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上海交通大学机械与动力工程学院导师教师师资介绍简介-巨永林
本站小编 Free考研考试/2021-01-01
巨永林 教授
所在系所制冷与低温工程研究所
办公电话,**
通讯地址机械与动力工程学院A楼412室
电子邮件yju@sjtu.edu.cn
个人主页www.sjtuirc.sjtu.edu.cn/cn/faculties_jyl.html
教育背景 1995—1998 中国科学院力学研究所 (流体力学、低温工程专业) 博士
1992—1995 西安交通大学能源与动力工程学院 (工程热物理专业) 硕士
1988—1992 西安交通大学动力机械工程系 (流体机械专业) 学士
工作经历 1998.07—1998.10 中国科学院低温技术实验中心,?助理研究员
1998.10—2000.10 荷兰艾因霍温(Eindhoven)大学物理系低温物理实验室,?博士后
2000.10—2002.10 中国科学院理化技术研究所,副研究员
2002.10—2005.10 美国哥伦比亚大学物理系Nevis实验室,?Associate?Scientist
2005.10—现在 上海交通大学机械与动力工程学院,教授(博导)
研究方向 1、液化天然气技术?(油田伴生气、煤层气)及其冷能综合利用技术
2、低温传热及低温精馏技术
3、低温粒子探测器研制?(暗物质、中微子)
4、小型低温制冷机技术?(脉管制冷机、G-M制冷机)
科研项目 国家及省部级科研项目:
2018 ― 2021 上海市科学技术委员会重点基础研究项目“4吨级超高纯精馏塔系统设计及研制”,课题负责人
2018 ― 2020 中国工程院 “工程院院刊能源分刊发展战略研究”,课题负责人
2016?―?2020????国家重点科学研发计划 “基于惰性气体探测器的直接暗物质探测实验” ,子课题负责人
2015?―?2017????中国工程院 “工程院院刊能源分刊发展战略研究”,课题负责人
2013?―?2016????航天先进技术联合研究中心 “低温气瓶的气液两相热质传输特性研究”,负责人
2013?―?2017????工业与信息化部 “新型液化天然气船液货围护系统预先研究”,课题负责人?
2010?―?2014????科技部973计划 “暗物质暗能量的理论研究和实验预研”课题:暗物质吨级液氙探测器的预研,子课题负责人
2011 ― 2013????国家自然科学基金 “磁流体脉动热管启动与传热特性及其机理的研究”,负责人
2007?―?2010????工业与信息化部 “LNG船液舱围护结构系统研究”,负责人
2006?―?2009????科技部863计划 “浮式海上油田伴生气液化储卸装置FPSO研究开发”,负责人
2006?―?2009????科技部863计划 “煤层气液化流程及装置的研究与开发”,参加
2006?―?2008????上海市科委浦江人才计划“低温电子学用微型脉管制冷机关键技术研究及样机研制”,负责人
2004?―?2005????美国国家科学基金会“基于气体电子倍增放大效应的低温探测器”,参加
2001?―?2004????美国国家科学基金会 “新型电子泡粒子探测器研制”,参加
2002?―?2004????国家自然科学基金 “超导磁体冷却用4K脉冲管制冷机系统研究”,负责人
2001?―?2003????北京物质科学基地主任基金 “高温超导SQUID用非金属无磁脉冲管制冷机研制”,负责人
代表性论文专著 2020
1.Yin, L. Ju, Y.L.* Comparison and analysis of two processes for BOG Re-liquefaction in LNG carrier with normal-temperature compressor, International Journal of Refrigeration, 2020, 115:9-17
2.Yin, L. Ju, Y.L.* Conceptual design and analysis of a novel process for BOG reliquefaction combined with absorption refrigeration cycle, Energy, 2020, 205: 118008
3.Yin, L. Ju, Y.L.* Design and analysis of a process for directly re-liquefying BOG using subcooled LNG for LNG carrier, Energy, 2020, 175: 117445
4.Yin, L. Ju, Y.L.* Process optimization and analysis of a novel hydrogen liquefaction cycle, International Journal of Refrigeration, 2020, 111: 103-112.
5.Wu, C.X. Ju, Y.L.* Lin, J.C. Fu, Y.Z. Numerical simulation and experiment verification of the static boil-off rate and temperature field for a new independent type B liquefied natural gas ship mock up tank, Applied Thermal Engineering, 2020, 173:115265.
6.Cheng, H. Ju, Y.L.* Fu, Y. Z. Experimental study on heat transfer characteristics of cooling falling film outside a vertical tube in open rack vaporizer, Applied Thermal Engineering, 2020, 172:115187.
7.Cheng, H. Yin, L. Ju, Y.L.* Fu, Y.Z. Experimental investigation on heat transfer characteristics of supercritical nitrogen in a heated vertical tube, International Journal of Thermal Sciences, 2020, 152: 106327.
8.Cheng, H. Ju, Y.L.* Fu, Y.Z. Experimental and simulation investigation on heat transfer characteristics of supercritical nitrogen in a new rib tube of open rack vaporizer, International Journal of Refrigeration, 2020, 110: 219-230.
9.Wang, Q.H. et al. (PandaX-II Collaboration), An improved evaluation of the neutron background in the PandaX-II experiment, Science China Physics, Mechanics & Astronomy, 2020, 63(3): 231011.
2019
10.Wu, J. T. Ju, Y.L.* Design and optimization of natural gas liquefaction process using brazed plate heat exchangers based on the modified single mixed refrigerant process, Energy, 2019, 186:115819
11.Yin, L. Ju, Y.L.* Comparison and analysis of two nitrogen expansion cycles for BOG Re-liquefaction systems for small LNG ships, Energy, 2019, 172: 769-776.
12.Cheng, H. Ju, Y.L.* Fu, Y. Z. Thermal performance calculation with heat transfer correlations and numerical simulation analysis for typical LNG open rack vaporizer, Applied Thermal Engineering, 2019, 149(7): 1069-1079.
13.He, T. B. Chong, Z. R. Zheng, J. J. Ju, Y.L.* Parvez, A. M. LNG cold energy utilization: Prospects and challenges, Energy, 2019, 170: 557-568.
14.He, T. B. Liu, Z. M. Ju, Y.L.* Parvez, A. M. A comprehensive optimization and comparison of modified single mixed refrigerant and parallel nitrogen expansion liquefaction process for small-scale mobile LNG plant, Energy, 2019, 167: 1-12.
15.Xia, J. K. et al. (PandaX-II Collaboration), PandaX-II constraints on spin-dependent WIMP-nucleon effective interactions, Physics Letters B, 2019, 792: 193~198
16.Zhang, H. Z. et al. (PandaX-II Collaboration), Dark matter direct search sensitivity of the PandaX-4T experiment, Science China Physics, Mechanics & Astronomy, 2019, 62(3) 031011
17.Ni, K. X. et al. (PandaX-II Collaboration), Searching for neutrino-less double decay of 136Xe with PandaX-Ⅱ liquid xenon detector, Chinese Physics C, 2019, 43(11):113001
2018
18.He, T. B. Karimia, I. A. Ju, Y.L.* Review on the design and optimization of natural gas liquefaction processes for onshore and offshore applications, Chemical Engineering Research and Design, 2018, 132: 89-114
19.Wu, J. T. He, T. B. Ju, Y.L.* Experimental study on CO2 frosting and clogging in a brazed plate heat exchanger for natural gas liquefaction process, Cryogenics, 2018, 91:128-135
20.Ren, X. X. et al. (PandaX-II Collaboration), Constraining Dark Matter Models with a Light Mediator at the PandaX-II Experiment, Phys. Rev. Lett., 2018,121, 021304
2017
21.Xue, F. R. Chen, Y. Ju, Y.L.* Design and optimization of a novel cryogenic Rankine power generation system employing binary and ternary mixtures as working fluids based on the cold exergy utilization of liquefied natural gas (LNG), Energy, 2017, 138: 706-721.
22.Sha, L.L Ju, Y.L.* Zhang, H. and Wang, J.X. Experimental investigation on the convective heat transfer of Fe3O4/water nanofluids under constant magnetic field, Applied Thermal Engineering, 2017, 113(11): 566-574
23.Sha, L.L Ju, Y.L.* Zhang, H. Wang, J.X. The influence of the magnetic field on the convective heat transfer characteristics of Fe3O4/water nanofluids, Applied Thermal Engineering, 2017, 126(7): 108-116
24.Niu, W.C. Li, G. L. Ju, Y.L.* Fu, Y. Z. Design and analysis of the thermal insulation system for a new independent type B LNG carrier, Ocean Engineering, 2017, 142:51-61
25.Chen, M. Ju, Y. L.* Experimental study of quasi-periodic on-off phenomena in a small-scale traveling wave thermoacoustic heat engine, Cryogenics, 2017, 85:23-29.
26.Li, M.F. Ju, Y.L.* The analysis of the operating performance of a chiller system based on hierarchal cluster method, Energy and Buildings, 2017, 138: 695-703
27.Li, M.F. Ju, Y.L.* Experimental measurements and evaluation of the expanded water repellent perlite used for the cargo containment system of LNG carrier, Cryogenics, 2017, 87:49-57
28.Li, M.F. Ju, Y.L.* Experimental investigation on the thermal performance of wraparound loop heat pipe heat exchanger for heat recovery in air handling units, Heat Transfer Research, 2017, 48(14):1313–1326
29.Chen, X. et al. (PandaX-II Collaboration), Exploring the dark matter inelastic frontier with 79.6 days of PandaX-II data, Phys. Rev. D, 2017, 96, 102007
30.Cui, X. Y. et al. (PandaX-II Collaboration), Dark Matter Results from 54-Ton-Day Exposure of PandaX-II Experiment, Phys. Rev. Lett. 2017, 119, 181302
31.Fu, C. B. et al. (PandaX-II Collaboration), Limits on Axion Couplings from the First 80 Days of Data of the PandaX-II Experiment, Phys. Rev. Lett. 2017, 119, 181806
32.Fu, C. B. et al. (PandaX-II Collaboration), Spin-Dependent Weakly-Interacting-Massive-Particle–Nucleon Cross Section Limits from First Data of PandaX-II Experiment, Phys. Rev. Lett. 2017, 118, 071301
2016
33.He, T.B. Ju, Y.L.* Dynamic simulation of mixed refrigerant process for small-scale LNG plant in skid mount packages, Energy, 2016, 97: 350-358.
34.Chen, M. Ju, Y. L.* Simulation and experimental improvement on a small-scale Stirling thermo-acoustic engine, Frontiers in Energy, 2016, 10(1): 37-45
35.Xue, F.R. Chen, Y. Ju, Y.L.* A review of cryogenic power generation cycles with liquefied natural gas cold energy utilization, Frontiers in Energy, 2016,10 (3): 363-374
36.Tan A. D. et al. (PandaX-II Collaboration). Dark matter search results from the commissioning run of PandaX-II, Phys. Rev. D. 2016, 93, 122009
37.Tan A. D. et al. (PandaX-II Collaboration). Dark matter results from first 98.7 days of data from the PandaX-II experiment, Phys. Rev. Lett. 2016, 117, 121303
2015
38.He, T.B. Ju, Y.L.* Optimal synthesis of expansion liquefaction cycle for distributed-scale LNG plant, Energy, 2015, 88: 268-280.
39.Chen, M. Ju, Y. L.* Effect of different working gases on the performance of a small thermoacoustic Stirling engine, International Journal of Refrigeration, 2015, 51: 41-51.
40.Xiao, X. et al. (PandaX-II Collaboration). Low-mass dark matter search results from full exposure of the PandaX-I experiment, Physical Review D, 2015, 92(5), 052004.
2014
41.He, T.B. Ju, Y.L.* Design and optimization of a novel mixed refrigerant cycle integrated with NGL recovery process for small-scale LNG plant, Industrial & Engineering Chemistry Research, 2014, 53 (13), 5545–5553
42.He, T.B. Ju, Y.L.* A novel conceptual design of parallel nitrogen expansion liquefaction process for small-scale LNG (liquefied natural gas) plant in skid-mount packages. Energy. 2014, 75: 349-359.
43.He, T.B. Ju, Y.L.* A novel process for small-scale pipeline natural gas liquefaction, Applied Energy, 2014 (115): 17–24
44.He, T.B. Ju, Y.L.* Performance improvement of nitrogen expansion liquefaction process for small-scale LNG plant, Cryogenics, 2014, 61(5):111-119.
45.Wang, Z. Bao, L. Hao, X. H. Ju, Y.L.* Design and construction of a cryogenic distillation device for removal of krypton for liquid xenon dark matter detectors, Review of Scientific Instruments, 2014, 85, 015116
46.Wang, Z. Bao, L. Hao, X. H. Ju, Y.L.* Large scale xenon purification using cryogenic distillation for dark matter detectors, Journal of Instrumentation, 2014, 9, 11024
47.Cao, X. G. et al. (PandaX-II Collaboration). PandaX: a liquid xenon dark matter experiment at CJPL, Science China: Physics, Mechanics & Astronomy, 2014, 57(8): 1476-1494.
48.Xiao, M. J. et al. (PandaX-II Collaboration). First dark matter search results from the PandaX-I experiment, Science China Physics, Mechanics & Astronomy, 2014, 57(11): 2024-2030
2013
49.Chen, M. and Ju, Y.L.* Design and experimental investigations on a small scale traveling wave thermoacoustic engine, Cryogenics, 2013, 54(2):10-15.
50.He, T.B. Ju, Y.L.* Design and optimization of natural gas liquefaction process by utilizing gas pipeline pressure energy, Applied Thermal Engineering, 2013, 57(1):1-6.
51.He, T.B. Li, Q. Y. Ju, Y.L.* Adsorption and desorption experimental study of carbon dioxide/methane mixture gas on 13X-type molecular sieves, Journal of Chemical Engineering of Japan, 2013, 46(12): 1-10
52.Tang, X. Sha, L.L. Zhang, H. and Ju, Y.L.* A review of recent experimental investigations and theoretical analyses for pulsating heat pipes, Frontiers in Energy, 2013, 7(2): 161-173.
2012
53.Li, M.F. Zhang, H. and Ju, Y.L.* Design and construction of a guarded hot plate apparatus operating down to liquid nitrogen temperature, Review of Scientific Instruments, 2012, 83: 075106.
54.Li, H.L. Ju, Y.L.* Li, L. J. and Xu, D.G. Computational fluid dynamics simulation of 13-CO distillation in structured packing, Chemical Engineering Technology, 2012, 35(2): 334–340.
55.Gao, T. Shen, T.T. Lin, W. S. and Ju, Y.L.* Experimental determination of CO2 solubility in liquid CH4/N2, mixtures at cryogenic temperatures, Industrial & Engineering Chemistry Research, 2012, 51(13), 9403?9408.
56.Gu, Y. Ju, Y.L.* Chen, J. Shi, Z.J. Experimental investigation on pressure fluctuation of cryogenic liquid transport in pitching motion, Cryogenics, 2012, 52(4):530-537.
57.Gu, Y. Ju, Y.L.* Investigation on the periodically oscillating pressure characteristics of the flow in the rolling pipe, Ocean Engineering, 2012, 55: 1–9.
58.Gu, Y. Ju, Y.L.* Numerical simulation and analysis of periodically oscillating pressure characteristics of in-viscid flow in a rolling pipe, Frontiers in Energy, 2012, 6(1): 21–28.
59.Shen, Q.Q. Lin, W. S. Gu, A.Z. Ju, Y. L. A simplified model of direct-contact heat transfer in desalination system utilizing LNG cold energy. Frontiers in Energy, 2012, 6(2):122-128.
2011
60.Hao, X.H. Ju, Y.L.* Lu, Y. J. Experimental study on the sealing clearance between the labyrinth sealing displacer and cylinder in the 10K G-M refrigerator, Cryogenics, 2011, 51(5):203-208.
61.Hao, X.H. Ju, Y.L.* Lu, Y. J. Experimental study on the performance of the labyrinth sealing displacer for 10K G-M refrigerator, Cryogenics, 2011, 51(4):187-191.
62.Hao, X.H. Ju, Y.L.* Upendra, B. Kasthurirengan, S. Influence of working gas on the performance of a standing wave thermoacoustic prime mover, Cryogenics, 2011, 51 (9): 559-561.
63.Hao, X.H. Ju, Y.L.* Simulation and analysis on the flow field of the low temperature mini-type cold store, Heat and Mass Transfer, 2011, 47(7): 771–775.
64.Li, Q.Y. Wang, L. Ju, Y.L.* Analysis of flammability limits for the liquefaction process of oxygen-bearing coal-bed methane, Applied Energy, 2011, 88(11): 2934-2939.
2010
65.Hao, X.H. Ju, Y. L. Experimental study on the low temperature regenerator packed with rectification meshes, Cryogenics, 50(6):390-396, 2010
66.Gu, Y. Ju, Y. L. Effect of parameters on performance of LNG-FPSO offloading system in offshore associated gas fields, Applied Energy, 87(11): 3393-3400, 2010
67.Li, Q. Y. Ju, Y. L. Design and analysis of liquefaction process for offshore associated gases, Applied Thermal Engineering, 30(11):2518-2525, 2010
68.Gu, Y. Li, Q.Y. and Ju, Y.L.* Floating production, storage and offloading of liquefied natural gas for recovery, storage and end-use applications of marginal gas fields and offshore associated gas resources, Hydrocarbon World, 5 (1): 46-51, 2010
69.Li, Q. Y. Wang, L. Ju, Y. L. Liquefaction and impurity separation of oxygen-bearing coal-bed methane, Frontiers of Energy and Power Engineering in China, 4(3): 319–325, 2010
70.Li, H. L. Ju, Y. L. Li, L. J. Separation of isotope 13C using high performance structured packing, Chemical Engineering and Processing, 49:255–261, 2010
71.Li, H. L. Ju, Y. L. Li, L.J. Research on the mass production of 13C, Journal of Labelled Compounds and Radiopharmaceuticals, 53:332–345, 2010
教学工作 1、课程名称:奇妙的低温世界
???授课对象:全校本科新生
???学时数:30
???学分:2
软件版权登记及专利 1.王刚,张华,巨永林,基于LNG冷能的高纯特种气体节能型生产系统,中国发明专利,专利号:CN2.5, 申请日:2017.10.16,公开号:CNU,公开日:2018.04.27
2.王刚,张华,巨永林,基于LNG冷能的高纯特种气体节能型生产方法及系统,中国发明专利,专利号:CN2.X, 申请日:2017.10.16,公开号:CNA,公开日:2018.01.12
3.陈煜,巨永林,一种船用液化天然气冷能用于冷库制冷的系统与方法,中国发明专利,专利号:9.0, 申请日:2017.06.16,公开号:CNA,公开日:2017.11.14
4.巨永林,薛菲尔,陈煜,利用LNG冷能的混合工质梯级发电与剩余冷量输出系统,中国发明专利,专利号:6.2,申请日:2017.04.12,授权号:CNB,授权日:2019.07.12
5.陈煜,巨永林,一种发电系统以及基于该系统的发电方法,中国发明专利,专利号: 5.1,授权号:CNB,授权日:2016.10.19
6.巨永林,牛伟琛,傅允准,内绝热低温流场内导流板安装的固定机构,中国发明专利,专利号:9.6,申请日:2017.04.12,公开号:CNA,公开日:2017.07.18 (撤销)
7.耑锐,王承,巨永林,陈煜,赵栋梁,蒋赞,张亮,火箭氧箱冷氦增压系统中增压气瓶环状布置方式,中国发明专利,专利号: 0.6,申请日:2017.08.14,公开号:CNA,公开日:2018.01.16
8.王承,耑锐,巨永林,陈煜,程光平,何鹏,张亮,火箭氧箱冷氦增压系统中增压气瓶布置方式,中国发明专利,专利号:8.4,申请日:2016.12.19,授权号:CNB,授权日:2019.08.05
9.巨永林,傅允准,吴纪潭,贺天彪,程真锋,陈金伟,张文吉,李磊,一种采用混合制冷剂循环的钎焊板式换热器天然气液化系统,中国发明专利,专利号:2.0,申请日:2018.05.30,公开号:CNA,公开日:2018.11.09
10.巨永林,傅允准,吴纪潭,贺天彪,程真锋,陈金伟,张文吉,李磊,一种集成二氧化碳分离模块的天然气液化冷箱,中国发明专利,专利号:2.2,申请日:2018.05.30,公开号:CNA,公开日:2018.10.12
11.巨永林,贺天彪,撬装天然气液化净化一体式冷箱,中国发明专利,专利号:4.7,公开号:CNA,公开日:2016.08.24
12.巨永林,贺天彪,基于板式换热器的模块化混合制冷剂天然气液化系统及其方法,中国发明专利,专利号:8.2,公开号:CNA,公开日:2016.07.06
13.巨永林,傅允准,李国隆,液化天然气船独立液货舱绝热层系统及其构建方法, 中国发明专利,专利号:3.6,公开号:CNA,公开日:2015.07.29
14.巨永林,傅允准,李国隆,带有防溅屏结构的独立B型LNG船液货舱绝热系统, 中国发明专利,专利号:CN2.4,授权号:CNB,授权日:2018.05.01
15.巨永林,傅允准,李国隆,B型独立LNG液货舱绝热层安装固定机构及固定方法,中国
发明专利,专利号:4.3,公开号:CNB,授权日:2017.10.31
16.巨永林,傅允准,李国隆,液化天然气船B型独立液货舱绝热系统及其构造方法,中国发明专利,专利号:7.1,授权号:CNB,授权日:2017.05.10
17.巨永林,陈卓,傅允准,张留瑜,一种精密机房空调压缩机氟泵制冷循环系统, 中国发明专利,专利号:4,申请日:2014.12.30,公开号:CNA,公开日:2015.04.29
18.张留瑜,巨永林,傅允准,一种空调系统凝结水回收利用系统,中国发明专利,专利号:7,申请日:2014.12.30,公开号:CNA,公开日:2015.04.29
19.张留瑜,巨永林,傅允准,一种质子膜燃料电池驱动的冷热电及热水联供系统,中国发明专利,专利号:0,申请日:2014.12.30,公开号:CNA,公开日:2015.04.29
20.张华,巨永林,一种液态有机燃料多用途节能燃烧系统,中国发明专利,专利号: 9.4,授权号:CNB,授权日:2016.08.24
21.周天赤,巨永林,傅允准、刘家琛,一种浸没燃烧式气化器设计方法,专利号: 8.9,授权号:CNB,授权日:2017.04.26
22.周天赤,巨永林,傅允准、刘家琛,一种开架式气化器设计方法,专利号: 2.3,授权号:CNB,授权日:2016.08.17
23.周天赤,巨永林,傅允准、刘家琛,一种带有中间换热介质的气化器设计方法,专利号:5.6,授权号:CNB,授权日:2016.05.25
24.西安倍更能源技术有限公司,巨永林,傅允准,刘家琛,三种液化天然气气化器计算仿真软件,软件登记号:2014SR211994,授权日:2014.09.01.
25.西安倍更能源技术有限公司,巨永林,傅允准,刘家琛,LNG气化器设计及仿真软件,软件登记号:2014SR047704,授权日:2014.04.23
26.巨永林,傅允准,刘家琛,LNG船液货舱绝热设计计算软件,软件登记号:2014SR145685,授权日:2014.09.28
27.杨冲伟,吴浩洪,巨永林,张华,移动式天然气再液化回收工艺的专用系统,中国发明专利,专利号:CN3.4,申请日:2016.09.23,公开号:CNA,公开日:2017.02.22
28.李海冰,巨永林,朱弘,胡剑英,郭亚军,陈海刚,陈帅,张华,陆佳,工业气体回收设备及储存系统,专利号:CN4.5,授权号:CNA,授权日:2017.09.01
29.巨永林,郝熙欢,祝铁军,李海冰,小型撬装式液化天然气蒸发气再液化回收装置,专利号:2.2,公开号:CNB,授权日:2016.02.10
30.巨永林,郝熙欢,祝铁军,小型撬装式液化天然气蒸发气再液化回收装置的安装结构,专利号:5.6,公开号:CNB,授权日:2016.01.13
31.巨永林,郝熙欢,祝铁军,小型撬装式液化天然气蒸发气再液化回收无泵循环方法,专利号:8.7,公开号:CNB,授权日:2016.02.10
32.巨永林,贺天彪,小型撬装式混合制冷剂天然气液化和NGL回收一体系统,专利号:0.5,公开号: CNB,授权日:2015.10.14
33.巨永林,贺天彪,利用膨胀机直接液化管道天然气的装置及方法,中国发明专利, 专利号:0.3,公开号:CNA,授权日:2016.03.02
34.巨永林,贺天彪,利用管道压力能制备液化天然气的装置及使用方法,中国发明专利, 专利号: 3.0,公开号:CNA,授权日:2015.10.14
35.巨永林,贺天彪,小型撬装式单阶混合制冷剂天然气液化系统及其方法,中国发明专利, 专利号: 0.7, 公开号:CNA,授权日:2015.07.08
36.巨永林,贺天彪,小型撬装式氮膨胀天然气液化系统及其方法,中国发明专利, 专利号: 1.5, 公开号CNA,授权日:2014.6.18
学术兼职 中国制冷学会?理事、第一专业委员会(低温工程)委员(2006—)
上海市制冷学会?常务理事、第一专业委员会(低温工程)主任(2007—)
上海市能源研究会 监事长 (2020——)
上海交通大学-浦江氢能研究中心 主任(2017—)
上海交通大学-新奥集团LNG工程中心?主任(2011—)
教育部科技奖励评审专家?(2011-)
科技部国际科技合作计划?评价专家(2007—)
国家自然科学基金?评审专家(2002—)
Frontiers?in?Energy?学术期刊编委(2006—)、副主编(2011-)
《American Journal of Energy Engineering》,《低温与超导》,《真空与低温》编委。
荣誉奖励 1998年,中国科学院发明奖?二等奖
1999年,国家技术发明奖?三等奖
2003年,Carl?von?Linde?Award,?21st.?International?Congress?of?Refrigeration,?Washington?DC.?USA,?(美国华盛顿?第21届国际制冷大会?林德奖)
2006年,上海市科委浦江人才计划
2007年,教育部新世纪优秀人才计划
2008年,上海交通大学SMC优秀青年教师奖
2012年,浙江省钱江****
2019年,中国船舶工业集团科学技术进步奖一等奖
2019年,中国造船工程学会科学技术奖二等奖
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