal of Thermal Sciences, 2025, 214, 109908.

3. Weicheng Xuan, ... , Binbin Yu, Junye Shi, Jiangping Chen. Numerical and experimental analysis of thermodynamic properties of plate heat exchangers at high Reynolds number based on different single-phase fluid structures, Energy, 2025, 324, 136035.

2. Junan Long, Binbin Yu, Dandong Wang, Junye Shi, Jiangping Chen. Effects of nozzle eccentricity on performance of varying geometry two-phase R744 ejectors. Applied Thermal Engineering, 2025, 125964.

1. Jiaxuan Wang,..., Binbin Yu*. Experimental and numerical analysis of functionally graded hybrid TPMS heat exchangers for enhanced flow and thermal performance. Applied Thermal Engineering, 2025, 125528. (ESI高被引)

2024年：
13. Jiaxuan Wang,..., Binbin Yu*. Numerical and experimental investigation of additive manufactured heat exchanger using triply periodic minimal surfaces (TPMS). Thermal Science and Engineering Progress, 2024, 55, 103007.                                              
12. Ruixin Ma, ...Binbin Yu, Jiangping Chen. Natural convection characteristics of novel immersion liquid applied to battery thermal management in static mode. Journal of Energy Storage, 2024, 101, 113927.
11. Jiaxuan Wang,..., Binbin Yu*. Design and optimization of additive manufactured Fischer-Koch-structured heat exchanger for enhanced heat transfer efficiency. International Communications in Heat and Mass Transfer, 2024, 159, 108078.
10. Chenyi Qian,..., Binbin Yu*. Numerical and experimental investigation of ultra-compact triply periodic minimal surface heat exchangers with high efficiency. International Journal of Heat and Mass Transfer, 2024, 233, 125984.
9. Xiang Qiu,..., Binbin Yu*. Experimental Study on System Characteristics of Vapor Compression Refrigeration System Using Small-Scale, Gas-Bearing Oil-Free Centrifugal Compressor. Energy, 2024, 132690.
8. Chenyi Qian, Binbin Yu*, Zhenhong Ye, et al. Influence of Water-Solid Interaction and Surface Charge on Thermal Resistance Length. J. Shanghai Jiaotong Univ. (Sci.) (2024).
7. Weicheng Xuan, ..., Binbin Yu, Junye Shi, Jiangping Chen. Numerical simulation and thermodynamic test analysis of plate heat exchanger based on topology optimization. Applied Thermal Engineering, 2024, 123882.
6. Junan Long, Binbin Yu, Dandong Wang, et al. Calibration and Validation of a Modified Non-equilibrium Boiling Model for Transcritical Flashing Flow in Two-phase R744 Nozzles. International Journal of Refrigeration, 2024, 165: 97-110.
5. Li A, Yu B*, Zhang Y, Ouyang H, Guo Z, Shi J, Chen J. The emission reduction potential and cost-effectiveness of low-GWP refrigerants in electric vehicle air conditionings. Carbon Footprints. 2024; 3(1): 6.
4. Chenyi Qian, ..., Binbin Yu*. Experimental investigation on heat transfer characteristics of copper heat exchangers based on triply periodic minimal surfaces (TPMS). International Communications in Heat and Mass Transfer, 2024, 152(107292). (ESI高被引)
3. Binbin Yu*, Long J, Zhang Y, et al. Life cycle climate performance evaluation (LCCP) of electric vehicle heat pumps using low-GWP refrigerants towards China's carbon neutrality. Applied Energy, 2024, 353:122061.
2. Chenyi Qian, Binbin Yu*, Zhenhong Ye, et al. Molecular dynamics simulation of interfacial heat transfer characteristics of CO2, R32 and CO2/R32 binary zeotropic mixture on a smooth substrate. International Journal of Refrigeration, 2024, 157:186-198.
1. Xia Song, ...,Binbin Yu, et al. Energetic performance and life cycle carbon emission of CO2 automotive air conditioning system with an evaporative gas cooler and a dual-evaporator configuration in China. Applied Thermal Engineering, 2024, 239:122060.

2023年：
1. Junan Long, Binbin Yu, Dandong Wang, et al. A novel relaxation drift model for simulating liquid-vapor momentum non-equilibrium in two-phase ejectors. Applied Thermal Engineering, 2023, 52:103758.
2. Jiaxuan Wang, Binbin Yu, Chenyi Qian, et al. Experimental study on the boiling heat transfer characteristics of a pump-driven two-phase cooling loop system for high heat flux avionics. Thermal Science and Engineering Progress, 2023, 45: 102150.
3. Binbin Yu, Chenyi Qian, Hongsheng Ouyang, et al. New Low-GWP Refrigerants for Electric Vehicle Heat Pump with Superior Comprehensive Performance. SAE Technical Paper, 2023-01-0131.
4. Zhenhong Ye, ...,Binbin Yu, et al. The effect of surface nucleation modulation on the mechanical and biocompatibility of metal-polymer biomaterials. Frontiers in Bioengineering and Biotechnology, 2023, 11:1160351.
5. Qiang Lei, Xia Song, Binbin Yu, et al. Energetic performance evaluation of an automotive CO2 air conditioning system with a dual-evaporator configuration. International Journal of Refrigeration, 2023, 152: 356-368.
6. Taiwei Liu, Zhenhong Ye, Binbin Yu, et al. Biomechanical behaviors and visco-hyperelastic mechanical properties of human hernia patches with polypropylene mesh. Mechanics of Materials, 2023, 176:104529.
7. Yu Cai, ...,Binbin Yu, et al. Polymeric nanocomposites for electrocaloric refrigeration. Frontiers in Energy, 2023, 17:450-462.
8. 俞彬彬,龍俊安,王丹東等.電動汽車熱泵全生命周期氣候性能評估模型與環(huán)保制冷劑減排分析[J].科學(xué)通報,2023,68(07):841-852.
9. 袁昊瑞,宋霞,俞彬彬等.帶余熱回收的CO2車用熱泵系統(tǒng)實驗研究[J].制冷學(xué)報,2023,44(02):54-60.

2022年
1. Xia Song, Binbin Yu, Yun Zhang, et al. An investigation of the thermodynamic improvement potential of a transcritical automotive CO2 refrigeration cycle. Applied Thermal Engineering, 2022, 216:119137.
2. Xia Song, ...,Binbin Yu, et al. Energy and exergy analyses of a transcritical CO2 air conditioning system for an electric bus. Applied Thermal Engineering, 2022, 190:116819.

2021年：
1. Binbin Yu, Ouyang H, Shi J, et al. Experimental evaluation of cycle performance for new-developed refrigerants in the electric vehicle heat pump systems. International Journal of Refrigeration, 2021, 129:118-127.
2. Binbin Yu, Ouyang H, Shi J, et al. Evaluation of low-GWP and mildly flammable mixtures as new alternatives for R410A in air-conditioning and heat pump system. International Journal of Refrigeration, 2021, 121:95-104.

2020年及以前：
1. Binbin Yu, Yang J, Shi J, et al. Molecular simulation on the interaction between polypropylene glycol dimethyl ether and trans-1233zd. International Journal of Refrigeration, 2020, 115:48-55.
2. Binbin Yu, Yang J, Wang D, et al. An updated review of recent advances on modified technologies in transcritical CO2 refrigeration cycle. Energy, 2019, 189: 116147.
3. Binbin Yu, Yang J, Wang D, et al. Experimental energetic analysis of CO2/R41 blends in automobile air-conditioning and heat pump systems. Applied Energy, 2019, 239:1142-1153.
4. Binbin Yu, Yang J, Wang D, et al. Energy consumption and increased EV range evaluation through heat pump scenarios and low GWP refrigerants in the new test procedure WLTP. International Journal of Refrigeration, 2019, 100:284-294.
5. Yufeng Wang, Dandong Wang, Binbin Yu, et al. Experimental and numerical investigation of a CO2 heat pump system for electrical vehicle with series gas cooler configuration. International journal of refrigeration, 2019, 100:156-166.
6. Fuzheng Jiang, Yufeng Wang, Binbin Yu, et al. Effects of various operating conditions on the performance of a CO2 air conditioning system for trains. International journal of refrigeration, 2019, 107:105-113.
7. Yang J, Binbin Yu, Ye Z, et al. Experimental investigation of the impact of lubricant oil ratio on subcritical organic Rankine cycle for low-temperature waste heat recovery. Energy, 2019, 188:116099.
8. Yang J, Binbin Yu, Chen J. Improved genetic algorithm-based prediction of a CO2 Micro-Channel Gas-Cooler against experimental data in automobile air conditioning system. International Journal of Refrigeration, 2019, 106:517-525.
9. Wang D, Wang Y, Binbin Yu, Shi J, Chen J. Numerical study on heat transfer performance of micro-channel gas coolers for automobile CO2 heat pump systems. International Journal of Refrigeration, 106, 2019, 639-649.
10. Wang D, Zhang Z, Binbin Yu, et al. Experimental research on charge determination and accumulator behavior in trans-critical CO2 mobile air-conditioning system. Energy, 2019, 183:106-115.
11. Wang D, Shi J, Binbin Yu, Chen J. Heat Transfer Characteristics of Gas Cooler in a CO2 Automobile Heat Pump System, SAE Technical Paper 2019-01-0912, 2019, doi:10.4271/2019-01-0912.
12. Binbin Yu, Wang D, Liu C, et al. Performance improvements evaluation of an automobile air conditioning system using CO2-propane mixture as a refrigerant. International Journal of Refrigeration, 2018, 88:172-181.
13. Binbin Yu, Yang J, Wang D, et al. Modeling and theoretical analysis of a CO2-propane autocascade heat pump for electrical vehicle heating. International Journal of Refrigeration, 2018, 95:146-155.
14. Dandong Wang, Binbin Yu, Wanyong Li, et al. Heating performance evaluation of a CO2 heat pump system for an electrical vehicle at cold ambient temperatures. Applied Thermal Engineering, 2018, 142:656-664.
15.  俞彬彬,王丹東,向偉等.跨臨界CO2電動汽車空調(diào)系統(tǒng)性能分析[J].上海交通大學(xué)學(xué)報,2019,53(07):866-872.
16. 王丹東,陳江平,俞彬彬等.CO2車用熱泵空調(diào)系統(tǒng)技術(shù)研發(fā)及性能提升[J].制冷學(xué)報,2018,39(05):47-52.
17. 俞彬彬,朱建民,王丹東等.基于蒸發(fā)溫度的汽車空調(diào)蒸發(fā)器除霜判定方法研究[J].汽車程,2018,40(08):989-996.
18. 王丹東,張科,俞彬彬等.適用于-20℃環(huán)境的CO2汽車熱泵系統(tǒng)的開發(fā)及性能測試[J].制冷學(xué)報,2018,39(02):14-21.
19. 俞彬彬,王丹東,陳江平.出口過熱度對CO2微通道蒸發(fā)器性能的影響[J].制冷學(xué)報,2018,39(03):31-38.

學(xué)術(shù)會議：
1.Binbin Yu, Yingjing Zhang, Hongsheng Ouyang, et al. Quantifying the Net Transportation Emissions Reduction from Electric Vehicle Heat Pumps for China cities over time. CUE2023-Applied Energy Symposium, MATSUE & TOKYO, Japan, SEP 2-7, 2023. (擔(dān)任分會場主席)
2.Binbin Yu, Junye Shi, Jiangping Chen, et al. Life Cycle Climate Performance Evaluation (LCCP) of Low-GWP Refrigerants for Electric Vehicle Heat Pump Towards Carbon Neutrality. CEN2022-Applied Energy Symposium, Ningbo, China, April 23-25, 2022.
3.Binbin Yu, Jingye Yang, Dandong Wang, et al. Performance enhancement research of a CO2 air conditioning system with propane mechanical subcooling for electric vehicle. The 9th Asian conference on refrigeration and air-conditioning, Sapporo, Japan, June 10-14, 2018.
4.Binbin Yu, Dandong Wang, Fuzheng Jiang, et al. Performance Evaluation of An Automobile Air Conditioning System Using Low GWP CO2-based Binary Zeotropic Refrigerants. The 6th International Conference on Cryogenics and Refrigeration, Shanghai, China, April 12-14.
5.李安然,俞彬彬,陳江平. 雙碳背景下的汽車空調(diào)及能源管理[C]//中國制冷學(xué)會.“2022年雙碳背景下中國制冷技術(shù)研究及應(yīng)用進展論壇”會議論文集. 2023:11.DOI:10.26914/c.cnkihy.2023.026006.
6. 第十四屆國際電子散熱技術(shù)研討會，作大會報告，東莞，2023.02.20-02.21；
7. 第三屆HFO制冷劑及低GWP混合工質(zhì)國際會議，作大會報告，上海，2023.04.06；
8. 第六屆傳熱傳質(zhì)青年學(xué)術(shù)論壇，作分會場會議報告，東莞，2023.04.15；
9. 第三屆華人能源與人工環(huán)境國際學(xué)術(shù)會議，作分會場會議報告，上海，2023.07.31；
10. 2023中國汽車工程學(xué)會 汽車空氣動力學(xué)分會學(xué)術(shù)年會，作大會報告，深圳，2023.09.08；
11. 第二屆含氟溫室氣體論壇，作大會報告，北京，2023.09.19；
12. 中國汽車工程學(xué)會/比亞迪汽車工程研究院 首屆新能源汽車熱管理技術(shù)青年沙龍，深圳，2023.12.16；

1.俞彬彬; 高天元; 楊婧燁; 王丹東; 施駿業(yè); 陳江平; 孫宇航; 張晟昊; 李萬勇; 陳海忠. CO2捕集裝置、CO2轉(zhuǎn)換裝置及碳捕集分體式空調(diào)系統(tǒng), ZL 202020533755.9.
2.俞彬彬; 歐陽洪生; 郭智愷; 劉武燦; 施駿業(yè); 陳江平. 基于CO2混合制冷劑的閃蒸系統(tǒng), ZL 202011425734.6.
3.俞彬彬; 楊婧燁; 高天元; 王丹東; 施駿業(yè); 陳江平; 孫宇航; 張晟昊; 李萬勇; 陳海忠. 非共沸制冷劑自復(fù)疊熱泵空調(diào)系統(tǒng), ZL 202020539861.8.
4.俞彬彬; 施駿業(yè); 王丹東; 陳江平. 一種空調(diào)壓縮機噪聲檢測設(shè)備, ZL 202223414647.8.
5.俞彬彬; 陳江平; 施駿業(yè); 王丹東; 郭照亮. 基于制冷劑噴射循環(huán)的車用冷卻系統(tǒng)及其工作方法, ZL 202310987838.3.
6.俞彬彬; 王丹東; 楊婧燁; 柳慈翀; 蔣甫政; 王雨風(fēng); 張振宇; 高天元; 施駿業(yè); 陳江平. 帶回?zé)嵫b置的并行壓縮式CO2汽車熱泵空調(diào)系統(tǒng), ZL 201910121025.X.
7.俞彬彬; 陳江平; 施駿業(yè); 王丹東; 郭照亮. 一種集成于汽車底盤的電池模塊, ZL 202310994934.0.
8.柳慈翀; 張子琦; 高天元; 俞彬彬; 施駿業(yè); 陳江平. 汽車熱回收空調(diào)系統(tǒng)，ZL 201711320217.0
9.施駿業(yè); 陳江平; 高天元; 李園園; 陸冰清; 俞彬彬; 王丹東; 李萬勇; 陳海忠. 便攜式車載殺菌設(shè)備, ZL 202020365467.7
10.施駿業(yè); 王丹東; 俞彬彬; 陳江平; 陳海忠; 張晨思. 電動汽車用能量流管理機及其工作方法, ZL 202211155767.2.
11.施駿業(yè); 王丹東; 俞彬彬; 陳江平. 空調(diào)風(fēng)機振動測試臺, ZL 202223142198.6.
12.王丹東; 俞彬彬; 張耘; 施駿業(yè); 陳江平; 陳海忠. 一種氣體旁通微通道蒸發(fā)器, ZL201710174209.3.
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