研究领域

  研究方向

1)   新型动力循环研究
2)新型制冷技术研究
3燃料电池压缩机技术
4压缩机节能及物联网技术
5)螺杆真空泵技术

 获奖

1)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, 中国制冷学会科技进步奖,特等奖, 2021 
2)工业余热提质回热循环利用关键技术研究与应用,山东省,山东省科技进步一等奖,2020
3)高效过冷水制冰机组,中国制冷学会, 中国制冷学会科技进步奖,一等奖, 2019
4)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
5)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, 中国制冷学会科技进步奖,特等奖, 2017 

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,指导教师:何志龙,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,指导教师:何志龙,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,指导教师:何志龙,2017

科研项目

没有找到条目。
项目编号 项目名称 项目来源 起讫时间 承担角色 项目类别
20230724 新能源汽车电动涡旋压缩机正向设计开发 企业 2023-01~2023-12 负责人 横向项目
20220393 干式无油真空泵技术开发 东亚机械 2022-12~2024-12 负责人 横向项目
202209154 高温蒸气热泵离心压缩机与卡诺电池开发 冰轮环境 2022-09~2023-12 负责人 横向项目
20220332 高压压缩机研究与开发 冰轮环境技术股份有限公司 2022-01~2023-12 负责人 横向项目
202209157 燃料电池发电系统开发 冰轮环境 2022-01~2023-12 负责人 横向项目
20220392 离心式蒸汽热泵压缩机技术开发 冰轮环境 2022-01~2023-12 负责人 横向项目
2021开放基金101 螺杆制冷压缩机小型化潜力及其关键技术研究 空调设备及系统运行节能国家重点实验室 2022-01~2022-12 负责人 纵向项目
2019YFB1504600 车用燃料电池空压机研发 国家重点研发项目 2019-12~2023-12 负责人 纵向项目
20191081 干式真空泵机组开发 四川九天真空科技有限公司 2019-10~2022-10 负责人 横向项目
JZ-201910002 低温动力循环系统分析模型及程序开发 军工纵向 2019-07~2022-12 负责人 纵向项目
20条目 每页

显示10结果中的1-10。

学术论文

论文

[1] 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.
[2] D. Li, Z. He, K. Ma, C. Sun, Z. 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).
[3] 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).
[4] 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.
[5] 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).
[6] 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.
[7] 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).
[8] D. Li, Z. He, S. Sun, Z. Xing, Dynamic characteristics modelling and analysis for dry screw vacuum pumps, Vacuum, 198 (2022).
[9] W. Hu, Z. He, D. Li, K. Ma, Z. Xing, Geometry of intersecting-axis conical twin-screw rotors, Mechanism and Machine Theory, 174 (2022).
[10] 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).
[11] 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).
[12] 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.
[13] 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).
[14] 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).
[15] 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).
[16] 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.
[17] 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.
[18] 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).
[19] 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).
[20] 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).
[21] 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.
[22] Z. He, X. Qu, L. Ji, W. Wu, X. Wang, Analysis and Optimization of Truck Windshield Defroster, Applied Sciences-Basel, 10 (2020).
[23] 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).
[24] Z. He, L. Ji, Z. Xing, Experimental Investigation on the DLC Film Coating Technology in Scroll Compressors of Automobile Air Conditioning, Energies, 13 (2020).
[25] Z. He, Y. Han, W. Chen, M. Zhou, Z. Xing, Noise control of a two-stage screw refrigeration compressor, Applied Acoustics, 167 (2020).
[26] 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.
[27] 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.
[28] 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.
[29] 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.
[30] 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.
[31] 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).
[32] 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).
[33] 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.
[34] 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.).
[35] 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.
[36] 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.
[37] 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.
[38] 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.
[39] 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).
[40] 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.
[41] 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.
[42] 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.
[43] 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.
[44] 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 Systems2017.
[45] 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.
[46] 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.
[47] 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.
[48] 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).
[49] 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.
[50] 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.
[51] 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.
 

 

 

授权专利

 

专利名称

类别

专利号

相交轴传动的外啮合锥形双螺杆压缩机转子及压缩机

发明专利

ZL202110785734.5

一种单头扭叶罗茨泵转子及罗茨泵

发明专利

ZL202110786684.2

一种变螺距内啮合螺杆转子设计方法及双螺杆压缩机转子

发明专利

ZL202110206125.X

多齿空间摆线式内啮合锥形双螺杆压缩机转子及压缩机

发明专利

ZL202110786679.1

一种变螺距的空间内啮合锥形双螺杆压缩机转子及压缩机

发明专利

ZL202110786685.7

相交轴传动的空间内啮合锥形双螺杆压缩机转子及压缩机

发明专利

ZL202110785786.2

一种扭叶罗茨转子及其设计方法与压缩机、膨胀机

发明专利

ZL202011192721.9

一种基于涡流管的跨临界二氧化碳发电系统

发明专利

ZL202010575032.X

一种研究两相膨胀过程的等效膨胀测试系统和方法

发明专利

ZL202011433103.9

一种低温水蒸馏系统及方法

发明专利

ZL201911203851.5

一种水蒸馏系统及方法

发明专利

ZL201911046311.0

基于有机朗肯循环和有机闪蒸循环的余热回收系统及方法

发明专利

ZL201911183874.4

一种非对称椭圆型扭叶罗茨转子及压缩机、膨胀机

发明专利

ZL201911061041.0

一种爪式泵转子及爪式泵

发明专利

ZL201911061818.3

一种螺杆真空泵转子及螺杆真空泵

发明专利

ZL201911061811.1

一种双螺杆转子及膨胀机、压缩机

发明专利

ZL201911061022.8

一种双螺杆转子及压缩机、膨胀机

发明专利

ZL201911061033.6

一种罗茨泵转子及罗茨泵

发明专利

ZL201911061820.0

一种椭圆形滚动活塞及滚动活塞压缩机

发明专利

ZL201811512096.4

熔融电石一次冷却粒化成型系统及余热回收方法

发明专利

ZL201811331256.5

一种双头爪式泵转子及其型线

发明专利

ZL201810707679.6

一种双电机驱动的双滚动活塞压缩机结构及其控制方法

发明专利

ZL201910328993.8

一种双对置活塞压缩机结构

发明专利

ZL201811377451.1

一种严格密封型双齿双螺杆真空泵

发明专利

ZL201711064608.0

一种双螺杆真空泵转子型线

发明专利

ZL201711066235.0

一种用于压缩机的板阀

发明专利

ZL201610332840.7

一种齿环结构气体压缩或膨胀装置

发明专利

ZL201710116607.X

一种空气压缩机流量测量装置及其标定系统和标定方法

发明专利

ZL201410270209.X