科学研究

  研究方向

1)  新型制冷系统、热泵及膨胀机技术 
2）新能源汽车空调及压缩机技术
3）压缩机及真空泵技术
4）人工智能及物联网技术应用

 获奖

1)高效制冷供热耦合系统关键技术及应用，陕西省高等学校科学技术奖一等奖，2021

2)智慧高效柔性连续冻结线关键技术研发及应用,  中国制冷学会科技进步奖,特等奖, 2021  

3)工业余热提质回热循环利用关键技术研究与应用，山东省科技进步一等奖，2020

4)高效过冷水制冰机组，中国制冷学会科技进步奖,一等奖, 2019

5)特殊介质极端工况螺杆压缩机关键技术研发与应用，中国机械工业科技进步奖，一等奖，2019

6)宽温区高效制冷供热耦合集成系统的研发与应用,  中国制冷学会科技进步奖,特等奖, 2017  

7)螺杆压缩机设计理论、关键技术及系列产品开发，教育部科技进步奖，一等奖，2005

指导学生获奖
1)冷博士一AI赋能的低碳慧冷库领跑者，何芷怡等，中国国际大学生创新大赛（原“互联网+”大学生创新创业大赛），铜奖，2023
2)iManage Internet of Things，卢阳等，第六届中国国际“互联网+”大学生创新创业大赛银奖（国际赛道），2020
3）基于磁热效应的磁性冰箱，杨毅帆等，西安交通大学“腾飞杯+”大学生创新创业大赛银奖，三等奖，2020
4) CoolMaster冷库管家，李丹童等，第三届中国“互联网+”大学生创新创业大赛陕西省银奖，2017
5）冷库智能设计与监控系统，李丹童等；第三届西安交通大学中国“互联网+”大学生创新创业大赛银奖，2017

一、科研项目

二、论文

[1] S.D. Sun, Y. Sima, Z.Y. Chen, X. Zhang, Y.N. Liang, Y. Dai, Q.X. Liu, W.C. Feng, L.L. Zhao, C.Y. Wen, W.M. Li, J.T. Gao, Y. Gao, Z.L. He, C.X. Li, Experimental operating characteristic of a 30-cell tubular segmented-in-series solid oxide fuel cell, Journal of Power Sources, 628 (2025).
[2] C.Z. Sun, D.T. Li, Z.L. He, X.L. Wang, X. Zhang, X. Wang, J. Tang, Research on pumping and temperature distribution characteristics of a dry roots vacuum pump under zero-flow variable conditions, Applied Thermal Engineering, 269 (2025).
[3] K. Ma, X.K. Wu, H.C. Liu, D.T. Li, Z.L. He, Theoretical and Numerical Research on High-Speed Small Refrigeration Twin-Screw Compressor, Applied Sciences-Basel, 15 (2025).
[4] D.T. Li, Z.L. He, X.Q. Chen, C.Z. Sun, K. Ma, C. Wang, Z.W. Xing, Meshing pair geometry of the intersecting-axis internally geared screw compressor, International Journal of Refrigeration, 169 (2025) 166-183.
[5] S.D. Sun, Z. Li, B.F. Yuan, Y. Sima, Y. Dai, W.T. Wang, Z.L. He, C.X. Li, A new pathway to integrate novel coal-to-methanol system with solid oxide fuel cell and electrolysis cell, Energy, 304 (2024).
[6] S. Sun, X. Guo, H. Zhang, Y. Li, Z. He, C. Li, Design and sensitivity analysis of a multistage solid oxide fuel cell hybrid system with an inter-cooled-recuperated gas turbine and organic Rankine cycle, Energy, (2024) 129561-129561.
[7] D.T. Li, Z.L. He, K. Ma, C.Z. Sun, Z.W. Xing, Rotor profile improvement by optimizing meshing curve for helical roots blowers in HFCV application, Proceedings of the Institution of Mechanical Engineers Part E-Journal of Process Mechanical Engineering, (2024).
[8] L.T. Ji, X. Wang, Z.L. He, Z.W. Xing, Design of a Steady-State Adjustment Method and Sensitivity Analysis for an ORC System with Plate Heat Exchangers, Applied Sciences-Basel, 14 (2024).
[9] Q. Liu, A. Arabkoohsar, Y. Liu, Z. He, Techno-economic analysis of a liquid air energy storage system combined with calcium carbide production and waste heat recovery, Journal of Energy Storage, 60 (2023).
[10] L. Xing, J. Feng, Z. He, X. Peng, Analysis and development of a roots-type air compressor with fixed internal compression for fuel cell system, Proceedings of the Institution of Mechanical Engineers Part a-Journal of Power and Energy, 236 (2022) 51-60.
[11] J. Wang, Z. He, D. Li, W. Wu, Numerical Simulation of Vortex-Induced Vibration of TTR and SCR, Journal of Marine Science and Engineering, 10 (2022).
[12] D. Li, Z. He, W. Wu, Z. Xing, Study on the Quimby-tooth rotor profile for dry screw vacuum pumps, Proceedings of the Institution of Mechanical Engineers Part E-Journal of Process Mechanical Engineering, 236 (2022) 1947-1957.
[13] D. Li, Z. He, C. Wang, S. Sun, K. Ma, Z. Xing, Simulation of dry screw vacuum pumps based on chamber model and thermal resistance network, Applied Thermal Engineering, 211 (2022).
[14] D. Li, Z. He, S. Sun, Z. Xing, Dynamic characteristics modelling and analysis for dry screw vacuum pumps, Vacuum, 198 (2022).
[15] W. Hu, Z. He, D. Li, K. Ma, Z. Xing, Geometry of intersecting-axis conical twin-screw rotors, Mechanism and Machine Theory, 174 (2022).
[16] J. Wang, Q. Zuo, G. Liao, F. Luo, P. Zhao, W. Wu, Z. He, Y. Dai, Machine Learning-Based Fault Detection and Diagnosis of Organic Rankine Cycle System for Waste-Heat Recovery, Journal of Energy Engineering, 147 (2021).
[17] C. Wang, Z. Xing, S. Sun, W. Chen, Z. He, Theoretical research on the wear characteristics of rotors in a twin-screw compressor, Proceedings of the Institution of Mechanical Engineers Part E-Journal of Process Mechanical Engineering, (2021).
[18] C. Peng, W. Wu, Z. Zhang, J. Xie, Q. Feng, Z. He, Dynamic characteristics improvement of the single screw compressor with odd-grooves screw rotor, International Journal of Refrigeration, 132 (2021) 100-108.
[19] Q. Liu, Z. He, Y. Liu, Y. He, Thermodynamic and parametric analyses of a thermoelectric generator in a liquid air energy storage system, Energy Conversion and Management, 237 (2021).
[20] D. Li, Z. He, Q. Wang, X. Wang, W. Wu, Z. Xing, Thermodynamic analysis and optimization of a partial evaporating dual-pressure organic rankine cycle system for low-grade heat recovery, Applied Thermal Engineering, 185 (2021).
[21] D. Li, Z. He, C. Wang, Y. Guo, W. Wei, D. Lin, Z. Xing, Design methodology and performance analysis of conical rotors for dry screw vacuum pumps, Vacuum, 185 (2021).
[22] D. Li, Z. He, S. Sun, C. Wang, W. Chen, Z. Xing, Development and analysis of novel six-lobe helical rotors for hydrogen fuel cell vehicle roots blowers, International Journal of Hydrogen Energy, 46 (2021) 30479-30493.
[23] Z. He, D. Li, Y. Han, M. Zhou, Z. Xing, X. Wang, Noise control of a twin-screw refrigeration compressor, International Journal of Refrigeration, 124 (2021) 30-42.
[24] Q. Wang, W. Wu, D. Li, J. Wang, Z. He, Thermodynamic analysis and optimization of four organic flash cycle systems for waste heat recovery, Energy Conversion and Management, 221 (2020).
[25] C. Wang, Z. Xing, S. Sun, Z. He, Loss analysis of oil-free twin-screw expanders for recovering energy in fuel cell systems by means of p-theta diagrams, Energy, 201 (2020).
[26] C. Wang, Z. Xing, S. Sun, W. Chen, Z. He, Experimental study on the performance of oil-free twin-screw expanders for recovering energy in fuel cell systems, Applied Thermal Engineering, 165 (2020).
[27] Z. He, X. Yang, D. Li, W. Wu, Dynamic characteristics of a swing compressor for an air conditioning system at different discharge pressures, International Journal of Refrigeration-Revue Internationale Du Froid, 112 (2020) 125-135.
[28] Z. He, X. Qu, L. Ji, W. Wu, X. Wang, Analysis and Optimization of Truck Windshield Defroster, Applied Sciences-Basel, 10 (2020).
[29] Z. He, D. Li, L. Ji, X. Wang, T. Wang, Investigation on the Mass Flow Rate of a Refrigerator Compressor Based on the p-V Diagram, Applied Sciences-Basel, 10 (2020).
[30] Z. He, L. Ji, Z. Xing, Experimental Investigation on the DLC Film Coating Technology in Scroll Compressors of Automobile Air Conditioning, Energies, 13 (2020).
[31] Z. He, Y. Han, W. Chen, M. Zhou, Z. Xing, Noise control of a two-stage screw refrigeration compressor, Applied Acoustics, 167 (2020).
[32] 周明龙, 陈文卿, 何志龙, 邢子文, 螺杆制冷压缩机振动噪声控制技术研究, 制冷与空调, 19 (2019) 55-60.
[33] 周明龙, 陈文卿, 何志龙, 邢子文, 螺杆制冷压缩机气流脉动诱发气动噪声机理研究, 压缩机技术, (2019) 1-6.
[34] 杨侨明, 陈文卿, 周明龙, 何志龙, 邢子文, 压缩机用电动机振动噪声故障诊断, 压缩机技术, (2019) 17-20+26.
[35] 杨侨明, 陈文卿, 周明龙, 何志龙, 邢子文, 压缩机用电动机振动噪声研究现状, 制冷与空调, 19 (2019) 65-69+78.
[36] 何志龙, 杨显照, 姬蓝天, 李丹童, 摆动转子压缩机受力分析与理论计算, 流体机械, 47 (2019) 24-30.
[37] Q. Wang, W. Wu, Z. He, D. Ziviani, Analysis of the intake process and its influence on the performance of a two-phase reciprocating expander, Applied Thermal Engineering, 160 (2019).
[38] Q. Wang, W. Wu, Z. He, Thermodynamic analysis and optimization of a novel organic Rankine cycle based micro-scale cogeneration system using biomass fuel, Energy Conversion and Management, 198 (2019).
[39] C. Wang, Z. Xing, W. Chen, S. Sun, Z. He, Analysis of the leakage in a water-lubricated twin-screw air compressor, Applied Thermal Engineering, 155 (2019) 217-225.
[40] J. Lantian, H. Zhilong, H. Yaoxiang, C. Weiqing, X. Ziwen, Investigation on the performance improvement of the scroll compressor by DLC film, IOP Conference Series: Materials Science and Engineering, 604 (2019) 012078 (012010 pp.)-012078 (012010 pp.).
[41] 何志龙, 陈倩, 李丹童, 李博, 气阀对汽车空调涡旋压缩机工作过程的影响研究, 流体机械, 46 (2018) 79-83.
[42] C. Wang, Z. Xing, X. Pan, Z. He, Simulation of the characteristics of the water-lubricated journal bearing in twin-screw air compressor, Industrial Lubrication and Tribology, 70 (2018) 1476-1486.
[43] C. Wang, Z. Xing, W. Chen, Q. Yang, Z. He, Development of an oil free water-lubricated twin-screw air compressor, Applied Thermal Engineering, 143 (2018) 396-402.
[44] W. Tao, Y. Guo, Z. He, X. Peng, Investigation on the delayed closure of the suction valve in the refrigerator compressor by FSI modeling, International Journal of Refrigeration-Revue Internationale Du Froid, 91 (2018) 111-121.
[45] Z. He, T. Wang, X. Wang, X. Peng, Z. Xing, Experimental Investigation into the Effect of Oil Injection on the Performance of a Variable Speed Twin-Screw Compressor, Energies, 11 (2018).
[46] X. Wu, Z. Xing, Z. He, X. Wang, W. Chen, Effects of lubricating oil on the performance of a semi-hermetic twin screw refrigeration compressor, Applied Thermal Engineering, 112 (2017) 340-351.
[47] Y. Tian, Z. Xing, Z. He, H. Wu, Modeling and performance analysis of twin-screw steam expander under fluctuating operating conditions in steam pipeline pressure energy recovery applications, Energy, 141 (2017) 692-701.
[48] F. Hu, Z. Zhang, W. Chen, Z. He, X. Wang, Z. Xing, Experimental investigation on the performance of a twin-screw expander used in an ORC system, in: F. Alam, R. Jazar, H. Chowdhury (Eds.) 1st International Conference on Energy and Power, Icep20162017, pp. 210-215.
[49] Z. He, Z. Jian, T. Wang, D. Li, X. Peng, Iop, Investigation on the variation of pressure in the cylinder of the refrigerator compressor based on FSI model,  10th International Conference on Compressors and Their Systems2017.
[50] Z. He, Q. Chen, D. Li, J. Wang, P. Xia, T. Wang, Iop, Research on Noise Reduction of Reed Valves of a Hermetic Refrigerator Compressor,  10th International Conference on Compressors and Their Systems 2017.
[51] 吕鹏, 曹建文, 陈文卿, 李星星, 何志龙, 喷油对变频螺杆压缩机性能影响的试验研究, 压缩机技术, (2016) 27-31.
[52] 郭俊, 李博, 汪少兵, 胡文超, 何志龙, 基于流固耦合的压缩机舌簧阀流量系数与有效作用面积系数的计算（英文）, 中国北京, 2016, pp. 6.
[53] X. Wu, Z. Xing, Z. He, X. Wang, W. Chen, Performance evaluation of a capacity-regulated high temperature heat pump for waste heat recovery in dyeing industry, Applied Thermal Engineering, 93 (2016) 1193-1201.
[54] T. Wang, B. Li, Q. Peng, Z. He, X. Peng, Flow Field Simulation and Noise Control of a Twin-Screw Engine-Driven Supercharger, Mathematical Problems in Engineering, (2016).
[55] J. Shen, Z. Xing, K. Zhang, Z. He, X. Wang, Development of a water-injected twin-screw compressor for mechanical vapor compression desalination systems, Applied Thermal Engineering, 95 (2016) 125-135.
[56] J. Guo, B. Li, S. Wang, W. Hu, Z. He, Ieee, Calculation of Flow Coefficient and Effective Action Area Coefficient of Compressor's Reed Valve based on Fluid-solid Coupling, 2016.
[57] 胡斌, 曹锋, 邢子文, 何志龙, 空气源跨临界CO_2热泵系统热气除霜的实验研究, 西安交通大学学报, 49 (2015) 74-79.
[58] X. Wang, Z. He, H.T. Chua, Performance simulation of multi-bed silica gel-water adsorption chillers, International Journal of Refrigeration-Revue Internationale Du Froid, 52 (2015) 32-41.
[59] Z. He, X. Wang, T. Chua, Performance Study of a Four-Bed Silica Gel-Water Adsorption Chiller with the Passive Heat Recovery Scheme, Mathematical Problems in Engineering, 2015 (2015).
[60] 袁皓, 唐昊, 何志龙, 邢子文, 喷液冷却的两级无油螺杆氨气压缩机性能研究, 压缩机技术, (2014) 5-10.
[61] 沈九兵, 何志龙, 邢子文, 采用喷水螺杆式水蒸气压缩机的高温热泵设计及性能分析, 制冷与空调, 14 (2014) 95-98.
[62] J. Shen, Z. Xing, X. Wang, Z. He, Analysis of a single-effect mechanical vapor compression desalination system using water injected twin screw compressors, Desalination, 333 (2014) 146-153.
[63] B. Hu, X. Wang, F. Cao, Z. He, Z. Xing, Experimental analysis of an air-source transcritical CO2 heat pump water heater using the hot gas bypass defrosting method, Applied Thermal Engineering, 71 (2014) 528-535.
[64] 杨侨明, 钟检长, 何志龙, 吴华根, 邢子文, 双螺杆机械增压器变形计算与模态分析, 压缩机技术, (2013) 15-20.
[65] 林淑汝, 何志龙, 郭俊, 全封闭冰箱压缩机气动噪声研究, 压缩机技术, (2013) 5-10.
[66] Z. He, Z. Xing, W. Chen, X. Wang, Thermal and hydraulic analysis on the flow around the motor in semi-hermetic twin screw refrigeration compressors, Applied Thermal Engineering, 58 (2013) 114-124.
[67] W. Chen, Z. Xing, J. Shen, Z. He, Thermal modeling for the motor in semi-hermetic screw refrigeration compressors under part-load conditions, International Journal of Refrigeration-Revue Internationale Du Froid, 36 (2013) 1874-1882.
[68] 韩海晓, 何志龙, 彭强强, 全封闭冰箱压缩机噪声控制研究综述, 流体机械, 40 (2012) 35-40.
[69] K. Wang, J. Sun, Z. He, P. Song, Asme, PREDICTION OF AXIAL THRUST LOAD ACTING ON A CRYOGENIC LIQUID TURBINE IMPELLER, 2012.
[70] P. Song, J. Sun, K. Wang, Z. He, Asme, DEVELOPMENT OF AN OPTIMIZATION DESIGN METHOD FOR TURBOMACHINERY BY INCORPORATING THE COOPERATIVE COEVOLUTION GENETIC ALGORITHM AND ADAPTIVE APPROXIMATE MODEL, 2012.
[71] Y. Ma, Z. He, X. Peng, Z. Xing, Experimental investigation of the discharge valve dynamics in a reciprocating compressor for trans-critical CO2 refrigeration cycle, Applied Thermal Engineering, 32 (2012) 13-21.
 

三、授权专利