郭江峰

个人简介：

郭江峰，现任北京化工大学教授，曾任英国帝国理工学院研究员、中国科学院大学岗位教授、中科院工程热物理所项目研究员等。2006年于华北电力大学获双学士学位，2011年于山东大学获博士学位。主要从事传热强化理论与节能技术、超临界流体传热与流动特性、高效换热器研发等的研究工作，主持国家重点研发计划课题、欧盟地平线2020科技项目、国家自然科学基金等十余项课题。发表学术论文100余篇，参与编写两部英文著作，申请/授权国家发明专利10多项，担任多个国际学术期刊的副主编、编委等。连续多年入选 “世界前2%顶级科学家”(World’s Top2% Scientists)年度和终身科学影响力双榜单，曾获中国科学院卢嘉锡青年人才奖、全国百篇优秀博士学位论文提名、欧盟玛丽居里学者、中国100篇最具影响优秀学术论文等。

主持科研项目：

(1)     欧盟地平线2020科技创新专项行动(European Union’s Horizon 2020 research and innovation programme)，超临界CO₂换热器耦合传热与热力学优化(Coupled heat transfer and thermodynamic optimization of supercritical CO₂ heat exchangers)，2021年6月至2023年5月，180万元，项目负责人

(2)     中科院稳定支持基础研究领域青年团队计划，超临界CO₂热惯性理论与热-流-材-控协同技术，所属项目：超临界CO₂工质低碳能源动力系统新体系，2022年8月至2027年7月，180万元，子任务负责人

(3)     国家重点研发计划课题，低品位热能高效回收与利用技术及装置研发，所属专项：煤炭清洁高效利用和新型节能技术，2016年8月至2021年9月，330万元，课题负责人

(4)     国家自然科学基金面上项目，超临界CO₂回热器耦合换热特性及优化设计方法研究，2017年1月至2020年12月，60万元，项目负责人

(5)     国家自然科学基金青年科学基金项目，基于ADS系统的液态铅铋和氦气换热不可逆性分析及热力学优化，2013年1月至2015年12月，25万元，项目负责人

(6)     国家两机重大专项基础研究，湿空气透平冷却和湿空气回热器性能预测研究，所属项目：湿化燃气轮机循环技术基础研究，2018年8月至2023年7月，256万元，课题负责人

(7)     中国科学院GF创新基金项目，zz回热器关键技术研究，2016年8月至2020年7月，65万元，项目负责人

(8)     中国科学院青年创新促进会人才计划，2014年1月至2017年12月，50万元，项目负责人

(9)     地方政府合作项目，超临界二氧化碳透平发电用换热器研发，2017年12月至2019年12月，500万元，项目负责人

(10)  中科院工程热物理研究所创新引导基金项目，舰用燃机间冷器研发，2017年6月至2018年12月，107万元，项目负责人

(11)  地方政府合作项目，先进高效紧凑式换热器技术研发，来源单位：南京未来能源系统研究院，2020年1月至2021年12月，1494万元，项目负责人

(12)  国家重点研发计划课题，S-CO₂燃煤发电系统流动传热机理及关键换热技术，所属项目：超高参数高效二氧化碳燃煤发电基础理论与关键技术研究，2017年7月至 2021年6月，667万元，主要技术骨干

(13)  企业合作项目，兰石集团新型换热器研发，2017年1月至2021年12月，780万元，主要技术骨干

(14)  国家973计划课题，低温余热品味提升与能量储存，所属项目：锅炉低温烟气余热深度利用的基础研究，2010年9月至2015年9月，500万元，主要技术骨干

(15)  企业合作项目，国家能源集团20 MW超临界CO₂发电用换热系统研发，2021年3月至2022年12月，149万元，主要技术骨干

奖励和荣誉：

(1)     “全球前2%顶级科学家”年度科学影响力榜单，美国斯坦福大学，2021/2022/2023

(2)     “全球前2%顶级科学家”终身科学影响力榜单，美国斯坦福大学，2021/2022/2023

(3)     欧盟玛丽居里学者，欧盟委员会，2021

(4)     中国科学院卢嘉锡青年人才奖，中国科学院，2015

(5)     全国百篇优秀博士学位论文提名，国务院学位委员会、教育部，2014

(6)     北京青年优秀科技论文奖，北京市科协，2016

(7)     中国100篇最具影响优秀国内学术论文，中国科技信息研究所，2013

(8)     国际埃尼奖（Eni Award）提名，Eni Award组委会，2017/2016

(9)     《中国科学：技术科学》优秀审稿人，期刊编委会，2018

(10)  《工程热物理学报》突出贡献者，期刊编委会，2018/2019

(11)  中国科学院青年创新促进会人才计划，中国科学院，2014

(12)  中科院工程热物理所攀登人才计划，中科院工程热物理所，2019

(13)  F5000-中国精品科技期刊顶尖学术论文，中国科技信息研究所，2013

(14)  山东大学优秀博士学位论文，山东大学，2012

(15)  山东省研究生优秀科技创新成果奖，山东省科技厅、教育厅，2011

(16)  山东省优秀学生、山东省优秀毕业生，山东省教育厅、人社厅，2011

英文期刊论文(“*”代表通讯作者)

(1)     J. Guo*, X. Huai, Maximizing Electric Power through Spectral-Splitting Photovoltaic-Thermoelectric Hybrid System Integrated with Radiative Cooling, Advanced Science (2023) 2206575. (影响因子: 17.52; JCR分区: Q1)

(2)     Z. Han, J. Guo*, X. Huai, Theoretical analysis of a novel PCHE with enhanced rib structures for high-power supercritical CO₂ Brayton cycle system based on solar energy, Energy 270 (2023) 126928. (JCR分区: Q1)

(3)     J. Guo*, J. Song, S. Narayan, K.S. Pervunin, C.N. Markides, Numerical investigation of the thermal-hydraulic performance of horizontal supercritical CO₂ flows with half-wall heat-flux conditions, Energy 264 (2023) 125845. (JCR分区: Q1)

(4)     J. Guo*, Maximizing uninterrupted solar electricity in spectral-splitting photovoltaic-thermal systems integrated with CO₂ battery, Journal of Energy Storage 66 (2023) 107402. (影响因子: 8.907; JCR分区: Q1)

(5)     Z. Han, J. Guo*, J. Chen, X. Huai, Experimental and numerical investigations on thermal-hydraulic characteristics of supercritical CO2 flows in printed circuit heat exchangers, International Journal of Thermal Sciences 194 (2023) 108573.

(6)     Z. Han, X. Cui, J. Guo*, H. Zhang, J. Zhou, K. Cheng, H. Zhang X. Huai, Experimental and numerical studies on the thermal-hydraulic performance of a novel airfoil fins printed circuit heat exchanger, International Journal of Heat and Mass Transfer 217 (2023) 124655. (JCR分区: Q1)

(7)     X. Liu, J. Guo*, Z. Han, K. Cheng, X. Huai, Studies on thermal-hydraulic characteristics of supercritical CO₂ flows with non-uniform heat flux in a tubular solar receiver, Renewable Energy 201 (2022) 291-304. (JCR分区: Q1)

(8)     Z. Han, J. Guo*, H. Liao, Z. Zhang, X. Huai, Numerical investigation on the thermal-hydraulic performance of supercritical CO₂ in a modified airfoil fins heat exchanger, The Journal of Supercritical Fluids 187 (2022) 105643. (JCR分区: Q2)

(9)     J. Guo*, J. Song, Y. Zhao, K.S. Pervunin, C.N. Markides, Thermo-hydraulic performance of heated vertical flows of supercritical CO₂, International Journal of Heat and Mass Transfer 199 (2022) 123437. (JCR分区: Q1)

(10)  J. Guo*, J. Song, Z. Han, K.S. Pervunin, C.N. Markides, Investigation of the thermohydraulic characteristics of vertical supercritical CO₂ flows at cooling conditions, Energy 256 (2022) 124628. (JCR分区: Q1)

(11)  J. Chen, J. Guo*, X. Li, X. Huai, K. Cheng, Thermal-hydraulic performance of mist/compressed humid air two-phase flow in an airfoil channel recuperator, Applied Thermal Engineering 201 (2022) 117802. (JCR分区: Q1)

(12)  H. Zhang, J. Guo*, X. Cui, J. Zhou, X. Huai, H. Zhang, K. Cheng, Z. Han, Experimental and numerical investigations of thermal-hydraulic characteristics in a novel airfoil fin heat exchanger, International Journal of Heat and Mass Transfer 175 (2021) 121333. (JCR分区: Q1)

(13)  H. Zhang, K. Cheng, X. Huai*, J. Zhou, J. Guo, Experimental and Numerical Study of an 80-kW Zigzag Printed Circuit Heat Exchanger for Supercritical CO₂ Brayton Cycle, Journal of Thermal Science 30(4) (2021) 1289-1301.

(14)  Z. Han, J. Guo*, H. Zhang, J. Chen, X. Huai, X. Cui, Experimental and numerical studies on novel airfoil fins heat exchanger in flue gas heat recovery system, Applied Thermal Engineering 192 (2021) 116939. (JCR分区: Q1)

(15)  Z. Han, J. Guo*, X. Huai, Optimization method of a novel airfoil fin heat exchanger based on the entransy dissipation theory, SCIENTIA SINICA Technologica 51(10) (2021) 1219-1230.

(16)  K. Cheng, J. Zhou, X. Huai, J. Guo, Experimental exergy analysis of a printed circuit heat exchanger for supercritical carbon dioxide Brayton cycles, Applied Thermal Engineering 192 (2021) 116882. (JCR分区: Q1)

(17)  J. Chen, J. Guo*, X. Li, X. Huai, K. Cheng, H. Zhang, Z. Han, Thermal-hydraulic performance of compressed humid air flowing in a recuperator, Applied Thermal Engineering 188 (2021) 116620. (JCR分区: Q1)

(18)  J. Zhou, K. Cheng, H. Zhang, B. Liu, X. Huai*, J. Guo, H. Zhang, X. Cui, Test platform and experimental test on 100 kW class Printed Circuit Heat Exchanger for Supercritical CO₂ Brayton Cycle, International Journal of Heat and Mass Transfer 148 (2020) 118540. (JCR分区: Q1)

(19)  H. Zhang, J. Guo*, X. Cui, X. Huai, Performance analysis of supercritical pressure CO₂ in several enhanced tubes with non-uniform heat flux, Applied Thermal Engineering 180 (2020) 115823. (JCR分区: Q1)

(20)  H. Zhang, J. Guo*, X. Cui, X. Huai, Heat transfer performance of supercritical pressure CO₂ in a non-uniformly heated horizontal tube, International Journal of Heat and Mass Transfer 155 (2020) 119748. (JCR分区: Q1)

(21)  M. Xu, Z.L. Liu, X.L. Huai, L.T. Lou, J.F. Guo, Screening of metal-organic frameworks for water adsorption heat transformation using structure-property relationships, RSC Advances 10(57) (2020) 34621-34631. (JCR分区: Q2)

(22)  K. Cheng, J. Zhou, H. Zhang, X. Huai, J. Guo, Experimental investigation of thermal-hydraulic characteristics of a printed circuit heat exchanger used as a pre-cooler for the supercritical CO₂ Brayton cycle, Applied Thermal Engineering 171 (2020) 115116. (JCR分区: Q1)

(23)  H. Zhang, J. Guo*, X. Huai, X. Cui, K. Cheng, Buoyancy effects on coupled heat transfer of supercritical pressure CO₂ in horizontal semicircular channels, International Journal of Heat and Mass Transfer 134 (2019) 437-449. (JCR分区: Q1)

(24)  H. Zhang, J. Guo*, X. Huai, X. Cui, Thermodynamic performance analysis of supercritical pressure CO₂ in tubes, International Journal of Thermal Sciences 146 (2019) 106102. (JCR分区: Q1)

(25)  H. Zhang, J. Guo*, X. Huai, K. Cheng, X. Cui, Studies on the thermal-hydraulic performance of zigzag channel with supercritical pressure CO₂, The Journal of Supercritical Fluids 148 (2019) 104-115. (JCR分区: Q2)

(26)  J. Guo*, M. Xiang, H. Zhang, X. Huai, K. Cheng, X. Cui, Thermal-hydraulic characteristics of supercritical pressure CO₂ in vertical tubes under cooling and heating conditions, Energy 170 (2019) 1067-1081. (JCR分区: Q1)

(27)  J. Guo*, X. Cui, H. Zhang, X. Huai, K. Cheng, Performance analysis of heat exchanger for fluids with variable properties, Energy Procedia 158 (2019) 5724-5734.

(28)  J. Guo*, X. Cui, X. Huai, K. Cheng, H. Zhang, The coordination distribution analysis on the series schemes of heat exchanger system, International Journal of Heat and Mass Transfer 129 (2019) 37-46. (JCR分区: Q1)

(29)  X. Cui, H. Zhang, J. Guo*, X. Huai, M. Xu, Analysis of two-stage waste heat recovery based on natural gas-fired boiler, International Journal of Energy Research 43 (2019) 8898– 8912. (JCR分区: Q1)

(30)  X. Cui, M. Xiang, J. Guo*, X. Huai, H. Zhang, K. Cheng, Analysis of coupled heat transfer of supercritical CO₂ from the viewpoint of distribution coordination, The Journal of Supercritical Fluids 152 (2019) 104560. (JCR分区: Q2)

(31)  X. Cui, J. Guo*, X. Huai, H. Zhang, K. Cheng, J. Zhou, Numerical investigations on serpentine channel for supercritical CO₂ recuperator, Energy 172 (2019) 517-530. (JCR分区: Q1)

(32)  J. Guo*, X. Huai, K. Cheng, X. Cui, H. Zhang, The effects of nonuniform inlet fluid conditions on crossflow heat exchanger, International Journal of Heat and Mass Transfer 120 (2018) 807-817. (JCR分区: Q1)

(33)  J. Guo*, X. Huai, K. Cheng, The comparative analysis on thermal storage systems for solar power with direct steam generation, Renewable Energy 115 (2018) 217-225. (JCR分区: Q1)

(34)  X. Cui, J. Guo*, X. Huai, K. Cheng, H. Zhang, M. Xiang, Numerical study on novel airfoil fins for printed circuit heat exchanger using supercritical CO₂, International Journal of Heat and Mass Transfer 121 (2018) 354-366. (JCR分区: Q1)

(35)  M. Xu, J. Cai, J. Guo, X. Huai, Z. Liu, H. Zhang, Technical and economic feasibility of the Isopropanol-Acetone-Hydrogen chemical heat pump based on a lab-scale prototype, Energy 139 (2017) 1030-1039. (JCR分区: Q1)

(36)  M. Xiang, J. Guo*, X. Huai, X. Cui, Thermal analysis of supercritical pressure CO₂ in horizontal tubes under cooling condition, The Journal of Supercritical Fluids 130 (2017) 389-398. (JCR分区: Q2)

(37)  J. Guo*, X. Huai, Coordination analysis of cross-flow heat exchanger under high variations in thermodynamic properties, International Journal of Heat and Mass Transfer 113 (2017) 935-942. (JCR分区: Q1)

(38)  J. Guo*, X. Huai, Performance Analysis of Printed Circuit Heat Exchanger for Supercritical Carbon Dioxide, ASME Journal of Heat Transfer 139(6) (2017) 061801.

(39)  J. Guo*, X. Huai, Z. Liu, Performance investigation of parabolic trough solar receiver, Applied Thermal Engineering 95 (2016) 357-364. (JCR分区: Q1)

(40)  J. Guo*, X. Huai, The heat transfer mechanism study of three-tank latent heat storage system based on entransy theory, International Journal of Heat and Mass Transfer 97 (2016) 191-200. (JCR分区: Q1)

(41)  J. Guo*, X. Huai, Numerical investigation of helically coiled tube from the viewpoint of field synergy principle, Applied Thermal Engineering 98 (2016) 137-143. (JCR分区: Q1)

(42)  J. Guo*, X. Huai, Multi-parameter optimization design of parabolic trough solar receiver, Applied Thermal Engineering 98 (2016) 73-79. (JCR分区: Q1)

(43)  J. Guo*, Design analysis of supercritical carbon dioxide recuperator, Applied Energy 164 (2016) 21-27. (影响因子: 11.45; JCR分区: Q1)

(44)  J. Guo, X. Huai, M. Xu, Thermodynamic analysis of an isopropanol–acetone–hydrogen chemical heat pump, International Journal of Energy Research 39(1) (2015) 140-146. (JCR分区: Q1)

(45)  J. Guo, X. Huai*, M. Xu, Study on Isopropanol–Acetone–Hydrogen chemical heat pump of storage type, Solar Energy 110(0) (2014) 684-690. (JCR分区: Q2)

(46)  M. Xu, F. Xin, X. Li, X. Huai*, J. Guo, H. Liu, Equilibrium Model and Performances of an Isopropanol–Acetone–Hydrogen Chemical Heat Pump with a Reactive Distillation Column, Industrial & Engineering Chemistry Research 52(11) (2013) 4040-4048. (JCR分区: Q2)

(47)  X. Li, J. Cai, F. Xin, X. Huai, J. Guo, Lattice Boltzmann simulation of endothermal catalytic reaction in catalyst porous media, Applied Thermal Engineering 50(1) (2013) 1194-1200. (JCR分区: Q1)

(48)  J. Guo, X. Huai*, X. Li, J. Cai, Y. Wang, Multi-objective optimization of heat exchanger based on entransy dissipation theory in an irreversible Brayton cycle system, Energy 63 (2013) 95-102. (JCR分区: Q1)

(49)  J. Guo, X. Huai*, Thermodynamic analysis of lead–bismuth eutectic turbulent flow in a straight tube, Energy 57 (2013) 600-606. (JCR分区: Q1)

(50)  J. Guo, X. Huai*, Optimization design of heat exchanger in an irreversible regenerative Brayton cycle system, Applied Thermal Engineering 58 (1–2) (2013) 77-84. (JCR分区: Q1)

(51)  J. Guo*, J. Cai, H.G. Wang, Performance analysis of an irreversible regenerative intercooled Brayton cycle, International Journal of Exergy 11(3) (2012) 271-285.

(52)  J. Guo, M. Xu, Y. Tao, X. Huai, The effect of temperature-dependent viscosity on entropy generation in curved square microchannel, Chemical Engineering and Processing: Process Intensification 52(0) (2012) 85-91. (JCR分区: Q2)

(53)  J. Guo, M. Xu, The application of entransy dissipation theory in optimization design of heat exchanger, Applied Thermal Engineering 36 (2012) 227-235. (JCR分区: Q1)

(54)  J. Guo, X. Huai, X. Li, M. Xu, Performance analysis of Isopropanol–Acetone–Hydrogen chemical heat pump, Applied Energy 93 (2012) 261-267. (影响因子: 11.45; JCR分区: Q1)

(55)  J. Guo, X. Huai, Optimization design of recuperator in a chemical heat pump system based on entransy dissipation theory, Energy 41(1) (2012) 335-343. (JCR分区: Q1)

(56)  M. Xu, J. Guo, L. Wang, L. Cheng, Thermal wave interference as the origin of the overshooting phenomenon in dual-phase-lagging heat conduction, International Journal of Thermal Sciences 50(5) (2011) 825-830. (JCR分区: Q1)

(57)  X. Li, J. Guo, M. Xu, L. Cheng, Entransy dissipation minimization for optimization of heat exchanger design, Chinese Science Bulletin 56(20) (2011) 2174-2178.

(58)  J. Guo, M. Xu, L. Cheng, Effect of temperature-dependent viscosity on the entransy of both fluids in heat exchangers, Chinese Science Bulletin 56(23) (2011) 1934-1939.

(59)  J. Guo, M. Xu, L. Cheng, The entransy dissipation minimization principle under given heat duty and heat transfer area conditions, Chinese Science Bulletin 56(19) (2011) 2071-2076.

(60)  J. Guo*, M. Xu, L. Cheng, Numerical investigations of curved square channel from the viewpoint of field synergy principle, International Journal of Heat and Mass Transfer 54 (2011) 4148-4151. (JCR分区: Q1)

(61)  J. Guo*, M. Xu, L. Cheng, The influence of viscous heating on the entransy in two-fluid heat exchangers SCIENCE CHINA Technological Sciences 54(5) (2011) 1267-1274. (JCR分区: Q2)

(62)  J. Guo, M. Xu*, L. Cheng, Second law analysis of curved rectangular channels, International Journal of Thermal Sciences 50(5) (2011) 760-768. (JCR分区: Q1)

(63)  J. Guo, M. Xu, J. Cai, X. Huai, Viscous dissipation effect on entropy generation in curved square microchannels, Energy 36(8) (2011) 5416-5423. (JCR分区: Q1)

(64)  J. Guo, M. Xu*, L. Cheng, Numerical investigations of circular tube fitted with helical screw-tape inserts from the viewpoint of field synergy principle, Chemical Engineering and Processing: Process Intensification 49(4) (2010) 410-417. (JCR分区: Q2)

(65)  J. Guo, M. Xu*, L. Cheng, Thermodynamic analysis of waste heat power generation system, Energy 35(7) (2010) 2824-2835. (JCR分区: Q1)

(66)  J. Guo, M. Xu, L. Cheng, Principle of equipartition of entransy dissipation for heat exchanger design, SCIENCE CHINA Technological Sciences 53(5) (2010) 1309-1314. (JCR分区: Q2)

(67)  J. Guo, L. Cheng, M. Xu, Mutli-objective optimization of heat exchanger design by entropy generation minimization, ASME Journal of Heat Transfer 132(8) (2010) 081801.

(68)  J. Guo, L. Cheng, M. Xu, The entropy generation minimization based on the revised entropy generation number, International Journal of Exergy 7(5) (2010) 607-625.

(69)  M. Xu, J. Guo, L. Cheng, Application of entransy dissipation theory in heat convection, Frontiers of Energy and Power Engineering in China 3(4) (2009) 402-405.

(70)  J. Guo, M. Xu*, L. Cheng, The application of field synergy number in shell-and-tube heat exchanger optimization design, Applied Energy 86(10) (2009) 2079-2087. (影响因子: 11.45; JCR分区: Q1)

(71)  J. Guo, L. Cheng, M. Xu, Entransy dissipation number and its application to heat exchanger performance evaluation, Chinese Science Bulletin 54(15) (2009) 2708-2713.

(72)  J. Guo, L. Cheng, M. Xu, Optimization design of shell-and-tube heat exchanger by entropy generation minimization and genetic algorithm, Applied Thermal Engineering 29(14-15) (2009) 2954-2960. (JCR分区: Q1)

学术会议论文:

(1)     J. Guo*, J. Song, K.S. Pervunin, C.N. Markides, Heat exchanger arrangements in supercritical CO₂ Brayton cycle systems: an analysis based on the distribution coordination principle, 16th international conference on heat transfer, fluid mechanics and thermodynamics, Amsterdam, Holland, 2022.

(2)     J. Guo*, H. Zhang, X. Cui, X. Huai, The heat transfer analysis of low temperature recuperator in supercritical CO₂ Brayton cycle, Applied Energy Symposium: MIT A+B, Boston, USA, 2019.

(3)     H. Zhang, K. Cheng, X. Huai*, J. Guo, Performance analysis of printed circuit heat exchanger for supercritical carbon dioxide and water, IOP Conference Series: Materials Science and Engineering 721(1) (2020) 012039.

(4)     H. Zhang, J. Guo*, M. Xiang, X. Huai, K. Cheng, X. Cui, Numerical studies on the coupled heat transfer characteristics of supercritical pressure CO₂ under cooling condition, The 16th International Heat Transfer Conference, Beijing, China, August 2018.

(5)     J. Guo*, X. Huai, K. Cheng, X. Cui, H. Zhang, Thermal analysis of heat exchanger with supercritical pressure CO₂, 16th International Heat Transfer Conference, Beijing, China, August 2018.

(6)     J. Guo*, X. Cui, H. Zhang, X. Huai, K. Cheng, Performance analysis of heat exchanger for fluids with variable properties, The 10th International Conference on Applied Energy – ICAE2018, Hong Kong, China, August 2018.

(7)     X. Cui, J. Guo*, X. Huai, K. Cheng, H. Zhang, M. Xiang, Numerical investigation on convective heat transfer of supercritical pressure CO₂ in serpentine channel, the 16th International Heat Transfer Conference, Beijing, China, August 2018.

(8)     J. Guo*, X. Huai, Heat transfer enhancement mechanism and optimisation method for supercritical CO₂ heat exchanger, The 1st International Conference on Supercritical CO₂ Power System, Beijing, China, June 29 – July 1 2018.

(9)     C. Qiao*, Z. Zhang, J. Guo, J. Zhang, Development and Application of Collaborative Optimization Software for Plate-fin Heat Exchanger, The 1st International Global on Renewable Energy and Development, IOP Publishing Ltd, Bristol, 2017.

(10)  J. Guo, X. Huai*, Entransy dissipation in a straight tube with leadbismuth turbulent flow, 26th International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems, ECOS 2013, July 16, 2013 - July 19, 2013, China International Conference Center for Science and Technology, Guilin, China, 2013.

(11)  Guo, J.*, Xu, M., Cheng, L. (2010): A new criterion for assessing heat exchanger performance. Proceedings of the 14^th International Heat Transfer Conference at Washington, USA, August 2010.

(12)  Guo, J.*, Xu, M., Cheng, L. (2010): The application of entransy dissipation theory in optimization design of heat exchanger. Proceedings of the 14^th International Heat Transfer Conference at Washington, USA, August 2010.

中文期刊论文：

(1)     黄俊杰，韩增孝，郭江峰*，淮秀兰，超临界CO₂微通道换热器研究进展，制冷学报44(04)(2023)1-14.

(2)     刘晓凯, 郭江峰*, 韩增孝, 张海燕, 淮秀兰, 超临界压力CO₂在非均匀加热竖直管内的换热特性研究, 工程热物理学报 43(07) (2022) 1951-1957.

(3)     韩增孝, 郭江峰*, 张海燕, 陈俊霖, 淮秀兰, 湿化循环燃机回热器加压湿空气流动换热特性研究, 工程热物理学报 42(11) (2021) 2899-2910.

(4)     韩增孝, 郭江峰*, 淮秀兰, 基于火积耗散理论的新翼型换热器优化方法研究, 中国科学：技术科学51 (10) (2021) 1219-1230.

(5)     郭江峰*, 张海燕, 崔欣莹, 淮秀兰, 韩增孝, 低品位烟气余热回收换热器热力学分析, 工程热物理学报 41(1) (2020) 39-45.

(6)     张海燕, 郭江峰*, 淮秀兰, PCHE内轴向导热对局部换热性能的影响研究, 化工学报 70 (2019) 4590-4598.

(7)     曹勇, 郭江峰, 党睿, 张思思, 柳松, 崔治国, 公共机构高效用能关键技术的研究, 中国基础科学·科技计划 21(5) (2019) 31-40.

(8)     相梦如, 郭江峰*, 淮秀兰, 成克用, 崔欣莹, 超临界压力CO2水平管内冷却换热机理研究, 工程热物理学报 38(9) (2017) 1929-1934.

(9)     郭江峰, 许明田&, 程林, 基于火积耗散数最小的板翅式换热器优化设计, 工程热物理学报 32(05) (2011) 827-831.

(10)  郭江峰*, 许明田, 程林, 两流体换热器内粘性热对两流体火积的影响, 中国科学: 技术科学 41(05) (2011) 621-627.

(11)  郭江峰, 许明田*, 程林, 换热器内随温度变化的黏度对两流体火积的影响, 科学通报 56(23) (2011) 1934-1939.

(12)  郭江峰, 许明田*, 程林, 换热器设计中的火积耗散均匀性原则, 中国科学：技术科学 40(06) (2010) 671-676.

(13)  郭江峰, 许明田*, 程林, 换热量和换热面积给定时的火积耗散最小原则, 科学通报(2010) 3141-3146.

(14)  郭江峰, 程林, 许明田*, 火积耗散数及其应用, 科学通报54(19) (2009) 2998-3002.

书籍著作：

(1)    Heat Transfer Enhancement and Coordination Optimization for Supercritical CO₂ Heat Exchanger, Chapter 8 in Handbook of Research on Advancements in Supercritical Fluids Applications for Sustainable Energy Systems, IGI Global, United States, 2020. (撰写第8章)

(2)    Thermodynamic Analysis and Optimization Design of Heat Exchanger, Chapter 3 in Advances in Transport Phenomena 2011, Springer, Germany, 2014. (撰写第3章)

申请/授权专利：

(1)     郭江峰, 崔欣莹, 淮秀兰, 成克用, 张海燕, 相梦如. 强化换热的方法. CN: CN110779378B, 2021-02-19.

(2)     郭江峰, 崔欣莹, 淮秀兰, 成克用, 张海燕, 相梦如. 一种印刷电路板换热器入口分流处结构. CN: CN108180779A, 2019-11-26 .

(3)     郭江峰, 崔欣莹, 淮秀兰, 成克用, 相梦如. 带有流线形肋结构的换热板及包含其的印刷电路板换热器. CN: CN107687780A, 2019-06-18.

(4)     郭江峰, 崔欣莹, 淮秀兰, 相梦如, 成克用. 用于印刷电路板换热器的换热板. CN: CN107024134A, 2017-08-08.

(5)     郭江峰, 淮秀兰, 成克用, 崔欣莹, 相梦如. 一种换热板和气体‑液体换热器. CN: CN106931821A, 2017-07-07.

(6)     郭江峰, 淮秀兰, 许闽, 周小明, 成克用. 一种用于太阳能直接蒸发系统的相变蓄热装置. CN: CN105157251A, 2015-12-16.

(7)     郭江峰, 淮秀兰, 孙杰, 许闽, 李勋锋, 周小明. 一种太阳能直接蒸汽发生系统的模拟装置及方法. CN: CN105136506A, 2015-12-09.

(8)     许闽, 淮秀兰, 郭江峰, 李勋锋. 基于热化学储能的电蓄热锅炉、供能系统及方法. CN: CN109855306A, 2019-06-07.

(9)     成克用, 淮秀兰, 郭江峰. 一种测量超临界CO 2 回热器和冷却器性能的装置和方法. CN: CN107314567A, 2017-11-03.

(10)  王永伟, 李勋锋, 蔡军, 淮秀兰, 成克用, 郭江峰. 一种高温液态金属两级冷却设备和方法. CN: CN105825900A, 2016-08-03.

(11)  郭江峰, 淮秀兰, 李勋锋. 一种正反旋向交替的间断内插式螺旋翅片强化换热管. CN: CN104864760A, 2015-08-26.

(12)  李勋锋, 蔡军, 淮秀兰, 王永伟, 郭江峰. 一种液态金属与高压气体流动换热装置及方法. CN: CN104599727A, 2015-05-06.

(13)  蔡军, 李勋锋, 陶毓伽, 淮秀兰, 郭江峰. 一种高温液态金属流量在线标定装置. CN: CN102721452A, 2012-10-10.

(14)  蔡军, 李勋锋, 淮秀兰, 郭江峰, 陶毓伽. 一种应用于液态铅铋合金实验回路的预热器. CN: CN102635933A, 2012-08-15.

(15)  蔡军, 淮秀兰, 李勋锋, 陶毓伽, 郭江峰. 一种微通道热沉及微通道热沉性能测试装置. CN: CN102620590A, 2012-08-01.

学术兼职:

(1)     担任《Frontiers in Energy Research》(SCI收录)期刊的副主编;

(2)     担任《Frontiers in Heat and Mass Transfer》、《Carbon Neutrality》等期刊的编委；

(3)     被邀请担任多个SCI期刊的Guest Editor等，如《Energies》(影响因子：3.252)等；

(4)     德国卡尔斯鲁厄理工学院(KIT,德国首批精英大学)客座教授, 德国KIT，2019

(5)     中国科学院大学岗位教授，2015年

(6)     The 16th international conference on heat transfer, fluid mechanics and thermodynamics and editorial board of applied thermal engineering (HEFAT-ATE 2022 Conference), Technical Program Committee, 2022年

(7)     The 2024 International Conference on Supercritical CO₂ Power Cycle and Comprehensive Energy Systems（ICSPC2024），Program Committee, 2024

(8)     教育部研究生教育评估平台评议专家，2022

(9)     欧盟科技委员会创新项目、国家自然科学基金项目、国家重点研发计划项目等多个国内外重要项目评审专家

(10)  中国化工学会会员、北京能源与环境学会专家委员会专家等；

教学与学生培养：

(1)     曾开设研究生课程《换热器设计原理与强化传热新进展》

(2)     拟开设国际课程《Pressure Vessel Design》

(3)     已指导3名博士研究生、3名硕士研究生

(4)     指导的学生曾获研究生国家奖学金、中国工程热物理学会传热年会青年优秀论文奖等

(5)     主持北京高等学校高水平人才交叉培养项目2项，指导4项本科毕业设计

1. 被邀请担任《Frontiers in Energy Research》 (SCI 收录, IF = 3.4)期刊的 Associate Editor;

2. 被邀请担任《Frontiers in Heat and Mass Transfer》 (SCI 收录, IF = 1.8)期刊的 Editorial Board Member;

3. 被邀请担任多个 SCI 期刊的 Guest Editor 等，如《Energies》 (影响因子： 3.252)等；

4. 德国卡尔斯鲁厄理工学院(KIT,德国首批精英大学)客座教授, 德国 KIT， 2019;

5. 中国科学院大学岗位教授， 2015 年;

6. The 16th international conference on heat transfer, fluid mechanics and thermodynamics and editorial board of applied thermal engineering (HEFAT-ATE 2022 Conference), Technical program committee, 2022 年;

7. 教育部研究生教育评估平台评议专家， 2022;

8. 欧盟科技委员会创新项目、国家自然科学基金项目、国家重点研发计划项目等多个国内外重要项目评审专家;

9. 中国化工学会会员、北京能源与环境学会专家委员会专家等.