研究方向


        多年来一直从事工程热力学、工质热物理性质和热力循环领域的前沿研究。主持和作为主要研究者参加了项国家重点基础研究(973)、国家重点科技攻关、国家自然科学基金杰出青年、重点与面上项目、教育部科技重点攻关项目、企业合作等科研项目40余项。近年主要主持的项目有:

        

2023-2024 -86℃及以下温区空气制冷低温冰箱研发 陕西省重点研发计划
2023-2024 铅铋合金高温热物性测量和计算 横向课题
2022-2023 氦氙工质比热容测定 横向课题
2022-2025 超临界XXXX工质热物性XXXX技术开发 横向课题
2020-2025 铅铋合金相图、粘度等实验测量和理论预测 横向课题
2020-2013 川藏铁路深埋超长隧道工程灾变机制及防控方法/高温高湿热害机理与防治
国家自然科学基金重大基础科学问题专项
2020-2014 近(超)临界区新型热力循环工质热流迁移特性的研究
国家自然科学基金重点项目
2019-2020 超临界XXXX热工设计 “十三五”预研专项
2016-2020 流体热物理性质
家杰出青年基金
2018-2020

能源高效清洁转化与利用基础理论及关键技术

  陕西省创新能力支撑计划(科技创新团队)

2016-2018 基于离子液体的低碳烷烯烃分离新技术 陕西省工业科技攻关项目
2015-2019

燃煤发电系统能源高效清洁利用的基础研究/超(超)临界锅炉水动力、热质输运及与燃烧过程的耦合

国家重点基础研究发展规划(973)项目
2014-2018
高温熔融氟化盐相图的实验测量和理论研究
国家自然科学基金项目
2010-2012
流体导热系数动态光散射法测量及理论推算
国家自然科学基金项目
2009-2013
超(超)临界机组工质的传递特性及对机组安全高效运行的影响
国家重点基础研究发展规划(973)项目
2009-2010 超临界XXXX物理化学特性研究 国家重大专项中国高超飞行器研究
2008-2010
车载汽油发动机余热回收后接蒸汽动力装置循环的研究
国家自然科学基金项目
2007-2009
流体质扩散系数实时激光全息干涉法测量及理论推算
国家自然科学基金项目
2004-2006
流体黏度状态方程和倾斜式毛细管黏度计的研究
国家自然科学基金项目
2020 硼浓度扩散系数试验
横向课题
2019-2020 铅铋合金项目相图的实验测量和理论模型建立
横向课题
2018-2019 18MW天然气高速三相异步电机机械损耗研究 横向课题
2016-2017 北方地区高比例可再生能源多源互补供热系统开发和激励政策研究 中国政府/世界银行/全球环境基金
2015-2016 超临界XXXX热物理特性研究
横向课题
2015  CSNS氢循环系统的氢排放管道校核设计
横向课题
2015
光热发电储能技术的研究
横向课题
2015
冰箱门封漏热规律研究和门封隔热优化设计
横向课题
2014
硼酸溶液物理性质测试
横向课题
2013
蒸汽发生器用690合金传热管导热系数测量
横向课题
2012
大容量冰箱(柜)R290及其混合物制冷系统研制
横向课题

 

 

科研成果(发表研究论文 400多篇,其中ESI收录4篇,SCI收录 140余篇,EI收录 230余篇),SCI他引770余次。

       
代表性论文有:

-----------------------------------------------------

 

[257]Kang Zhangyang*, He Maogang, Lu Guangxuan. Thermodynamic evaluation and optimization of the (Lif + Ref3) (Re = La, Nd, Gd, Yb, Y, Lu) binary systems. Calphad: Computer Coupling of Phase Diagrams and Thermochemistry, 2023, 83(12): 2023102612(10p)  (EI: 20233514649697)

[256]Xiangming Zhao, Jianxiang Guo, Maogang He. Multi-objective optimization and improvement of multi-energy combined cooling, heating and power system based on system simplification. Renewable Energy, 2023, 217(11), 119195(21p)      (WOS:??? EI: 20233614689456)

[255]Jimin Xu, Tianwang Lai, Xiangyang Liu*, Maogang He. Simulation of the cold-end temperature and the optimal current of thermoelectric cooler with variable semiconductor cross section using lattice boltlzmann method. Mathematics and Computers in Simulation. Journal of Enhanced Heat Transfer, 2023, 30(80): 49-70

[254]Xiangyang Liu, Jianchun Chu, Shaoxuan Huang, An Li, Shuanlai Wang, Maogang He*. Machine Learning-based Design of Ionic Liquids at the Atomic Scale for Highly Efficient CO2 Capture, ACS Sustainable Chemistry & Engineering, 2023, 11(6): 24, 8978-8987  (WOS:??? EI: 20232614309844)

[253]Taotao Zhan, Yuhang Chen, Ao Dong, Maogang He, Ying Zhang*. Intrinsic-Group-Contribution PC-SAFT and its application in performance analysis of high-temperature organic Rankine cycle with siloxanes and alkanes. 2023, 278(9): 127945(17p)     (EI: 20232214165308)

[252]Jia Weijie, Su Yuqi, Cao Songtao, Dong Ao, Zhang Ying*, He Maogang. Mutual diffusion coefficients of three alkanes (n-heptane, n-octane and isooctane) in cyclohexane from 288.15 K to 308.15 K. The Journal of Chemical Thermodynamics, 2023, 184(9): 107086(11p)  (WOS: 001008193700001; EI: 20232214151333)

[251]Shaoxuan Huang, Yiran Wang, Kun Hou, Peiji Wang, Maogang He, Xiangyang Liu *. Thermodynamic analysis of an efficient pressure-swing CO2 capture system based on ionic liquid with residual pressure energy recovery. Journal of Cleaner Production, 2023,414(8):137665(18p)        (WOS: 001020402600001)

[250]Xiangyang Liu, Kun Hou, Maogang He*. A self-condensation supercritical carbon dioxide Rankin cycle system realized by absorption refrigeration. Applied Thermal Engineering, 2023, 230(7): 120648(13p)  (WOS: 001000640000001; EI: 20231914066236)

[249]Taotao Zhan, Haiyang Zou, Hengfei Zhang, Peng He, Zhanlei Liu, Junshuai Chen, Maogang He, Ying Zhang*, Zhong Lin Wang.Smart liquid-piston based triboelectric nanogenerator sensor for real-time monitoring of fluid status. Nano Energy, 2023, 111(6): 108419(10p)   (WOS: 000981319400001; EI: 20231513867869)

[248]Shuanlai Wang, Kun Hou, Ziwen Zhang, Shaoxuan Huang, Xiangyang Liu*, Maogang He. Vapor-liquid equilibrium for dimethyl ether and three imidazolium ionic liquids as working pairs in absorption-refrigeration cycle. Journal of Molecular Liquids, 2023, 380(6): 121742(9)  (WOS: 000975515300001; EI: 20231513862516)

[247]Sa Xue, Yang Zhou, Xiangyang Liu*, Maogang He. A new fluorine-containing sulfone-based electrolyte for advanced performance lithium metal batteries. Journal of Energy Storage, 2023, 64(8): 107137(12p)       (WOS: 000961307300001; EI: 20231313819358)

[246]Yang Xiao, Yanqiong Bao, Linfeng Yu, Xiong Zheng*, Guangzhao Qin, Meijie Chen, Maogang He. Ultra-stable carbon quantum dot nanofluids as spectral beam splitters in PV/T applications. Energy, 2023, 273(6): 127159(9p)        (WOS: 000957832600001; EI: 20231213750971)

[245]Yiran Wang, Shaoxuan Huang, Xiangyang Liu*, Maogang He. Thermodynamic model for CO2 absorption in imidazolium-based ionic liquids using cubic plus asscocuation equation of state. Journal od Molecular Liquids, 2023, 378(5): 12158(16p)      (WOS: 000951291100001; EI: 20231213746430)

[244]Na Zhang, Xinxin Zhang*, Maogang He, Jinfu Wang. Prediction of carbon dioxide emission factors of China's power generation at carbon peak in 2030. Journal of Thermal Science, 2023, Accepted

[243]A Mahboob1, A Shahzad*, Amjad Sohail, M Kashif, M G He. Dynamical density of two-dimensional dusty plasmas. Iranian Journal of Science and Technology Transaction A- Science, 2022, on-line (13p)        (WOS: 000889052700001)

[242]Muhammad Salman, Nimra Javed, Xiangyang Liu, Maogang He. Azeotrope separation of ethyl propionate and ethanol by extractive distillation and pressure swing distillation method. Author links open overlay panel. Separation and Purification Technology, 2023, 311(4): 123361(23p)      (WOS: 000945645900001; EI: 20230713572589)

[241]Aamir Shahzad*, Muhammad Kashif, Aamir Hussain, Misbah Noreen, Mao-Gang He, Taqmeem Hussain, Jamoliddin Razzokov, Mawloud Belabbas, Sajid Bashir. Enhanced photocatalysis activity of doped magnetic semiconductor (Rh/Ir):CdS by improving charge-carrier transfer mechanism,  Physica B: Condensed Matter,2023,652(3): 414643(12p)  (WOS: 000990831800001; EI: 20230213380228)

[240]Zeyang Kang, Sihan Huang, Xiangyang Liu*, Ying Zhang, Maogang He. A novel high temperature eutectic salt and its composite with enhanced high conductivity. Journal of Energy Storage, 2023, 59(3): 106409(11p)    (WOS: 000913638200001; EI: 20225213319183)

[239]Xiangyang Liu, Zeyang Kang, Hui Liu, Shaoxuan Huang, Ying Zhang, Maogang He*. Preparation and thermal property characterization of NaCl-Na2CO3-Na2SO4 eutectic salt mixed with carbon nanomaterials for heat storage. Solar Energy Materials and Solar Cells, 2023, 251(3): 112173(11p)        (WOS: 000913829900001; EI: 20230113327120)

[238]Zheng Xiong*, Bao Yanqiong, Huang An, Qin Guangzhao*, He Maogang. 3D printing double-layer hydrogel evaporator with surface structures for efficient solar steam generation. Separation and Purification Technology, 2023, 306(2): 122741(8p)  (WOS: 000899379300004; EI: 20224813189015)

[237]Aamir Shahzad*, Ijaz Ahmad Khan, Alina Manzoor, Muhammad Kashif, Muhammad Ahsan, Maogang He, Jamoliddin Razzokov. Synthesis of nickel nanowires (Ni-NWs) as high ferromagnetic material by electrodeposition technique. Heliyon, 2023, 9(1): e12576(10p)  (WOS: 000973495100001)

[236]Muhammad Asif Shakoori, Maogang He*, Aamir Shahzad, Misbah Khan. Tuning the structure and transport properties of complex plasmas using electric field. Physica Scripta, 2023, 98(1): 015608(16p)        (WOS: 000894282400001; EI: 20225213309556)

[235]Meijie Yang, Taotao Zhan, Yuqi Su, Ao Dong, Maogang He, Ying Zhang*. Crossover PC-SAFT equations of state based on White’s method for the thermodynamic properties of CO2, n-alkanes and n-alkanols. Fluid Phase Equilibria, 2023, 564(1):15301-15309 (WOS: 000869959300002; EI: 20223912789772)

[234]Tao Wang, Jinmin Xu, Xiangyang Liu*, Maogang He. Co-gasification of waste lignin and plastics in supercritical liquids: comparison of water and carbon dioxide. Journal of CO2 Utilization,2022,66(12): 102248(8p)      (WOS: 000872550900005; EI: 20224313001068)

[233]Tianwang Lai, Jimin Xu, Maogang He, Xiangyang Liu*. Study of Rotation Effect on Nanofluid Natural Convection and Heat Transfer by Immersed Boundary-Lattice Boltzmann Method. Energies, 2022, 15(23): 9019(15p)(WOS: 000896143500001; EI: 20225013247954)

[232]M A Shakoori, M G He*, A Shahzad, M Kkan. Diffusion Coefficients of Dusty Plasmas in Electric Field. The European Physical Journal D, 2022, 76(11): 227(13p) (WOS: 000889059900002; EI: 20224813182135)

[231]Muhammad Asif Shakoori, Mao-Gang He, Aamir Shahzad, Ying Zhang. Diffusion Coefficients of Electrorheological Complex (Dusty) Plasmas. Journal of Molecular Modeling, 2022, 28(11): 398 (11p)     (WOS: 000887905300001; EI: ???)

[230]Xiangming Zhao, Jianxiang Guo, Maogang He*. Multiobjective optimization based on mixed refrigerants and different two-stage vapor injection systems. International Journal of Refrigeration. 2022, 12, on-line        (EI: 20233414583690)

[229]M A Shakoori, M G He*, A Shahzad, M Kkan. Diffusion Coefficients for Complex Plasmas in Parallel Electric Field. Plasma Physics Reports, 2022, 48(9): 1023-1033   (WOS: 000874934000009)

[228]Ziwen Zhang, Kun Hou, Sa Xue, Yang Zhou, Xiangyang Liu*, Maogang He. Measurement and correlation of isobaric molar heat capacities of deep eutectic solvents consisting of choline chloride and triethylene glycol. Journal of Molecular Liquids, 2022, 366(11): 120229(8p)   (WOS: 000860507900002; EI: 20223712708434)

[227]Sa Xue, Kun Hou, Yaohui Shi, Ziwen Zhang, Longhui Fang, Xiangyang Liu*, Maogang He. Isobaric molar heat capacities of dimethyl carbonate and alkane binary mixtures at high pressures. Journal of Thermal Analysis and Calorimetry, 2022, 147(19): 10707-10716 (WOS: 000778014900002; EI: 20221311869945)

[226]Tao Wang, Xiangyang Liu*, Sha Xue, Hui Liu, Maogang He. Tuning the molecular structure and transport property of [bmim][Tf2N] using electric field. Journal of Thermal Science, 2022, 31(4): 1076-1083      (WOS: 000808424500001; EI: 220222412215932)

[225]Xinxin Zhang*, Zhenggang Lu, Maogang He, Jingfu Wang. What can Beijing learn from the world megacities on energy and environmental issues? Energy Reports, 2022, 8(11): 414-424  (WOS: 000783903300010; EI: 20215111355114)

[224]Zhangyang Kang*, Maogang He, Guangxuan Lu. Experimental measurements and thermodynamic optimization of the NaCl+RbCl phase diagram. Materials, 2022, 15(18), 6411(11p)    (WOS: 000857714900001; EI: 20224012817433)

[223]Zeyang Kang, Yaohui Shi, Hui Liu, Xiangyang Liu*, Maogang He. Thermodynamic optimization of LiCl-KCl-ZnCl2 and LiCl-KCl-MgCl2 for thermal energy storage. Journal of Energy Storage, 2022, 53(9): 105028(7p)      (WOS:000814763800008; EI: 20222612265953)

[222]Zhang Hengfei, Zhan Taotao, Chen Junshuai, Li Xin, Zhang Ying*, He Maogang. Speed of sound measurement and mixing-rule evaluation of (n-butanol + n-heptane) binary mixtures. Journal of Chemical Thermodynamics, 2022, 172(9): 106817(11p)     (WOS: 000803613700002; EI: 20222112136427)

[221]Ying Zhang*, Songtao Cao, Yuqi Su, Maogang He. Mutual diffusion coefficients of ethanol + isooctane and n-butanol + isooctane mixtures and tests of a new local-composition prediction model for diffusion in binary liquids. The Journal of Chemical Thermodynamics, 2022, 172(9) : 106812(9p)     (WOS: 000808181200001; EI: 20222312189390)

[220] Yanjun Sun, Qiming Wei, Xingdan Wang, Xiaopo Wang, Maogang He. Absorption separation of hydrofluorocarbon/hydrofluoroolefin refrigerant mixtures using ionic liquids. Industrial & Engineering Chemistry Research,2022,61(34): 12787-12796(WOS: 000841214400001; EI: 20223512659216)

[219]Xiangming Zhao, Jianxiang Guo, Maogang He*. Multiobjective Optimization of Multisource Heating System Based on Improving Diversification and Implementation. Energy Conversion and Management, 2022, 266(8): 115789(16p)      (WOS: 000817591000002; EI: 20222412211545)

[218]Jianchun Chu, Ziwen Zhang, Xiangyang Liu*, Maogang He. Estimating the Solubility of HFC/HFO in Ionic Liquids from molecular structure using machine learning method. Chemical Engineering Research and Design, 2022, 184 (8): 315-325  (WOS:000819134100007; EI: 20222612269517)

[217]Xiangyang Liu, Zeyang Kang, Yaohui Shi, Hui Liu, Ying Zhang, Maogang He*. Binary and Ternary Phase Diagrams of Lead, Bismuth, and Lead Oxide. Fluid Phase Equilibria, 2022, 559(8): 113461(8p)      (WOS: 000821431400001; EI: 20221511953358)

[216]Lai TW, Liu XY*, Chu JC, He MG, Zhang, Y. Numerical study of flow and heat transfer in a rectangular channel partially filled with porous media at the pore scale using lattice boltzmann method. Heat Transfer Engineering, 2022, 43(8-10): 818-829       (WOS: 000635827800001; EI: 20211410183964)

[215]Tian Lan, Jimin Xu, Chengjie Wang, Hui Liu, Xiangyang Liu*, Zeyang Kang, Maogang He. The effect of water on the thermal conductivities of deep eutectic solvents (choline chloride + ethylene glycol) using improved 3ω method system. Journal of Molecular Liquids, 2022, 359(8) : 119330(9p)      (WOS: 000805052100003; EI: 20222012123830)

[214]Xiangyang Liu, Jianchun Chu, Ziwen Zhang, Maogang He*. Data-Driven Multi-Objective Molecular Design of Ionic Liquid with High Generation Efficiency on Small Dataset. Materials & Design, 2022, 220(8): 110888(10p)    (WOS: 000826367700004; EI: 20222712319816)

[213]Chengjie Wang, Maogang He, Xiangyang Liu, Jonathan A. Malen*. Modeling the tunable thermal conductivity of intercalated layered materials with three-directional anisotropic phonon dispersion and relaxation times. Journal of Materials Chemistry C, 2022, 10(32): 11686-11696     (WOS: 000857714900001; EI: 20221311869945)

[212]Zeyang Kang, Jimin Xu, Hui Liu, Yuwen Lin, Xiangyang Liu*, Maogang He. Thermophysical properties of LiF-LiCl-Li2CO3 eutectic mixture/multiwalled carbon nanotube for thermal energy storage. Solar Energy Materials and Solar Cells, 2022, 241(7): 111744(9p)  (WOS: 000829975400003; EI: 20221611992763)

[211]Xin Li, Taotao Zhan, Yongbo Zhang, Yuqi Su, Maogang He, Ying Zhang*. Measurement of the speed of sound in near-critical n-dodecane at temperatures from (433 to 679) K and pressures up to 10.0 MPa. Journal of Chemical Thermodynamics, 2022, 170(7): 106768(9p) (WOS: 000779683200005; EI: 20221111793154)

[210]Tao Wang, Xiangyang Liu*, Sihan Wang, Afzal Wheed, Maogang He. Modelling co-gasification of plastic waste and lignin in supercritical water using reactive molecular dynamics simulations. International Journal of Hydrogen Energy, 2022, 47(49): 21060-21066(WOS: 000812279700003; EI: 20222112152522)

[209]Zhang Ying, Zhang Yongbo, Su Yuqi, Zhan Taotao, Zhang Hengfei, He Maogang. Speed of Sound and Excess Properties of (Ethanol + Isooctane) Binary System. Journal of Chemical & Engineering Data, 2022, 67(6): 1428-1437 (WOS:000810237600001; EI: 20222212185349)

[208]Xinxin Zhang*, Kaili Xua, Maogang He, Jingfu Wang. A review on the rural household energy in China from 1990s — transition, regional heterogeneity, emissions, energy-saving, and policy. Frontiers in Energy Research, Section Sustainable Energy Systems and Policies, 2022, 10(5): 907803(15p)    (EI: 20222412235925)

[207]Tao Wang, Xiangyang Liu*, Jimin Xu, Waheed Afzal, Maogang He. Simulation of softwood lignin gasification in supercritical carbon dioxide. Journal of CO2 Utilization, 2022, 59(5): 101959(4p)    (WOS: 000789871900003; EI: 20221311844436)

[206]Chenyang Zhu, Ziwen Zhang, Sa Xue, Kun Hou, Hui Liu, Xiangyang Liu*, Maogang He. Association effect on the density, viscosity and access properties of fatty acid ester + alcohol mixtures: experiment and modeling. Fuel, 2022, 316(5): 123425(12p)      (WOS: 000820062700005; EI: 20220511581265)

[205]Xiangyang Liu, Xiaotong Zong, Sa Xue, Maogang He*. Regulating structure and flow of ionic liquid confined in nanochannel using water and electric field. Journal of Molecular Liquids, 2022, 351(4): 118612(10p)    (WOS: 000754529200014; EI: 20220611584097)

[204]Chengjie Wang, Tian Lan, Jinmin Xu, Hui Liu, Xiangyang Liu*, Maogang He. Influence of polar solvent on the thermal conductivity of ionic liquid based on the developed two-wire 3ω method. Journal of Molecular Liquids, 2022, 352(4): 118674(8p)(WOS: 000788122600005; EI: 20220711630912)

[203]Tian Lan, Yiran Wang, Raza Ali, Hui Liu, Maogang He, Xiangyang Liu*. Prediction and Measurement of Critical Properties of Gasoline Surrogate Fuels and Biofuels. Fuel Processing Technology, 2022, 228(4): 107156(9p)    (WOS: 000749923000008; EI: 20220111424660)

[202]Yuqi Su, Songtao Cao, Taotao Zhan, Maogang He, Zhangying*. Mutual diffusion coefficients of dimethyl carbonate + n-heptane and dimethyl carbonate + isooctane from 288.15 K to 318.15 K. The Journal of Chemical Thermodynamics, 2022, 167(4): 106716(7p)(WOS: 000754186400011; EI: 20220111415560)

[201]Hou Kun, Zhang Ziwen, Xue Sa, Liu Xiangyang*, He Maogang. Isobaric molar heat capacities of binary mixtures of diethyl carbonate and methyl caprate at high pressures. Journal of Chemical & Engineering Data, 2022, 67(3): 661-668     (WOS: 000768713600011; EI: 20221011761666)

[200]Yiran Wang, Tian Lan, Raza Ali, Jimin Xu, Xiangyang Liu*, Maogang He. Measurement of the critical temperature and critical pressure of isopropanol and isobutanol blended with gasoline components. The Journal of Supercritical Fluids, 2022, 182(3): 105536(9p)(WOS: 000780387500005; EI: 20220511568371)

[199]Luyue Min, Minyun Liu, Dapeng Xi, Maogang He, Xiangyang Liu, Yanping Huang*. Study of Supercritical CO2 Physical Property Calculation Models. Frontiers in Energy Research, 2022, 10(2): 835311(10p)     (EI: 20221111800133)

[198]Xinxin Zhang*, Min Cao, Maogang He, Jingfu Wang. Thermodynamic and Economic Studies of a Combined Thermodynamic Cycle for Waste Heat Recovery of Marine Diesel Engine. Journal of Thermal Science, 2022, 31(2): 417-435     (WOS: 000601547800003; EI: 20205209678694)

[197]Liu Xiangyang, Li Jian, Hou Kun, Wang Shuanlai, He Maogang*. New environment friendly working pairs of dimethyl ether and ionic liquids for absorption refrigeration with high COP. International Journal of Refrigeration, 2022, 134(2): 159-167     (WOS: 000880460000007; EI: 20221111781722)

[196]Junshuai Chen, Hongwei Xing, Taotao Zhan, libin Chen, Maogang He, Ying Zhang*. Measurement of thermal diffusivity of ethanol from (293 to 564) K and up to 10 MPa in vicinity of the critical point. Fluid Phase Equilibria, 2022, 522(1): 113276(11p)     (WOS: 000724635800002; EI: 20214311083602)

[195] Xinxin Zhang*, Kaili Xu, Maogang He. Development Status and Some Considerations on Energy Internet Construction in Beijing-Tianjin-Hebei region. Heliyon, 2022, 8(1): e08722(6p)  (WOS: 000767184700072)

[194]Aamir Shahzad*, Alina Manzoor, Weizong Wang, Aadil Mahboob, Muhammad Kashif, Mao‑Gang He. Dynamic Characteristics of Strongly Coupled Nonideal Plasmas. Arabian Journal for Science and Engineering, 2022,47(1):957-969      (WOS: 000669821800002)

[193]Xiangyang Liu, Xiaotong Zong, Sa Xue, Hui Liu, Maogang He*. Molecular structure and transport of ionic liquid confined in asymmetric graphene-coated silica nanochannel. Journal of Molecular Liquids, 2022, 345(1): 117869(11p)   (WOS: 000713883900057; EI: 20214311078872)

[192]Hongwei Xing, Junshuai Chen, Yongbo Zhang, Libin Chen, Maogang He, Ying Zhang*. Measurement of Thermal Diffusivity of n‑Pentane from (293-573) K and up to 10.0 MPa in the Near-Critical and Supercritical Regions. Journal of Chemical & Engineering Data, 2021, 66(12): 4697-4705    (WOS: 000755667600040; EI: 20214611157811)

[191]Meijie Yang, Taotao Zhan, Yuqi Su, Maogang He, Ying Zhang*.Two crossover Soave– Redlich–Kwong equations of state with fully analytical crossover functions for thermodynamic properties of carbon dioxide. Industrial & Engineering Chemistry Research, 2021, 60(42): 15301-15309(9p)    (WOS: 000713052900029; EI: 20214411095470)

[190]Lu Zhuoyang, Liu Xiangyang, He Maogang, Long Jiangang*, Liu Jiankang*. Dynamic motions and architectural changes in DNA supramolecular aggregates visualized via transmission electron microscopy without liquid cells. Nona Scale, 2021, 13(37): 15928-15936(WOS: 000696000000001; EI: 20214110995494)

[189]Tao Jiang, Xiangzhao Meng, YanjunSun*, Lijun Jin, QimingWei, Jiang Wang, Xiaopong Wang, Maogang He. Absorption behavior for R1234ze(E) and R1233zd(E) in [P66614][Cl] as Working Fluids in Absorption Refrigeration Systems. International Journal of Refrigeration, 2021, 131(11): 178-185   (WOS: 000722553900004; EI: 20214611155467)

[188]Xinxin Zhang*, Shangyang Nie, Maogang He, Jingfu Wang. Energy-saving renovation of old urban buildings: A case study of Beijing. Case Studies in Thermal Engineering, 2021, 28(12): 101632(11p)     (WOS: 000720793100052; EI: 20214511138330)

[187]Jianchun Chu, Xiangyang Liu*, Ziwen Zhang, Yilin Zhang, Maogang He. A Novel Method Overcomeing Overfitting of Artificial Neural Network for Accurate Prediction: Application on Thermophysical Property of Natural Gas. Case Studies in Thermal Engineering, 2021, 28 (12): 101406(13p)     (WOS: 000700529100052; EI: 20213910938065)

[186]Sa Xue, Kun Hou, Ziwen Zhang, Hui Liu, Chenyang Zhu, Xiangyang Liu*, Maogang He. General models for prediction densities and viscosities of Saturated and unsaturated fatty acid esters, Journal of Molecular Liquid, 2021, 341(11): 117374(11p) (WOS: 000700306300090; EI: 20213610859808)

[185]Xiangyang Liu, Yaohui Shi, Jianchun Chu, Sa Xue, Qiang Zhao, Xuandong Wu, Maogang He*. A New Phase-change Cooling Method for the Frequent Start-Stop Electric Motor. Applied Thermal Engibeering, 2021, 198(11): 117504     (WOS: 000701780700002; EI: 20213610859868)

[184]Tao Wang, Xiangyang Liu*, Hui Liu, Maogang He. Synergistic effect of supercritical water and Pt/Ni nano-particle on lignin gasification. International Journal of Hydrogen Energy, 2021, 46(70): 34626-34637      (WOS: 000709573300008; EI: 20213610853212)

[183]Yanjun Sun*, Qiming Wei, JianWang, Xiaopo Wang, Maogang He. Impact of oil presence on the evaporator enthalpy working with R1234ze(E) and R1234yf. International Journal of Refrigeration, 2021, 129(9): 153-162    (WOS: 000701780600016; EI: 20212510544247)

[182]Xinxin Zhang*, Shangyang Nie, Maogang He, Jingfu Wang. Charging system analysis energy consumption, and carbon dioxide emissions of battery electric buses in Beijing. Case Studies in Thermal Engineering, 2021, 26(8): 101197(11p)      (WOS: 000672543700008; EI: 20212710578126)

[181]Bai Lihang, Wang Tao, Weisensee Patricia, Liu Xiangyang, He Maogang*. Two-Binary -Interaction-Parameter Model for Molecular Solute + Ionic Liquid Solution. Industrial & Engineering Chemistry Research, 2021, 60(8): 11490-11501     (WOS: 000683727000053; EI: 20213110694080)

[180]Chenyang Zhu, Maogang He, Xiangyang Liu*, Georgios M. Kontogeorgis, Xiaodong Liang. Quantification of Dipolar Contribution and Modeling of Green Polar Fluids with the Polar Cubic-Plus-Association Equation of State. ACS Sustainable Chemistry & Engineering, 2021, 9(22): 7602-7619      (WOS: 000661302000021; EI: 20212510536421)

[179]Bo Song*, Pan Xu, Maogang He. Ultra-accurate thermophysical properties of helium-4 and helium-3 at low density. I. Second pressure and acoustic virial coefficients. Molecular Physics, 2021, 119(3): e1802525(8p)      (WOS: 000556068300001; EI: 20203209024866)

[178]Shahzad Aamir*, Kashif Muhammad, Munir Tariq, Martib Meher-Un-Nisa, Perveen Atia, He Maogang, Bashir Sajid.Calculations of uniaxial tensile strength of Al–Cu–Ni based metallic glasses using molecular dynamics simulations. Physica B: Condensed Matter, 2021, 602(2): 412566(7p)     (WOS: 000606831200007; EI: 20205109654719)

[177]Yuqi Su, Taotao Zhan, Xiangyang Liu, Maogang He, Zhang Ying*. Mutual diffusion coefficients of (isooctane + n–heptane) and (n–decane + n–heptane) from 288.15 K to 318.15 K.  The Journal of Chemical Thermodynamics, 2021, 157(6): 106401(8p)  (WOS: 000636211800005; EI: 20210609893763)

[176]Tian Lan, Chuanqi Yao, Xiangyang Liu*, Chengjie Wang, Maogang He. Measurements of critical properties of ethyl propionate with the gasoline components. Journal of Molecular Liquids, 2021, 322(1): 114801(7p)     (WOS: 000610834000063; EI: 20205109650247)

[175]Xiangyang Liu, Sa Xue, Rana Ikram, Chengyang Zhu, Yaohui Shi, Maogang He*. Improving the viscosity and density of n-butanol as alternative gasoline by blending with dimethyl carbonate. Fuel, 2021, 286(2): 119360(11p)(WOS: 000598730800002; EI: 20204309403782)

[174]Yanjun Sun*, Jian Wang, Xiaopo Wang, Maogang He, Yusheng Hu*. An experimental investigation and correlation of the viscosity refrigerant/oil solutions. International Journal of refrigeration, 2021, 121(1): 152-158     (WOS: 000599943100016; EI: 20205009611649)

[173]Zhu Chenyang, Liu Xiangyang, He Maogang*, Kontogeorgis M Georgios, Liang Xiaodong*. Heat Capacities of Fluids: The Performance of Various Equations of State. Journal of Chemical & Engineering Data, 2020, 65(12): 5654-5676      (WOS: 000599530800005; EI: 20202508845604)

[172]Xiangyang Liu, Tao Wang, Jianchun Chu, Maogang He*, Qibin Li*, Ying Zhang. Understanding lignin gasification in supercritical water using reactive molecular dynamics simulations. Renewable Energy, 2020, 161(12): 858-866     (WOS: 000572897000003; EI: 20203409064355)

[171]Aamir Shahzad*, Muhammad Kashif, Tariq Munir, Maogang He, Xin Tu. Thermal Conductivity Analysis of two-dimensional Complex Plasma Liquids and Crystals. Physics of Plasmas, 2020, 27(10): 103702-1-9     (WOS: 000578474100001; EI: 20204409422113)

[170]Aamir Shahzad*, Muhammad Kashif, Tariq Munir, Muhammad Asif Shakoori, Maogang He, Sajid Bashir, Qamar Ul Islam. Studies of weak external force on thermal conductivity of complex liquids using homogenous perturbed simulations. High temperature-High Pressure, 2020, 49(5-6): 461-478     (WOS: 000605969500008; EI: 20221611973756)

[169]Chengjie Wang, Tian Lan, Xiangyang Liu*, Ying Zhang, Maogang He. Developing predictive model for the critical properties of fuels containing esters based on the experimental study of methyl butanoate+alcohols+n-alkanes mixtures. Fuel, 2020, 278(10):118306-1-10      (WOS: 000559054000009; EI: 20202608866180)

[168]Chenyang Zhu, Xiangyang Liu, Sa Xue, Maogang He*. A Comprehensive Study on Thermophysical Properties of Carbon Dioxide through the CPA and Crossover CPA Equations of State. Journal of Chemical & Engineering Data, 2020, 65(9): 4268-4284  (WOS: 000571491400012; EI: 20202508845604)

[167]Qi Zhou, Taotao Zhan, Junshuai Chen, Maogang He, Ying Zhang*. Measurement of the Speed of Sound in n-Decane at Temperatures from (298.32 to 653.95) K and Pressures up to 10.0 MPa. The Journal of Chemical Thermodynamics, 2020, 148(9): 106127            (WOS:000550154200007; EI: 20201708507854)

[166]Zhang Ying, Zhan Taotao, Chen Junshuai, Li Xin, Zhou Qi, He Maogang*. Thermo-Acoustic Properties of (Ethanol plus n-Heptane) Binary Mixtures from 293.35 to 433.89 K and up to 5.0 MPa. Journal of Chemical & Engineering Data, 2020, 65(8): 3893-3905        (WOS:000562940600014; EI: 20203509104485)

[165]Tao Wang, Xiangyang Liu*, Chu Jianchun, Shi Yaohui, Lijian, Maogang He. Molecular Dynamics Simulation of Diffusion and Interaction of [bmim][Tf2N] and HFO-1234yf mixture. Journal of Molecular Liquids. 2020, 312(8):113390(5p)(WOS: 000559968600031; EI: 20202308789835)

[164] Xiangyang Liu, Manh Quang Nguyen, Jianchun Chu, Tian Lan, Maogang He*. A novel waste heat recovery system combing steam Rankine cycle and organic Rankine cycle for marine engine. Journal of Cleaner Production, 2020, 265(8): 121502(WOS:000540487400016; EI: 20201808591027)

[163]Liu Xiangyang, Wang Chengjie, Lan Tian, He Maogang*, Zhang Ying. Prediction of thermal conductivity for guiding molecular design of liquids. ACS Sustainable Chemistry & Engineering, 2020, 8(15): 6022-6032   (WOS:000526884000023; EI: 20202008659845)

[162]Taotao Zhan, Junshuai Chen, Xin Li, Qi Zhou, Maogang He, Ying Zhang*. Speed of sound for ethanol in vicinity of the critical point from Rayleigh-Brillouin light scattering spectroscopy. Fluid Phase Equilibrium, 2020, 515(7): 112585(8p)  (WOS: 000546651900006; EI: 20201608434909)

[161]Zhan, Taotao, Chen Junshuai, Li Xin, Zhou Qi, He Maogang, Zhang Ying*. Speed of Sound and Derivative Properties of Ethyl Laurate from Rayleigh-Brillouin Light Scattering Spectroscopy. Journal of Chemical & Engineering Data, 2020, 65(6): 3146-3160(WOS:000541740100023; EI: 20202308781596)

[160] Xiangyang Liu, Manh Quang Nguyen, Maogang He*. Performance analysis and optimization of an electricity-cooling cogeneration system for waste heat recovery of marine engine. Energy Conversion and Management, 2020, 214(6): 112887  (WOS:000534066900013; EI: 20203309050829)

[159]Song Chang, Xiangyang Liu*, Sa Xue, Maogang He. A new power/cooling cogeneration system using R1234ze(E)/ionic liquid working fluid. International Journal of Energy Research, 2020, 44(6): 4703-4716  (WOS: 000515664700001; EI: 20200908247747)

[158]Lianwang Lai, Xiangyang Liu*, Sa Xue, Jimin Xu, Maogang He, Ying Zhang. Extension of Ergun Equation for the calculation of the flow resistance in porous media with higher porosity and open-celled structure. Applied Thermal Engineering, 2020, 173(6): 115262(WOS:000526111200034; EI: 20201508396871)

[157]Yanjun Sun*, Gaolei Di, Jian Wang, Yusheng Hu*, Xiaopo Wang, Maogang He. Gaseous solubility and thermodynamic performance of absorption system using R1234yf/IL working pairs. Applied Thermal Engineering, 2020, 172(5): 115161   (WOS: 000500743800014; EI: 20201108288242)

[156]Taotao Zhan, Yuqi Su, Ying Zhang*, Xiangyang Liu, Maogang He. Mutual diffusion coefficients of ethanol + n–heptane and diethyl carbonate + n–heptane from 288.15 K to 318.15 K. The Journal of Chemical Thermodynamics, 2020, 144(5): 106089(8p)(WOS:000517501200022; EI: 20200808207935)

[155]Wang Tao, Liu Xiangyang*, He Maogang, Zhang Ying. Molecular dynamics simulation of thermophysical properties and condensation process of R1233zd(E). International Journal of Refrigeration, 2020, 112(4): 341-347   (WOS:000518847500031; EI: 20200608141295)

[154] Zhu Chenyang, Xue Sa, Ikram Rana, Liu Xiangyang, He Maogang*. Experimental Study on Isobaric Molar Heat Capacities of Deep Eutectic Solvent: Choline Chloride + Ethylene Glycol. Journal of Chemical & Engineering Data, 2020, In press (SCI: 000514221900038; EI: 20200508109317)
[153] Xiangyang Liu, Tian Lan, Chengjie Wang, Manh QuangNguyen, Ying Zhang, Maogang He*. Measurement of critical temperature and critical pressure of tert-butanol and alkane mixtures. Journal of Molecular Liquids, 2020, 302(3): 112582 (SCI: 000518870300086; EI: 20200608134272)
[152] Ying Zhang, Qi Zhou, Taotao Zhan, Junshuai Chen, Maogang He*. Measurement of the Speed of Sound in Supercritical n-Pentane at Temperatures from (422.69 to 653.53) K and Pressures from (3.5 to 10.0) MPa. Fluid Phase Equilibria, 2020, 507(3): 112390    (SCI: 000518705700011; EI: 20195007823450)

[151] Sun Yanjun, Di Gaolei, Wang Jian, Wang Xiaopo*, He Maogang. Phase behavior of R1234yf and R600a in pentaerythritol tetranonanoate. International Journal of Refrigeration, 2020, 109(1):135-142 (SCI: JT1FL; EI: 20193507385489)

[150] Ying Zhang, Junshuai Chen, Taotao Zhan, Xiangyang Liu, Maogang He*. Speed of Sound and Thermal Diffusivity of Ethyl Myristate. The Journal of Chemical Thermodynamics, 2020, 140(1): 105899 (SCI: IW6OW; EI: 20193507385489)

[149] Junshuai Chen, Qi Zhou, Taotao Zhan, Maogang He, Ying Zhang*. Measurement of Speed of Sound in Methyl Hexanoate from 297.83 to 588.07 K and up to 10 MPa. Journal of Chemical & Engineering Data, 2019, 6(12): 5698-5704 (SCI: JW5TT; EI: ???)

[148] Mohsin Ali Raza, Paul D. Hallett, Xiangyang Liu, Maogang He, Waheed Afzal*. Surface tension study for aqueous solutions of small-chain amino acids. Journal of Chemical & Engineering Data, 2019, 6(12): 5049-5056 (SCI:JW5TT; EI: ???)

[147] Jia Yuan, Su Chao, He Maogang, Liu Kun, Sun Hao, Lin Qiao*. Isothermal titration calorimetry in a 3D-printed microdevice. Biomedical Microdevices, 2019, 21(4): 96- 1-8 (SCI: ???; EI: 20194707699903)
[146] Xiangyang Liu*, Feng Yang, Jianchun Chu, Chenyang Zhu, Maogang He, Ying Zhang. General model based on artificial neuron network for estimating the viscosities of oxygenated fuels. ACS Omega, 2019, 4(9), 16564-16571 (SCI: JE0YW; EI: 2019)
[145] Ying Zhang, Taotao Zhan, Junshuai Chen, Xiangyang Liu, Maogang He*. Experimental investigation and modeling of thermophysical properties of ethyl decanoate at high temperatures. Fluid Phase Equilibria, 2019, 501(12): 112274 (SCI: JA8YS; EI: 20193507361370)

[144] Chengjie Wang, Muhammad Salman, Xiangyang Liu, Ying Zhang, Maogang He*. Critical properties for the mixtures of ethanol and biodiesel surrogates. The Journal of Supercritical Fluids, 2019, 153(11): 104591 (SCI:JF9DT; EI: 20193507362902)

[143] Lihang Bai, Siqi Liu, Zheng Ye, Maogang He*, Xiangyang Liu. Investigation on the Performance of R1234ze(E) in Absorption Refrigeration and Ejection Refrigeration Systems, Applied Thermal Engineering, 2019, 161(10):114120 (SCI: JB9FP; EI: 20193007240266)

[142] Taotao Zhan, Ying Zhang, Qi Zhou, Junshuai Chen, Xiangyang Liu, Maogang He*. Speed of Sound and Derived Properties of Ethyl Nonanoate. Journal of Chemical & Engineering Data, 497(10):97-103 (SCI: IN5JN ; EI: 20193307323060)
[141] Taotao Zhan, Ying Zhang, Junshuai Chen, Xiangyang Liu, Maogang He*. Measurement of the speed of sound in supercritical n-hexane at temperatures from (509.17 to 637.99) K and pressures from (3.5 to 7.5) MPa. Fluid Phase Equilibria, 2019, 497(10): 97- 103 (SCI: IN5JN; EI: 20192507071432)

 [140] Chen Junshuai, Zhang Ying, Zhan Taotao, Zhou Qi, Lan Tian, He Maogang*. Measurement of Speed of Sound in Methyl Caprylate from (298.22 to 608.38) K and  up to 10 MPa. Journal of Chemical & Engineering Data, 2019, 64(8): 3617-3623 (SCI:IQ1HO;EI:20193507361763)
[139] Xiangyang Liu, Manh Quang Nguyen, Sha Xue, Chang Song, Maogang He*. Vapor-Liquid Equilibrium and Diffusion Coefficient of Working Pairs Composed of [HMIM][BF4] and Fluorinated Propane for Absorption Refrigeration System. Int. J. Refrigeration, 2019, 104 (8): 34-41 (SCI: IO1DE; EI: 20192507061635)

[138] Xinxin Zhang*, Congtian Zhang, Maogang He, Jingfu Wang. Selection and Evaluation of Dry and Isentropic Organic Working Fluids used in Organic Rankine Cycle based on the Maximum Entropy Value near Critical Region on their Saturated Vapor Curve. Journal of Thermal Science, 2019, 28(4): 643-658 (SCI:IG3YT; EI: 20192407033535)

[137] Xiangyang Liu, Tao Wang, Maogang He*. Investigation on the condensation process of HFO refrigerants by molecular dynamics simulation. Journal of Molecular Liquids, 2019, 288(8): 111034-9 (SCI: IQ3PX; EI: 20192307017321)

[136] Shahzad A*, He MG, Ghani S, Kashif M, Munir T, Yang F. Crystalline order and disorder in dusty plasmas investigated by nonequilibrium molecular dynamics simulations. Chinese Physics B, 2019, 28(5): 055201-8 (SCI: HY7PJ; EI: 20192607105963)
[135] Lihang Bai, Maogang He *, Xiangyang Liu, Zheng Ye. A New activity Coefficient Model for the Solution of Molecular Solute + Ionic Liquid. Fluid Phase Equilibria, 2019, 493(4): 144-152 (SCI: IB5VC; EI: 20192607122303)
[134] Aamir Shahzad*, Muhammad Asif Shakoori, Mao-Gang He, Fang Yang. Dynamical Structure Factor of Complex Plasmas for Long Wave Vectors. Physics of Plasmas, 2019, 26(2): 023704(SCI: HN3OZ; EI: 20191006585540)

[133] Chenyang Zhu, Feng Yang, Xiangyang Liu, Maogang He*. Isobaric Molar Heat Capacities Measurement of Binary Mixture Containing Ethyl Laurate and Ethanol at High Pressures. Journal of Molcular Liquids, 2019, 280(4): 301-306 (SCI: HS8AG; EI: 20190806524164)
[132] Guangxuan Lu, Christian Robelin, Patrice Chartrand*, Maogang He, Kun Wang. Thermodynamic evaluation and optimization of the (LiCl + NaCl + KCl + MgCl2 + CaCl2 + CeCl3) system. Fluid Phase Equilibria, 2019, 487(5): 83-97 (SCI: HP1DW; EI: 20190506452852)

[131] Lihang Bai, Xiangyang Liu, Maogang He*. A new thermodynamic cycle of heat pump on excess enthalpy changing. Applied Thermal Engineering, 2019, 150(5): 605-611(SCI: HQ4YW; EI: 20190406401965)
[130] Chenyang Zhu, Feng Yang, Xiangyang Liu, Waheed Afzal, Maogang He*. Viscosity of Oxygenated Fuel: A Model Based on Eyring's Absolute Rate Theory. Fuel, 2019, 241(4): 218-226 (SCI: HL5IP; EI: 20185106259138)
[129] Zhang Ying, Zhan Taotao, Chen Junshuai, He Maogang*. Mutual diffusion coefficients of 3-methyl-1-butanol + n-heptane and 2-methyl-1-butanol + n-heptane from 288.15 K to 318.15 K. The Journal of Chemical Thermodynamics, 2019, 131 (4): 97-103 (SCI: HF8TO; EI: 20184506038782)
[128] Xiangyang Liu, Zheng Ye, Lihang Bai, Maogang He*. Performance comparison of two absorption-compression hybrid refrigeration systems using R1234yf/ionic liquid as working pair. Energy Conversion and Management, 2019, 181(2): 319-330 (SCI: HK8EI; EI: 20185106271114)

[127] Zhang Ying, Zhan Taotao, Chen Junshuai, Chen Yutian, He Maogang*. Speed of Sound Measurement of 1-Methoxy-2-propanol (PGMME) from (306.81 to 648.29) K and up to 10 MPa. Journal of Chemical & Engineering Data,2019, 64(1): 337−344    (SCI: HA0JM; EI: 20185206293432)

[126] Xiangyang Liu, Chenyang Zhu, Feng Yang, Chao Su, Maogang He*. Experimental and Correlational Study of Isobaric Molar Heat Capacities of Fatty Acid Esters: Ethyl Nonanoate and Ethyl Dodecanoate. Fluid Phase Equilibria, 2019, 479(1): 47-51 (SCI: HA0JM; EI: 20184105925469)

[125] Xiong Zheng, Mikhail A. Anisimov*, Jan V. Sengers, Maogang He. Unusual transformation of polymer coils in a mixed solvent close to the critical point. Physical Review Letters,2018, 212(20): 207802 (SCI: HA4XM; EI: 20184706113793)

[124] Chao Su, Chenyang Zhu, Tianwang Lai, Zheng Ye, Xiangyang Liu, Maogang He*. Temperature and pressure dependence of densities and viscosities for binary mixtures of methyl decanoate plus n-heptane. Thermochimica Acta, 2018, 670(12): 211-218 (SCI: HE0GT; EI: 20184606081904)

[123] Maogang He*, Chengjie Wang, Junshuai Chen, Xiangyang Liu. Prediction of the critical properties of mixtures based on group contribution theory. Journal of Molecular Liquids, 2018, 271 (12): 313-318 (SCI: HF6XM; EI: 20183705803024)

[122] Liu Xiangyang, Yang Feng, Lai Tianwang, Zhu Chenyang, He Maogang*. Densities and Viscosities of Mixtures of Methyl Dodecanoate + Ethyl Octanoate at Pressures up to 15 MPa. Journal of Chemical & Engineering Data, 2018, 63(11): 4085-4094 (SCI: HA0HQ; EI: 20184405998099)

[121] Hussain Muzammal, Naeem M Nawaz, Shahzad, Aamir*, He Mao-Gang, Habib Siddra. Vibrations of rotating cylindrical shells with functionally graded material using wave propagation approach. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 2018, 232(23): 4342-4356 (SCI: HD1ZZ; EI: 20184806152386)

[120] Wang Chengjie, Chen Junshuai, Salman Muhammad, Liu, Xiangyang, Zhang Ying, He Maogang*. Measurement of critical properties for binary and ternary mixtures containing n-butanol and n-alkane. Journal of Chemical & Engineering Data, 2018, 63(10): 3956- 3965 (SCI: GX1JB; EI: 20183905860517)

[119] Ying Zhang, Yutian Chen, Taotao Zhan, Yu Zheng, Xiong Zheng, Maogang He*. Measurement of thermal diffusivity for carbon dioxide (CO2) at T= 293.15 to 406.15 K and Pressures up to 11 MPa by Dynamic Light Scattering (DLS). Fluid Phase Equilibria, 2018, 474(10): 126-130 SCI: GS4YJ; EI: 20183005605324)

[118] Xiangyang Liu, Siqi Liu, Lihang Bai, TaoWang, Maogang He*. Absorption and separation of CO2/C3H8 and C3H6/C3H8 by ionic liquid: Effect of molar volume. Journal of Natural Gas Science & Engineering, 2018, 58(10): 266-274 (SCI: GT5BW; EI: 20183005594839)

[117] Ying Zhang, Yutian Chen, Yu Zheng, Xiong Zheng, Maogang He*. Measurement of thermal diffusivity for carbon dioxide (CO2) at T= 293.15 to 406.15 K and Pressures up to 11 MPa by Dynamic Light Scattering (DLS). Fluid Phase Equilibria, 2018, 474(10): 126-130. (SCI: GU0ES; EI: 20183005605324)

[116] Maogang He*, Siqi Liu, Lihang Bai, Xiangyang Liu. Propane/Propylene Separation and CO2 Capture in Magnetic Ionic Liquid [bmim][FeCl4]. Chemical  Engineering  Research and Design, 2018, 137(9): 186-193. (SCI: GW5DF; EI: 20183105638695)
[115] Maogang He*, Chengjie Wang, Junshuai Chen, Xiangyang Liu, Nan Xin, Ying Zhang. Measurement of critical properties for binary and ternary mixtures  containing  potential gasoline additive diethyl carbonate (DEC). Fluid Phase Equilibria, 2018, 471(9): 17-23. (SCI: GL3QK; EI: 20182005190541)

[114] Xiangyang Liu, Pei Pan, Feng Yang, Maogang He*. Solubilities and Diffusivities of R227ea, R236fa and R245fa in 1-Hexyl-3- methylimidazolium bis (trifluoromethylsulfonyl)imide. Journal of Chemical Thermodynamics, 2018, 123(8): 158-164.(SCI:GG3JN; EI: 20181705054500)
[113] Nan Xin, Chengjie Wang, Ying Zhang, Xiangyang Liu, Maogang He*. Determination of Critical Properties for Binary and Ternary Mixtures Containing Dimethyl Carbonate and Alkanes. The Journal of Supercritical Fluids, 2018, 137(7):40-49. (SCI: GE4DC; EI: 20181204930664)
[112] Shahzad A, Haider S I, Kashif M, Shifa MS, Munir T, He MG. Thermal Conductivity of Complex Plasmas Using Novel Evan-Gillan Approach. Communications in Theoretical Physics, 2018, 69(6): 704-710. (SCI: GK3TT)

[111] Chao Su, Chenyang Zhu, Feng Yang, Zheng Ye, Xiangyang Liu, Maogang He*. Isobaric Molar Heat Capacity of Ethyl Octanoate and Ethyl Decanoate at Pressures up to 24 MPa. J. Chem. Eng. Data, 2018, 63 (6): 2252-2256.(SCI: GJ8AZ; EI: 20182505348016)

[110] Maogang He*, Pei Pan, Yang Feng, Tao Wang, Xiangyang Liu.Gaseous absorption of trans-1-chloro- 3,3,3-trifluoropropene in three immidazolium-based ionic liquids. J. Chem. Eng. Data, 2018, 63(5): 1780-1788. (SCI: GF8GA; EI: 20182005209336)
[109] Maogang He*, Tianwang Lai, Xiangyang Liu. Measurement and correlation of viscosities and densities of methyl dodecanoate and ethyl dodecanoate at elevated pressures. Thermochimica Acta, 2018, 663(5): 85-92. (SCI: GL1ZE; EI: 20181404974795)
[108] Xiong Zheng, Mikhail A. Anisimov*, Jan V. Sengers, Maogang He. Mesoscopic Diffusion of Polyethylene Oxide in Pure and Mixed Solvents. J. Phys. Chem. B, 2018, 122(13): 3454-3464. (SCI: GC2QI; EI: 20181504999760)
[107] Nan Xin*, Yanjun Sun, Maogang He, Clayton J Radke, John M Prausnitz. Solubilities of Six Lithium Salts in Five Non-aqueous Solvents and in a Few of their Binary Mixtures. Fluid Phase Equilibria, 2018, 461 (4): 1-7. (SCI:GA1SH; EI: 20181204919079)

[106] Xiangyang Liu, Pei Pan, Maogang He*. Vapor-Liquid Equilibrium and Diffusion Coefficients of R32 + [HMIM][FEP], R152a + [HMIM][FEP] and R161 + [HMIM] [FEP] . Journal of Molecular Liquids, 2018, 253(3): 28-35. (SCI: FX9II; EI: 20180204643418)

[105] He Maogang, Zhu Chenyang, Liu Xiangyang*. Estimating the Viscosity of Ionic Liquid at High Pressure Using Eyring's Absolute Rate Theory. Fluid Phase Equilibria, 2018, 458(2): 170-176. (SCI: FT2VK; EI: 20174704448694)

[104] Ying Zhang, Yutian Chen, Yu Zheng, Xinxin He, Maogang He*. Measurements of the speed of sound in liquid and supercritical n-octane and isooctane. J. Chem. Eng. Data, 2018, 63(1): 102-112. (SCI: FT0KG; EI: 20180304652871)

[103] Janzen T, Zhang, S, Mialdun, A, Guevara-Carrion G,Vrabec J*, He MG, Shevtsova V*. Mutual diffusion governed by kinetics and thermodynamics in the partially miscible mixture methanol plus cyclohexane. Physical Chemistry Chemical Physics, 2017,19(47): 31856-31873.(SCI: FP0MO)

[102] Liu, Xiangyang, Liu Siqi, Bai Lihang, He Maogang*. Measurement and correlation of the solubilities of oxygen, nitrogen and carbon dioxide in JP-10. J. Chem. Eng. Data, 2017, 62(11): 3998-4005. (SCI: FM6DY; EI: 20174604400423)

[101] Ying Zhang, Shi Zhang, Sanguo Peng, Maogang He*. Diffusion coefficient of 10- methylphenothiazine and dimethyl carbonate mixture from 288.15 K to 313.15 K. Thermochimica Acta, 2017, 656: 32-37. (SCI:FM2LS; EI: 20173504100752)

[100] Tan Haoshu, Song Xinzhou, Zhang Ying, He Maogang*. The Mass and Heat Transfer Process through the Door Seal of Refrigeration. Chinese Journal of Chemical Engineering, 2017, 25: 1115-1119.  (SCI: FG8ML; EI: 20173104015943)

[99] Aamir Shahzad*, Mao-Gang He, Syed Irfan Haider, Yan Feng. Studies of force field effects on thermal conductivity of complex plasmas. Physics of Plasmas, 2017, 24(9), 093701: 1-13.(SCI: FI6LK; EI: 20173304053424)

[98] Xiangyang Liu, Tianwang Lai, Xudong Guo, Maogang He*, Wei Dong, Tansu Shang, Weiping Yang. Densities and Viscosities of Ethyl Heptanoate and Ethyl Octanoate at Temperatures from 303 to 353 K and at Pressures up to 15 MPa. J. Chem. Eng. Data, 2017, 62(8): 2454-2460. (SCI:FD6RW; EI:20173304048900)

[97] Ying Zhang, Xinxin He, Yutian Chen, Maogang He*. Mutual diffusion coefficients of n-butanol + n-heptane and n-pentanol + n-heptane from 288.15 K to 318.15 K. Journal of Chemical Thermodynamics, 2017, 113(10): 192-197. (SCI: FE1NM; EI: 20172503809217)

[96] Maogang He*, Yang Liu, Xiangyang Liu. Prediction of the Critical Temperature and Critical Pressure of Multi-component Mixtures.Fluid Phase Equilibria , 2017, 441 (6):2-8    (SCI: EU9TH; EI: 20170103224181)

[95] Maogang He*, Sanguo Peng, Xiangyang Liu, Pan Pei. Diffusion Coefficients and Herry’ Constant of Hydrofluorocarbons in [HMIM][Tf2N], [HMIM][TfO], and [HMIM][BF4]. Journal of Chemical Thermodynamics. 2017, 112: 43-51. (SCI: EU9TH; EI: 20171703 606724)

[94] Muzamal hussain, Muhammad Naeem, Aamir Shahzad*, Mao-Gang He. Vibrational behavior of single-walled carbon nanotubes based on cylindrical shell model using wave propagation approach. AIP Advance, 2017, 7(4): 045114-1-14.  (SCI: ET6IX; EI: 20171603580656)

[93] Maogang He*, Qian Zhang, Xiangyang Liu, Jiangtao Yun. Fouling formed on SS316L tube surface from thermal oxidative degradation of exo-tetrahydrodicy-clopentadiene. Applied Thermal Engineering. 2017, 118(5): 464-470. (SCI: EU2SN; EI: 20171103432756) 

[92] Xiangyang Liu, Chenyang Zhu, Chao Su, Maogang He*, Wei Dong, Tansu Shang, Weiping Yang. Isobaric Molar Heat Capacities of Binary Mixtures Containing Methyl Caprate and Methyl Laurate at at Pressures up to 16.2 MPa. Thermochimica Acta, 2017, 651(5): 43-46.  (SCI:EW0XC; EI: 20170903404810)

[91] Zhang Ying, Zheng Xiong, Chen Yutian, He Maogang*. Thermal Diffusivity of 2-Ethoxy -2-Methylpropane (ETBE) and 2-Methoxy-2-Methylbutane (TAME) at Temperatures from (293 to 523) K and Pressure up to 10 MPa. Journal of Chemical & Engineering Data. 2017, 62(3):893-901.      (SCI: EN9BO; EI: 20171203466212)

[90] Xiangyang Liu, Chenyang Zhu, Maogang He*, Zhang Ying. Correlation for Viscosities of Pure Liquids at High Pressures. Journal of Molecular Liquids, 2017, 231(4):404-410.   (SCI: ES4LR; EI: 20170803364479)

[89] Ying Zhang, Xiong Zheng, Maogang He*, Lili Liang, Yutian Chen. Speed of sound measurements of di-isopropyl ether (DIPE) from 293.15 K to 673.15 K and up to 10  MPa. Journal of Chemical Thermodynamics. 2017, 104(1):1-8. (SCI:EC2XE; EI:20163702806939)
[88]  Maogang He*, Xiong Zheng, Ying Zhang, Yutian Chen. Measurement of speed of sound and thermal diffusivity of ethyl heptanoate using light scattering method. Fluid Phase Equilibria. 2017, 431(1):75-81. (SCI:ED3XC; EI:20163702806939)
[87] Qian Zhang, Maogang He*, Xiangyang Liu. Isobaric heat capacities of exo- tetrahydrodicyclopentadiene at temperature from 323K to 523Kand pressure up to 6MPa. Fluid Phase Equilibria , 2017, 434(1): 102-106. (SCI: EI8SS; EI:20165003103507)

[86] Zhangyang Kang, Maogang He*, Guangxuan Lu, Ying Zhang. A density model based on the Modified Quasichemical Model and applied to the (LiCl + KCl +CsCl)   liquid. CALPHAD: Computer Coupling of Phase Diagrams and Thermochemistry, 2016, 55(12): 208-218. (SCI:EG0MF; EI:20164903102120)

[85] Zhang Ying, Zheng Xiong, He Maogang*, Chen Yutian. Speed of Sound in Methyl Caprate, Methyl Laurate, and Methyl Myristate: Measurement by Brillouin light scattering and Prediction by Wada’s Group Contribution Method. Energy & Fuels. 2016, 30 (11): 9502- 9509.  (SCI:EC8YK; EI:20164803052863)
[84] Liu Xiangyang, Bai Lihang, Liu Siqi, He Maogang*. Vapor-liquid equilibrium of R1234yf/[HMIM][Tf2N] and R1234ze(E)/[HMIM][Tf2N] working pairs for absorption refrigeration cycle. Journal of Chemical & Engineering Data. 2016, 61(11): 3952-3957. (SCIEB9SW; EI:)
[83] Aamir Shahzad,Mao-Gang He*. Structural Order and Disorder in Strongly Coupled Yukawa Liquids. Physics of Plasmas. 2016, 23(9), 093708:1-10.   (SCI:DZ1WU; EI:20164102881904)

[82] Guangxuan Lu, Maogang He*, Zhangyang Kang. Study on surface tension and surface phase of molten MCl-CeCl3 (M=Li, Na, K, Cs): a comparison of Butler’s equation and a newly-proposed model. Fluid Phase Equilibria, 2016, 427(11): 345-352. (SCI:DW8ZO; EI:20163202701255)

[81] Zhang Ying, Zheng Xiong, He Maogang*, Chen Yutian. Speed of Sound Measurements of 2-Methoxy-2-methylpropane (MTBE) in the Temperature range of (293.15 and 673.15) K and for Pressures up to 10 MPa. Journal of Chemical & Engineering Data. 2016, 61 (9): 3127-3134. (SCI: ; EI:20163702807236)

[80] Ying Zhang, Xiong Zheng, Maogang He*, Yutian Chen. Measurement of thermal diffusivity and speed of sound of dibutyl ether from 303.15 K to 688.15 K and up to 7.5MPa. Fluid Phase Equilibria, 2016, 427(11): 320-327. (SCI:DW8ZO; EI20163402723651) 

[79] Chao Su, Xiangyang Liu, Chenyang Zhu, Maogang He*. Isobaric molar heat capacity of 1-ethyl-3-methylimidazolium acetate and 1-hexyl-3-methylimidazolium acetate up to 16MPa. Fluid Phase Equilibria, 2016, 427(11):187-193. (SCI:DW8ZO;  EI:20163002633972)

[78] Maogang He*, Nan Xin, Chengjie Wang, Yang Liu, Ying Zhang, Xiangyang Liu. Experimental Determination of Critical data of Multi-component Mixtures Containing Potential Gasoline Additives 2-butanol by a Flow-type Apparatus. Journal of Chemical Thermodynamics. 2016, 101(10): 35-43. (SCI:DS4LA; EI:20162202449912)

[77] Xiong Zheng, Ying Zhang, Maogang He*. Speed of sound measurement in ethyl tert-butyl ether and tert-amyl methyl ether by Brillouin light scattering. Fluid Phase Equilibria, 2016, 418(6): 108-118. (SCI:DM7MD; EI:20161702305535)

[76] Zhangyang Kang, Christian Robelin, Maogang He, Patrice Chartrand. Thermodynamic evaluation and optimization of the (KF+YF3), (KCl+YCl3) and (YF3 +YbF3) binary systems. Journal of Chemical Thermodynamics. 2016, 98(7): 242-253. (SCI:DK8UJ; EI:20161502220596)
[75] Liu Xiangyang, Nan Lv, Lihang Bai, He Maogang*. Solubilities of propane and cyclopropane in 1-hexyl-3- methylimidazolium tris (pentafluoroethyl) trifluorophosphate. International Journal of Refrigeration, 2016(6): 69-76. (SCI:DQ1HK; EI:20161902368345)

[74] Xiong Zheng, Ying Zhang, Maogang He*, Lili Liang and Xinxin He. Speed of Sound Measurement and Prediction of Ethyl hexanoate and Ethyl octanoateat Temperatures from (293.15 to 473.15) K and Pressures from (0.1 to 10) MPa. Journal of Chemical Thermodynamics. 2016, 97(6):1-8. (SCI:DI4SE; EI:20160501865939) 

[73] Xiangyang Liu, Maogang He*, Nan Lv, Houda Xu. Selective absorption of CO2 from H2, O2 and N2 by 1-hexyl-3-methylimidazolium tris(pentafluoroethyl) trifluorophosphate. The Journal of Chemical Thermodynamics. 2016, 97(6):48-54. (SCI:DI4SE; EI:20160701926808)
[72] Liu Xiangyang, Lv Nan, Su Chao, He Maogang*. Solubilities of R32, R245fa, R227ea and R236fa in a phosphonium-based ionic liquid. Journal of Molecular Liquids, 2016, 218(6): 525-530. (SCI:DN1BF; EI:20161102096357)

[71] Maogang He*, Sanguo Peng, Ying Zhang, Shi Zhang, Xiangyang Liu. Mutual Diffusion Coefficients of Isopropanol + n-Heptane and Isobutanol + n-Heptane. Journal of Chemical Thermodynamics, 2016, 96(5):127-133. (SCI:DC0JR; EI:20160401838085)

[70] Sanguo Peng, Shi Zhang, Ying Zhang, Xiangyang Liu, Maogang He*. Mutual Diffusion Behavior of Short Chain Alcohols + n-Octane Mixtures. Thermochimica Acta, 2016, 624(1):1-7. (SCI:DE8VN; EI:20155201709914)

[69] Xiong Zheng, Ying Zhang, Maogang He*. Measurement of the Speed of Sound in Hexane and Heptane at Temperatures from (303.15 to 536.15) K and Pressures from (1.0 to 8.5) MPa. Journal of Chemical & Engineering Data, 2016, 61(2):701-711. (SCI:DD8YH; EI:20160902008107)

[68] Nan Xin, Yang Liu, Xudong Guo, Xiangyang Liu, Ying Zhang, Maogang He*. Determination of Critical Properties for Binary and Ternary Mixtures Containing Propanol and Alkanes Using a Flow View-type Apparatus. The Journal of Supercritical Fluids, 2016, 108 (2): 35-44. (SCI:CZ0IW; EI:20154601541654)

[67] Xiangyang Liu, Chao Su, Xuetao Qi, Maogang He*. Isobaric heat capacities of ethyl heptanoate and ethyl cinnamate at pressures up to 16.3 MPa. Journal of Chemical Thermodynamics, 2016, 93(2):70-74. (SCI:CY0EJ; EI:20154201386101)

[66] He Maogang*, Liu Yang, Xin Nan, Zhang Ying, Liu Xiangyang. Measurement of the Critical Properties of the Ternary Systems Hexane + Heptane + Octane and Octane + Nonane + Decane Using a Flow Apparatus. Journal of Chemical & Engineering Data, 2016, 61(1):12-18. (SCI:DB5OX; EI:20160501855914)
[65] Xiangyang Liu, Chao Su, Xuetao Qi, Maogang He*. Isobaric heat capacities of ethyl heptanoate and ethyl cinnamate at pressures up to 16.3 MPa. Journal of  
Chemical Thermodynamics, 2016, 93(2):70-74. (EI: 20154201386101)

[64] He Maogang*, Liu Yang, Xin Nan, Zhang Ying, Liu Xiangyang. Measurement of the Critical Properties of the Ternary Systems Hexane + Heptane + Octane and Octane + Nonane + Decane Using a Flow Apparatus. Journal of Chemical & Engineering Data, 2016, 61(1):12-18. (SCI:DB5OX; EI:20160501855914)

[63] Zhang Xinxin, Kobayashi Noriyuki, He Maogang, Wang Jingfu. An organic group contribution approach to radiative efficiency estimation of organic working fluid. Applied Energy,  2016, 162 (1): 1205-1210. (SCI:DA2MX; EI:20153501219934)

[62] Aamir Shahzad, Mao-Gang He. Numerical experiment of thermal conductivity in two-dimensional Yukawa liquids. Physics of Plasmas, 2015, 22(12): 123707-9.   (SCI:DA0AZ; EI:20160101763507)

[61] Aamir Shahzad, Mao-Gang He. Calculations of thermal conductivity of complex (dusty) plasmas using homogenous nonequilibrium molecular simulations. Radiation Effects & Defects in Solids, 2015, 170(9): 758-770. (SCI:CX4CQ; EI:20154801603039)

[60] Shi Zhang, Maogang He*, Ying Zhang, Sanguo Peng, Xinxin He. Study of measurement for diffusion coefficient by digital holographic interferometry. Applied Optics, 2015, 54(31): 9127-9135. (SCI:CV7LY; EI:20161802329309)
[59] Shahzad Aamir, He Mao-Gang. Homogeneous Nonequilibrium Molecular Dynamics Evaluation of Thermal Conductivity in 2D Yukawa Liquids. International 
Journal  of Thermophysics, 2015, 36(10): 2565-2576.
[58] Aamir Shahzad, Mao-Gang He. Nonlinear Effects of Dusty Plasmas using Homogenous Nonequilibrium Molecular Dynamics Simulations. Journal of Applied 
Nonlinear Dynamics, 2015, 4(3): 259-265. (EI: IP53250364)
[57] Xiangyang Liu, Xuetao Qi, Nan Lv, Maogang He*. Gaseous absorption of ?uorinated ethanes by ionic liquids. Fluid Phase Equilibria, 2015, 405(11): 1-6. 
(SCI: CS2WW; EI: 20152901047878)
[56] Maogang He*, Nan Xin, Yang Liu, Ying Zhang. Determination of Critical Properties for Binary and Ternary Mixtures of Short Chain Alcohols and Alkanes Using a
 Flow Apparatus. The Journal of Supercritical Fluids, 2015, 104(6): 19-28. (SCI: CS0TV; EI:20160201801664)
[55] Xiangyang Liu, Maogang He*, Chao Su, Xuetao Qi, Nan Lv. Heat Capacities of Fatty Acid Methyl Esters from 300 K to 380 K and up to 4.25 MPa. Fuel, 2015, 157
(10):240-244. (SCI: CJ0AV; EI: 20152100869288)
[54] Liu Xiangyang, He Maogang*, Lv Nan, Qi Xuetao, Su Chao. Solubilities of Isobutane and Cyclopropane in Ionic Liquids. Journal of Chemical Thermodynamics,
2015, 88(9):30-35. (SCI: CJ0GM; EI: 20151800802352)
[53] Maogang He*, Xuetao Qi, Xiangyang Liu, Chao Su, Nan Lv. Estimating the Viscosity of Pure Refrigerants and Their Mixtures by Free-Volume Theory. International 
Journal of Refrigeration, 2015, 54(5):55-66. (SCI: CM5CO; EI: 20152200883777)
[52] M.G. He*, S. Zhang, Y. Zhang, S.G. Peng. Development of measuring diffusion coefficients by digital holographic?interferometry in transparent liquid mixtures. 
Optics Express, 2015, 23(9):10884-10899. (SCI: CH9EB; EI: 20154101370052)
[51] Liu Xiangyang, He Maogang*, Lv Nan, Qi Xuetao, Su Chao. Vapor-Liquid Equilibrium of Three Hydrofluorocarbons with [HMIM][Tf2N]. Journal of Chemical &
 Engineering Data, 2015, 60(5):1354-1361. (SCI: CI6ZF; EI: 20152100864641)
[50] Maogang He*, Chao Su, Xiangyang Liu, Xuetao Qi, Nan Lv. Measurement of Isobaric Heat Capacity of Pure Water up to Supercritical Conditions. The Journal of 
Supercritical Fluids, 2015, 100 (5):1-6. (SCI: CH0RI; EI: 20151100646195)
[49] Maogang He*, Guangxuan Lu, Zhangyang Kang, Ying Zhang. Thermodynamic assessment of the LiCl-KCl-CeCl3 system. CALPHAD: Computer Coupling of 
Phase Diagrams and Thermochemistry, 2015, 49(6): 1-7. (SCI: CI8SO; EI: 20150800562337)
[48] Xiangyang Liu, Maogang He*, Nan Lv, Xuetao Qi, Chao Su. Solubilities of R-161 and R-143a in 1-Hexyl-3-methylimidazolium bis(trifluoromethylsulfonyl)imide. 
Fluid Phase Equilibria, 2015, 388(2): 37-42. (SCI: CB8KP; EI: 20150200404691)
[47] Xinxin Zhang, Noriyuki Kobayashi, Maogang He. Radiative Efficiency Estimation of Organic Substance Based on Group Contribution Method. Energy Procedia, 
2014,61(12): 492-495. (EI: 20145100330949)
[46] Maogang He*, Chao Su, Xiangyang Liu, Xuetao Qi. Isobaric Heat Capacity of Boric Acid Solution. Journal of Chemical & Engineering Data, 2014,?59?(12): 4200-
4204. (SCI: AW5OP; EI: 20145100330949)
[45] Zhang Ying, Wang Sheng, He Mao-Gang*. Modified 2CLJDQP model and the second virial coefficients for linear molecules. Chinese Physics B,2014,23
(12):125101-1-8. (SCI: AX1HI; EI: 20145000308404)
[44]  Guangxuan Lu, Maogang He*, Zhangyang Kang, Ying Zhang. Thermodynamic assessment of MCl-YCl3 (M=Na, K, Cs) systems. Calphad, 2014, 47: 63-67.
  (SCI: AW4AT; EI: 20143318057148)

[43] Aamir Shahzad, Arffa Aslama, Mao-Gang He. Equilibrium molecular dynamics simulation of shear viscosity of two-dimensional complex (dusty) plasmas. Radiation Effects & Defects in Solids, 2014,169(11): 931-941. (SCI: AY0MU)

[42] Maogang He*, Chao Su, Xiangyang Liu, Xuetao Qi. Isobaric heat capacity of boric acid solution. Journal of Chemical and Engineering Data, 2014, 59(12): 4200-4204. (SCI: AW5OP)

[41] Libin Chen, Ying Zhang, Sheng Wang, Xiong Zheng, Maogang He*. Thermal diffusivity of 2-Methoxy-2-methylpropane at temperature from (303.15-493.15)K and  pressures from (1.5 to 10) MPa. Journal of Chemical and Engineering Data, 2014, 59(11): 3927-3931. (SCI: AT5IR; EI: 20150200411123)

[40] Liu Yang, Zhang Ying, He Maogang*, Xin Nan. Determination of the Critical Properties of C6-C10 n-Alkanes and Their Binary Systems Using a Flow Apparatus.

       Journal of Chemical & Engineering Data, 2014, 59(11): 3852?3857. (SCI: AT5IR; EI: 20150200411379)
[39] Sheng Wang, Ying Zhang, Maogang He*, Xiong Zheng, Libin Chen. Thermal diffusivity and speed of sound of saturated pentane from light scattering,

        International Journal of Thermophysics, 2014,35(8):1450-1464. (SCI: AR9WB; EI: 201443122817)
[38] Mao-Gang He*, Xin-Zhou Song, Huan Liu, Ying Zhang. Application of Natural Refrigerant Propane and Propane/Isobutane in Large Capacity Chest Freezer.

        Applied Thermal Engineering, 2014, 70(1): 732-736. (SCI: AO6LU; EI: 20142717884889)
[37] Zhang Xinxin, He Maogang, Wang Jingfu. A new method used to evaluate organic working fluids. Energy, 2014, 67(4): 363-369.  (SCI: AE7BN; EI:

        20141217481238)
[36] Sheng Wang, Ying Zhang, Maogang He*, Shi Zhang, Xiong Zheng. Thermal diffusivity of di-isopropyl ether (DIPE) in the temperature range 298-530 K and

        pressure  up to 10 MPa from dynamic light scattering (DLS). Fluid Phase Equilibria, 2014, 376: 202-209. (SCI: AN1JR; EI: 20142817917692)

[35] Xiangyang Liu, Waheed Afzal, Maogang He, John M. Prausnitz. Solubilities of small hydrocarbons, viscosities of diluted tetraalkylphosphonium bis(2,4,4-

        trimethylpentyl) phosphinayes. AiChe Journal, 2014, 60(7): 2607-2612.  (SCI: AJ5BL; EI: 20142417826817)
[34] Yang Liu, Ying Zhang, Maogang He*. Determination of the critical properties of C6-C10 n-Alkanes and their binary systems using a flow apparatus. Journal of

       Chemical and Engineering Data, 2014, 59(11): 3852-3857. (SCI: AT5IR)

[33] Ying Zhang, Sheng Wang, Maogang He*. Modified 2CLJDQP model and the second virial coefficients for linear molecules. Chinese Physics B, 2014, 23(12):

        125101     (SCI: AX1HI)

[32] Xinxin Zhang, Maogang He, Jingfu Wang. A new method used to evaluate organic working fluids. Energy, 2014, 67: 363-369. (SCI: AE7BN)

[31] Aamir Shahzad, Arffa Aslam, Maogang He*. Equilibrium molecular dynamics simulation of shear viscosity of two-dimensional complex (dusty) plasmas.

        Radiation Effects and Defects in Solids, 2014, 169(11): 931-941. (SCI: AY0MU)

[30]  Maogang He*, Xinzhou Song, Huan Liu, Ying Zhang. Application of natural refrigerant propane and propane/isobutane in large capacity chest freezer. Applied

        Thermal Engineering, 2014, 70(1): 732-736. (SCI: AO6LU)

[29]  Sheng Wang, Ying Zhang, Maogang He*, Xiong Zheng, Libin Chen. Thermal diffusivity and speed of sound of saturated pentane from light scattering.

         International Journal of Thermophysics, 2014, 35(8): 1450-1464. (SCI: AR9WB)

[28]    X.F. Wang, M.G. He, K. Lv, H.L. Fan, A. M. Jacobi. Effects of liquid supply method on falling-film mode transitions on horizontal tubes. Journal of Heat Transfer

          Engineering, 2013, 34(7): 562-579. (SCI:077HE; EI:20130315902721) 

[27]    Aamir Shahzad, Mao-Gang He*, Kai He. Diffusion Motion of Two-Dimensional Weakly Coupled Complex (Dusty) Plasmas. Physica Scripta. 2013, 87(3): 035501

          (8pp). (SCI: 093LS; EI:20130916072747) 

[26]    Xiangyang Liu, Waheed Afzal, Guangren Yu, Maogang He, John M. Prausnitz.High Solubilities of Small Hydrocarbons in Trihexyl Tetradecylphosphonium Bis

           (2,4,4- trimethylpentyl) Phosphinate. The Journal of Physical Chemistry B, 2013, 117(36): 10534-10539.(SCI:296BX; EI:20133816767222)

[25]   Xinxin Zhang, Maogang He*, Ying Zhang. A review of research on the Kalina cycle. Renewable and Sustainable Energy Reviews, 2012, 16(7): 5309-5318.

         (SCI: 994CZ; EI: 20123215323841)

[24]   Yajing Yang, Maogang He*. Thermodynamic cycle analysis of ramjet engines using magnesium-based fuel. Aerospace Science and Technology. 2012, 22(1):

         75-84. (SCI: 031SW; EI: 20124215579861)

[23]   Xiangyang Liu, Maogang He*, Ying Zhang. Viscosity of water in the region around the critical point. Journal of Supercritical Fluids, 2012, 63(3): 150-154.

         (SCI: 912NI; EI: 20121014831253)

[22]   Maogang He*, Xinxin Zhang, Ke Zeng, Ke Gao. Acombined thermodynamic cycle used for waste heat recovery of internal combustion engine.l Energy, 2011, 36

          (12): 6821-6829. (SCI: 873OZ; EI: 20115014595992)

[21] Maogang He*, Ying Guo, Qiu Zhong, Ying Zhang. Determination of Binary Gas Diffusion Coefficients Using Digital Holographic Interferometry[J]. Journal of

         Chemical and Engineering Data, 2010, 55 (9): pp 3318–3321. (SCI: 646TX; EI: EI20103713236717) 

[20] Zhang Ying, He Maogang*. Kinematic Viscosity of R410A and R407C Refrigerant-oil Mixtures in the Saturated Liquid Phase with Lubricant Mass Fraction in the
        Range (0 to 0.0001)[J]. Journal of Chemical and Engineering Data, 2010, 55(8): 2886-2889. (SCI: 636JC; EI: 20103713233221)
[19]  Maogang He*, Ying Guo, Qiu Zhong, Ying Zhang. A New Correlation on Predicting Self and Mutual Diffusion Coefficient. Fluid Phase Equilibria, 2010, 291(2):
         166-173. (SCI: 585CQ; EI: 20101012754800)
[18] Zhang, Xin-Xin, Zeng, Ke, He Mao-Gang*. New Technology of Thermodynamic Cycle for Waste heat Recovery of Vehicle Gasoline Engine. Proceedings of 2009
        Asia-Pacific Power and Energy Engineering Conference (APPEEC 2009). March 27-31, 2009, Wuhan, China. (SCI/ISTP: BLL94; EI: 20093512276569)
[17]  Qiu Zhong, Maogang He*, Ying Guo, Ying Zhang. Mass Diffusion Coefficients of Oxygenated Fuel Additives in Diesel Oil and in Heptane at T (276 to 333) K[J].
         Journal of Chemical and Engineering Data, 2009, 54(6): 1666-1671. (SCI: 458LC; EI: 20093012220343)
[16] Ying Guo, Maogang He*, Qiu Zhong, Ying Zhang. Mass Diffusion Coefficients of Oxygenated Fuel Additives in Air[J]. Energy, 2009, 34(10): 1560-1564. (SCI:
        386HP; EI: 20093612291078)
[15]   Maogang He*, Ying Guo, Qiu Zhong, Ying Zhang. Mutual Diffusion Coefficients of Diethyl Carbonate and Diethyl Adipate in Heptane at T=(278.15 to 338.15) K
          under Atmospheric Pressure[J]. Journal of Chemical and Engineering Data, 2009, 54(11): 3101-3103. (SCI: 516YP; EI: 20095312584656)
[14]   Maogang He*, Ying Guo, Qiu Zhong, Ying Zhang. A New Method of Processing Mach-Zehnder Interference Fringe Data in Determination of Diffusion Coefficient
          [J]. International Journal of Thermophysics, 2009, 30(6): 1823-1837. (SCI: 530TY; EI: 20100312646915)
[13]  Y Yang, M He*. A Theoretical Investigation of Thermodynamic Performance for a Ramjet based on a Magnesium-water Reaction[J]. Proceedings of the Institution
         of Mechanical Engineers. Part M, Journal of engineering for the maritime environment. 2009, 224(1): 61-72. (SCI: 613QG; EI: 20100612699473)
[12]  Mao-Gang He*, Qiu Zhong, Ying Zhang, Zhi-Gang Liu. Measurement of Mass Diffusion Coefficients Using Digital Image Holographic Interferometry System[J].
         High Temperatures-High Pressures, 2008, 37(1): 61-70.
[11]  Maogang He*, Ying Zhang, Qiu Zhong, Rong Xue, Xinxin Zhang, Zhigang Liu, Jiyou Fei. Thermophysical Properties of 1,1,1,2-Tetrafluoroethane (CH2FCF3)
         Refrigerant-Oil Mixtures in the Saturated Liquid Phase with Lubricant Concentration in the Range (0 to 100) ppm[J]. Journal of Chemical Engineering Data,
         2008, 53(3): 710-715. (SCI: 274NV; EI: 083911590152)
[10] Song X. Zh., He M. G.*, Zhang X. X., Zhang Y., Zhang J. T. Optimization Design and Experimental Study of Chest Refrigerator Using a New Tandem Double-
        Capillary Tube Refrigeration System[C]. In: Proc. of ICCR’2008, Shanghai, April 5-9, 2008, pp 514-520. Published by Scince Press, Beijing. (SCI/ISTP: BHW98)
[9]   Zhang Y, He MG*, Xue R, Wang XF, Zhong Q, Zhang XX. A new method for liquid viscosity measurements: Inclined-tube viscometry[J]. International Journal of
        Thermophysics, 2008, 29(2): 483-504. (SCI: 302ZW; EI: 082211279054)
[8]   He Mao-Gang*, Yang Ya-Jing, Zhang Ying, ZhangXinxin. Theoretical Estimation of the Isobaric specific Heat cp with Equation of State for Pure and Mixing
        Refrigerants[J]. Applied Thermal Engineering, 2008, 28 (14-15): 1813-1825. (SCI: 336LQ; EI: 082911380811)
[7]   Ying Guo, Maogang He*, Qiu Zhong Ying Zhang. Mass Diffusion Coefficients of Dimethyl Carbonate in Heptane and in Air at T = (278.15 to 338.15) K[J]. Journal of
       Chemical and Engineering Data, 2008, 53(12): 2861-2864. (SCI: 383EV; EI: 090611894946)
[6]   Mao-Gang He*, Tie-Chen Li, Zhi-gang Liu, Ying Zhang. Testing of the Mixing Refrigerants HFC152a/HFC125 in Domestic Refrigerator[J]. Applied Thermal
        Engineering, 2005, 25(8): 1169-1181. (SCI: 904MV; EI: 05078843515)
[5]   He M. G.*, Liu Z. G., Yin J. M. Measurement of Speed of Sound with a Spherical Resonator: HCFC-22, HFC-152a, HFC-134a and Propane[J]. International Journal
       of Thermophysics, 2002, 23(6): 1599-1615. (SCI: 607KT; EI: 04198149112)
[4]   He Mao-Gang*, Liu Zhi-Gang, Yin Jian-Min. New Equation of State for Transport Properties: Calculation for the Thermal Conductivity and the Viscosity of
        Halogenated Hydrocarbon Refrigerants[J]. Fluid Phase Equlibria, 2002, 201(2): 309-320. (SCI: 564FA; EI: 02327048783)
[3]   He Mao-gang*, Liu Zhi-gang. Speed of Sound Measurements in Gaseous Binary Refrigerant Mixtures of Difluoroethane(HFC152a)+Difluoromethane(HCFC22) with a Spherical Resonator[J]. Fluid Phase Equlibria, 2002, 198(2): 185-193. (SCI: 589EA; EI: 02246976883)
[2]   Maogang He*, Zhigang Liu. Measurement of the Universal Gas Constant R with a Spherical Resonator[J]. Acta Physica Sinica, 2002, 51(5): 1004-1010. (SCI: 550PR; EI: 02397117089, 04057994313)

[1]   He Maogang*, Liu Zhigang, Liang Deqing. Vapor-liquid Equilibria of the Binary System HFC134a/HCFC133a[J]. Journal of Chemical and Engineering Data, 2001,  46(1): 144-146. (SCI: 393YW; EI: 01025528930) 

 

[95]张恒飞,占涛涛,何茂刚,张颖*. 正丁醇+正庚烷二元系音速测量及其过量等熵压缩率计算. 工程热物理学报,2023,44(4):857-862   (EI: 20233314538576)

[94]张颖, 宿禹祺, 陈俊帅, 张勇博, 何茂刚*. 氢气传感器研究的进展与展望. 科学通报,2023,68(2-3):204-219   (SCIE:000916025600007;EI: 20230613560329)

[93]贾秀璨,路程,王晓坡,何茂刚. 低 GWP 制冷剂/[P66614][Cl]工质对的压缩辅助吸收式制冷循环性能分析. 制冷学报,2023,44(1):35-42

[92]宿禹祺,占涛涛,张颖,何茂刚*. 乙醇水溶液的互扩散系数实验测量与理论计算. 工程热物理学报,2022,43(12):3192-3197   (EI: 20225213299840)

[91]李健,王拴来,侯坤,刘向阳*,何茂刚. R1234yf和R1234ze(E)在低黏度离子液体[DEME][TFSI]中的溶解度. 工程热物理学报,2022,43(12):3123-3128   (EI: 20225213299290)

[90]朱晨阳,刘向阳,何茂刚,陈光进*.基于 Eyring 绝对速率理论的流体混合物黏度推算. 化工学报,2022, 73(11): 4826-4837   (EI: 20225213296421)

[89]亢泽阳,刘向阳,何茂刚*,张颖.  Li2CO3-Na2CO3-K2CO3相图的理论预测. 太阳能学报,2022,43(1):284-287   (EI: 20220711643016)

[88]占涛涛,李欣,陈俊帅,何茂刚,张颖*. 利用乙醇音速计算其它热力学性质. 工程热物理学报,2021,42(12):3091-3097 (EI: 20215111358517)

[87]刘旻昀,黄彦平*,唐佳,臧金光,赵学斌,黄善仿,何茂刚,张 博. 超临界流体物性畸变特性的多尺度研究. 原子能科学技术,2021,55(11):1921-1929  (EI: 20214611143654)

[86]李 敏*,王晓坡,刘向阳,何茂刚,任晓影. 含硼溶液黏度密度及比定压热容实验研究. 化工学报,2021,49(10):59-62+73

[85]吕 凯, 王 妍, 王春燕, 刘向阳*, 马汀山, 何茂刚. 基于“汽电双驱技术”的大型燃煤发电机组优化方法. 热科学与技术,2021,20(4):372-379

[84]王晓坡*, 杜家浩, 陈建林, 何茂刚. 不同制冷剂/离子液体工质对的吸收式制冷循环性能分析. 中南大学学报(自然科学版), 2021, 52(6): 1817-1825(EI: 20213010685619)

[83]薛飒,刘辉,刘向阳,何茂刚*. 添加碳酸二甲酯改善正丁醇汽油热物性的研究. 工程热物理学报,2021,42(6):1390-1395  EI: 20212610549844)

[82]周琦,占涛涛,张颖,何茂刚*. 碳酸二甲酯液相音速测量与理论估算. 热科学与技术,2020,19(6):518-523

[81]白里航,李健,刘向阳,何茂刚*. 工质对过量焓对吸收式制冷效率的影响. 西安交通大学学报,2020,54(10):131-136(EI: 20204309383113)

[80]蓝天,占涛涛,张颖,何茂刚*. 月桂酸乙酯的液相音速测量. 热科学与技术,2020,19(4): 390-393

[79] 卢广轩, 赖添旺, 何茂刚*,刘向阳. LiCl-NaCl-KCl相图的实验测量和热力学优化. 科学通报,2020,65(7): 641-638 (WOS:000546968100011 EI: 20201608479742)
[78] 周琦,占涛涛,张颖,何茂刚*. 碳酸二甲酯液相音速测量与理论估算. 热科学与技术,2020,19(6)518-523

[77] 张颖,何欣欣,占涛涛,何茂刚*. 液相互扩散系数实验系统的改进. 热科学与技术,2020,19(1): 1-6

[76] 郑雄,何茂刚*,张颖,Mikhail A. Anisimov,jan V. Sengers. 聚环氧乙焼在水和叔丁醇溶液中分子构型变化的研究. 工程热物理学报,2020(1): 7-11

[75] 王韬,刘向阳,何茂刚*. 离子液体[bmim][Tf2N]的分子动力学模拟. 化工学报,2019, 70(S2): 258-264
[74] Nguyen Manh Quang,刘向阳,何茂刚*. R1233zd(E)在[HMIM][PF6]中的溶解度和扩散系数的实验测量和理论计算. 化工学报,2019,70(S2): 44-49
[73] 陈俊帅,张颖,占涛涛,何茂刚*. 癸酸乙酯的液相音速测量与理论估算. 化工学报,2019,2019, 70(S2): 31-36
[72] 朱晨阳,杨峰,刘向阳,何茂刚*. 高压肉豆蔻酸甲酯比定压热容的实验测量. 化工学报, 2019, 70(S2): 15-19
[71] 杨峰,朱晨阳,刘向阳,何茂刚*. 高压壬酸乙酯比定压热容的实验测量与关联. 热科学与技术,2019,18(1): 16-20

[70] 白里航,刘思琦,刘向阳,何茂刚*. R1234ze(E)/[HMIM][TfO]吸收式制冷系统热力学性能的研究. 工程热物理学报,2018,39(12):1-5 (EI: 20191006589011)
[69] 何欣欣,张颖,张诗,何茂刚*. 10–甲基吩噻嗪在碳酸二甲酯溶液中的扩散系数测量. 工程热物理学报. (已录用)

[68] 张颖,郑宇,何茂刚*. 对利用动态光散射测量颗粒粒径和液体黏度的改进. 物理学报,2018,67(16):167801(1-7)  (SCI: GS2MT EI: 20184806161694)
[67]  张颖,张诗,何茂刚*. 数字全息干涉法测量二元溶液互扩散系数. 化工学报,2018,69(9):3774-3782
[66] 朱晨阳,刘向阳,何茂刚*. 基于绝对速率理论的高压液体黏度模型. 工程热物理学报,2018,39(7):1-5  (EI: 20184906203948) 
[65] 何茂刚*,王成杰,辛楠,刘洋,刘向阳. 碳酸二甲酯与烷烃混合物的临界性质.工程热物理学报,2018,39(6):1181-1185  (EI: 20184105915821)
[64] 刘思琦,刘向阳,何茂刚*. O2在庚酸乙酯中的溶解度测量. 热科学与技术,2018,17(1):68-72
[63] 陈玉田,张颖,郑雄,何茂刚*. 癸酸甲酯、月桂酸甲酯和肉豆蔻酸甲酯的液相音速测量. 化工学报,2017,68(11): 4054-4060 (EI: 20180304652871)
[62] 邢诗雨,贺永东*,曾慧楠,李志军,刘向阳,何茂刚. 铜熔体覆盖保护与熔炼损耗机制研究. 稀有金属,2017,41(6): 684-692 (EI: 20174104263036)

[61] 刘向阳,白里航,何茂刚*. R-1234yf在[HMIM][Tf2N]中的溶解度. 热科学与技术,2017,16(3): 201-205
[60] 何茂刚*,白里航,刘思琦,刘向阳,贺永东. CO2在正戊醇中溶解度和体积传质系数. 化工学报,2017,68(5):1780-1785 (EI: 20173704160886)
[59] 刘向阳,朱晨阳,何茂刚*. 一种适用于烷烃高压液相黏度的推算模型. 工程热物理学报,2017,38(5):930-936 (EI: 20172703878227)
[58] 曾慧楠,贺永东*,邢诗雨,李志军,刘向阳,何茂刚. Cu-Zn合金熔炼损耗与蒸发过程的动力学研究. 稀有金属,2017,41(3): 267-275 (EI: 20172303744021)
[57] 赵风君,贺永东*,刘向阳,李志军,何茂刚. 木条与高温铝液作用对铝液中形成氢和氧化铝夹杂的影响研究. 轻金属,2017,(1):31-37
[56] 张程武,贺永东*,陈楚,邢诗雨,曾慧楠,刘向阳,何茂刚,李志军. 不同覆盖剂对纯铜熔炼保护效果研究. 铸造技术,2017,38(1):122-127
[55] 贺永东*,陈楚,曾慧楠,李志军,刘向阳,何茂刚. 阳极效应对电解铝液中氧化铝夹杂形成过程的影响机理研究. 稀有金属,2017,41(1): 64-71

      (EI:20170803378563)
[54] 何茂刚*,卢广轩,康张阳,刘向阳. ACl-CeCl3 (A=Li,Na,K,Cs)体系表面张力的计算. 工程热物理学报,2017,38(1):1-5 (EI: 20171003422201)
[53] 何茂刚*, 何欣欣, 张颖等. 马赫–曾德尔干涉法测量液体折射率的改进 [J]. 热科学与技术,2016, 15(6): 1–6
[52] 何茂刚,郑雄,张颖,陈玉田,何欣欣. 三种脂肪酸甲酯音速测量与相关热物理性质推算. 化工学报,2016,67(12):4922-4928. (EI:20165103150209)

[51] 刘向阳,苏超,何茂刚. [EMIM][AC]在高压下的比定压热容. 工程热物理学报,2016,37(10):2048-2051. (EI:20164402959918)
[50] 郑雄,陈玉田,张颖,何欣欣,梁俐俐,何茂刚. 三种脂肪酸乙酯音速的实验测量与理论估算. 化工学报,2016,67(7):2679-2684. (EI:20164402973761)
[49] 何茂刚,彭三国,张颖,张诗,刘向阳. 两种短链醇与叔丁醇的互扩散系数. 工程热物理学报,2016,37(4):701-704. (EI:20161802339419)

[48] 刘向阳,齐雪涛,何茂刚. 含氧燃料黏度的理论推算模型. 工程热物理学报,2016,37(3):471-474. (EI:20161802339327)

[47] 张颖,何茂刚,王升,郑雄. 利用自发布里渊散射测量液体声速. 物理学报,2015,64(3):037801-7. (SCI: CD1VH; EI: 20150700525440)

[46] 郑雄,张颖,王升,梁俐俐,何茂刚. 自发布里渊散射法异丙醚音速的实验测量. 工程热物理学报,2015, 36(9): 1874-1878

[45] 何茂刚,齐雪涛,刘向阳,苏超. 制冷剂及其混合物黏度的计算. 工程热物理学报,2015, 36(6): 1186-1190

[44] 何茂刚,康张阳,卢广轩. 高温LiF-NaF-BeF2熔融体系活度系数和混合焓计算. 工程热物理学报,2014,35(11):2140-2144.

[43] 张倩,郑雄,何茂刚,张颖. 橡胶聚合物在碳氢溶剂中的膨胀特性. 西安交通大学学报,2014,48(11):75-80. (EI: 20144900285689)

[42 ] 刘向阳,苏超,贺凯,何茂刚. 高温高压水比定压热容的实验测量. 工程热物理学报,2014,35(5): 844~847. (EI: 20142717894386)

[41] 霍明,王晓坡,何茂刚. 硼酸溶液汽液相平衡实验研究. 热科学与技术,2015,14(4):323-325

[40] 宋星佑,苏超,刘向阳,何茂刚. 不同浓度配比硼酸溶液比定压热容的实验测量. 热科学与技术,2015,14(3):250-254

[39] 何茂刚,辛楠,刘洋,张颖. 三元混合物正己烷/正庚烷/正辛烷的临界性质测量. 热科学与技术,2015,14(2):1-6

[38] 刘向阳, 苏超, 贺凯, 何茂刚. 高温高压水比定压热容的实验测量[J]. 工程热物理学报, 2014, 35(5): 844-847. (EI: 20142717894386)

[37] 张倩, 何茂刚, 郑雄, 张颖. 橡胶聚合物在碳氢溶剂中的膨胀特性[J]. 西安交通大学学报, 2014, 48(11): 75-80.  (EI: 20144900285689)

[36] 刘向阳,何茂刚,张颖. 基于自由体积理论和跨接方程的黏度推算模型[J]. 工程热物理学报,2013,34(1): 23-26. (EI: 20130916060525)

[35] 张颖,钟秋,何茂刚. 空气在含氧燃料及其添加剂混合物中的质扩散系数测量[J]. 工程热物理学报,2012, 33(7):1109-1113. (EI:20123315344933)

[34] 吕凯,王小飞,何茂刚,张颖. 水平蒸发管管间相邻液柱分离间距测量[J]. 化工学报,2012,63(3):740~745.  (EI:20121314899706)

[33] 王升,张颖,何茂刚. 线型分子势能函数及第二维里系数计算[J]. 工程热物理学报,2012,33(2):199-202. (EI:20120914812669)

[32] 张颖,吕凯,王小飞,何茂刚. 布液方式对水平蒸发管管间流型转换影响的实验研究[J]. 西安交通大学学报,2012,46(1):19~24. (EI:20120714767026)

[31] 刘向阳,何茂刚,张颖. 高温高压流体在线毛细管黏度测量[J]. 工程热物理学报,2011,32(8): 1283-1285. (EI:20113714322564)

[30] 张颖,何茂刚,刘洋. R410A和R407C饱和液相运动黏度测量[J]. 工程热物理学报,2011,32(6):925~928. (EI:20112514079434)

[29] 张颖, 何茂刚, 刘洋, 郭盈. 基于对比态原理的常压气体黏度推算方程[J]. 工程热物理学报, 2010, 30(1): 9-12. (EI: 20110813693204)
[28] 何茂刚, 郭盈, 钟秋, 张颖. 一种新的二元Lennard-Jones链式流体互扩散系数计算公式[J]. 西安交通大学学报, 2010, 31(3): 1-5. (EI: 20101712897013)
[27] 何茂刚, 郭盈, 钟秋, 张颖. 激光全息干涉法测量二元气体扩散系数[J]. 工程热物理学报, 2010, 31(3): 369-372. (EI: 20101612868680)
[26] 何茂刚, 范华亮, 王小飞, 吕凯. 水平管外降膜流动的膜厚测量和数值模拟[J]. 西安交通大学学报, 2010, 31(9): 1-5. (EI: 20104213309466)
[25] 张新欣, 何茂刚, 曾科, 张颖. 发动机余热利用蒸气动力循环的工质筛选[J]. 工程热物理学报, 2010, 31(1): 15-18. (EI: 20100512677884)
[24] 杨亚晶, 何茂刚, 徐厚达. 水冲压发动机的热力性能分析[J]. 推进技术, 2009, 30(2): 240-245. (EI: 20091912076926)
[23] 何茂刚, 张新欣, 曾科. 适用于车用发动机余热回收的新型联合热力循环[J]. 西安交通大学学报, 2009, 43(11): 1-5. (EI: 20095012535716)
[22] 杨亚晶, 何茂刚, 徐厚达. 水冲压发动机的热力循环性能预示[J]. 推进技术, 2009, 30(4): 474-478. (EI: 20093712305153)
[21] 何茂刚, 郭盈, 钟秋, 张颖. 一种新的Lennard-Jones链式流体自扩散系数计算公式[J]. 西安交通大学学报, 2009, 43(9): 1-4. (EI: 20094512429440)
[20] 杨亚晶, 何茂刚, 张颖. 制冷剂比定压热容的推算理论研究[J]. 化学工程, 2008, 36(3): 43-46. (EI: 081711223462)
[19] 杨亚晶, 何茂刚, 张颖. 制冷剂比定压热容的计算分析[J]. 化学工程, 2008, 36(5): 48-50. (EI: 082611337845)
[18] 郭盈, 何茂刚, 钟秋, 张颖. 全息干涉计量技术中条纹图像处理方法研究[J]. 仪器仪表学报, 2008, 29(z4): 314-318. (EI: 20090711905823)
[17] 郭盈, 何茂刚, 张颖, 钟秋. 迈克尔逊干涉法测量流体质扩散系数的实验研究[J]. 仪器仪表学报, 2008, 29(z4): 364-368. (EI: 20090711905834)
[16] 王小飞, 何茂刚, 张颖. 水平管降膜蒸发器管外液体流动数值模拟[J]. 工程热物理学报, 2008, 29(8): 1347-1350. (EI: 083311459646)
[15] 何茂刚, 张颖, 费继友, 钟秋, 薛榕, 刘志刚. 含油制冷剂R134a饱和液相运动黏度及表面张力实验测量[J]. 西安交通大学学报, 2008, 42(9): 1065-1069. (EI: 084211646869)
[14] 何茂刚, 郭盈, 钟秋, 张颖. 傅立叶变换相位检测原理在流体质扩散全息干涉图处理中的应用[J]. 西安交通大学学报, 2008, 42(11): 1350-1355. (EI: 084911767978)
[13] 薛榕, 何茂刚, 张颖, 杨亚晶. 常用制冷工质稠密流体的粘度推算方法[J]. 工程热物理学报, 2008, 29(12): 1601-1605. (EI: 085111792133)
[12] 何茂刚, 王小飞, 张颖. 制冷用水平管降膜蒸发器的研究进展及新技术(第五届全国制冷空调会议特邀报告)[J]. 化工学报, 2008, 59(S2): 23-28. (EI: 20091011942409)
[11] 何茂刚, 宋新洲, 张颖, 张建涛. 双毛细管卧式冷藏冷冻箱制冷循环的有效能分析[J]. 制冷学报, 2007, 28(2): 42-47.
[10] 张颖, 何茂刚, 贾真, 刘逊. Kalina循环的热力学第一定律分析[J]. 动力工程, 2007, 27(2): 218-222. (EI: 071910595052)
[9] 何茂刚, 张颖, 王小飞, 钟秋, 李惠珍. 倾斜管式液体粘度测量方法理论及实验研究[J]. 工程热物理学报, 2007, 28(3): 382-384. (EI: 072410652510)
[8] 何茂刚, 范德勤, 吕士济, 刘志刚. 毛细管中R22替代制冷剂流动特性的实验研究[J]. 工程热物理学报, 2007, 28(Suppl. 1): 21-24. (EI: 073410776525)
[7] 何茂刚,刘逊, 张颖, 刘志刚. 数字全息干涉法流体质扩散系数实验研究[J]. 工程热物理学报, 2007, 28(Suppl. 1): 69-72. (EI: 073410776536)
[6] 杨亚晶, 何茂刚, 张颖. 混合制冷剂比定压热容的理论推算[J]. 化学工程, 2007, 35(10): 42-45. (EI: 074710937380)
[5] 吕士济, 何茂刚, 范德勤, 刘志刚. 替代制冷剂在绝热毛细管中流动过程的数值计算[J]. 工程热物理学报, 2006, 27(3): 365-368. (EI: 06249938763)
[4] 曾科, 高可, 何茂刚, 黄佐华. 提高车用发动机能量利用率研究进展[J]. 车用发动机, 2006, (06): 1-4.
[3] 何茂刚, 李铁辰, 刘志刚. 新型冰箱制冷剂三氟甲醚与异丁烷的性能对比[J]. 工程热物理学报, 2004, 25(1): 21-24. (EI: 04108053209)
[2] 何茂刚, 李铁辰, 刘志刚. 二甲醚作为冰箱制冷剂的实验研究[J]. 西安交通大学学报, 2004, 38(3): 1-5. (EI: 04258227602)
[1] 何茂刚, 李铁辰, 刘志刚. 混合制冷剂冰箱对比试验研究[J]. 工程热物理学报, 2004, 25(4): 550-553. (EI: 04398378707)

 

发明专利:
--------------------------------------------------------

[30]刘向阳,褚健淳,何茂刚. 基于限幅器的神经网络训练方法及其应用。发明专利号:ZL 2020 1 1567835.7

[29]张颖,占涛涛,张恒飞,星洪伟,张勇博,何茂刚.一种基于涡街效应的流量传感与能量收集装置及其方法。发明专利号:ZL 202110202043.8

[28]张颖,占涛涛,李欣,张勇博,张恒飞,何茂刚.一种同时测量流体音速与折射率的方法及装置。发明专利号:ZL 202110730224.8

[27]刘向阳,刘辉,何茂刚. 一种混合基质膜自动增氧口罩及其制备方法。发明专利号:ZL 202111525412.3

[26]张颖,宿禹祺,何茂刚,刘向阳. 适合全浓度范围的二元混合物互扩散系数测量方法。发明专利号:ZL 202110084313.X

[25]刘向阳,付泽祺,何茂刚. 一种基于图像处理的溶气液体密度测量装置及方法。发明专利号:ZL 202110856501.X

[24]张颖,占涛涛,张恒飞,宿禹祺,张勇博,何茂刚. 一种基于摩擦纳米发电机的密度传感器装置及其方法。发明专利号:ZL 202110202024.X

[23]刘向阳,付泽祺,何茂刚. 一种基于气液相变的发电厂空冷换热器及方法。发明专利号:ZL 202011572817.8

[22]张颖,占涛涛,何茂刚. 基于摩擦纳米发电机的温度一体化传感器及传感方式。发明专利号:ZL 202011012668.X

[21]胡宇,刘向阳,何茂刚. 一种能自动跟踪游泳者的溺水救助装置. 发明专利号:ZL 20191074 0764.7

[20]张颖,何茂刚,占涛涛,陈俊帅,刘向阳.一种同时测量二元系热扩散率和互扩散系数的装置及方法. 发明专利号:ZL 201911024938.6

[19]刘向阳,褚健淳,赖添旺,何茂刚,张颖. 一种基于丁胞的电机通风冷却结构及风冷电机. 发明专利号:ZL 201910707692.6

[18]刘向阳,朱晨阳,杨峰,何茂刚,张颖. 一种适用于测量溶气流体比定压热容的方法及装置。发明专利号:ZL 201811641403.9

[17]刘向阳,何茂刚,MANH QUANG NGUYEN,张颖. 一种船舶发动机的余热利用系统及方法. 发明专利号:ZL 201811643100.0

[16]刘向阳,叶铮,何茂刚,张颖. 一种二氧化碳朗肯循环动力系统及其操作方法。发明专利号:ZL 201910458473.9

[15]刘占斌, 刘向阳, 李明佳, 何茂刚, 何雅玲, 姜涛. 一种高压大流量气体实验用多种气源供给装置:发明专利号:ZL201911151348.X

[14] 张颖,占涛涛,何茂刚. 一种基于纳米发电机的压力式温度计及其测量方法: 中国, ZL 201910920165.3. 2020年

[13] 刘向阳,王成杰,张颖,何茂刚. 一种基于集团贡献理论集预测混合物临界性质的方法: 中国, ZL 201810564142.9. 2020年

[12] 张颖,何茂刚,刘向阳,张诗,郑宇. 一种适用于测量二元溶液互扩散系数的装置及方法: 中国, ZL 201711425090.5. 2020年

[11] 何茂刚,辛楠,张颖,刘向阳. 张诗. 一种圆管材料导热系数测量系统及相应的测量方法: 中国, ZL 201610847217.5. 2019年

[10] 何茂刚,刘向阳,彭三国,张颖. 变体积恒压下气体在液体中扩散系数的测量装置及方法: 中国, ZL 201710007459.8. 2019年

[9] 何茂刚,辛楠,张诗,张颖,刘向阳. 一种薄壁圆管材料导热系数计算方法: 中国, ZL 201610847147.3. 2019年

[8] 张颖,何茂刚,刘向阳,郑宇.一种适用于测量流体近临界区域黏度的装置及方法: 中国, ZL 201710632837.1.  2019年

[7]  何茂刚,刘向阳,张颖,朱晨阳,辛楠,魏显贵,朱明成,张灿海.一种塔式太阳能光热与光伏联合发电系统: 中国, ZL201610438138.9. 2018年

[6] 刘向阳,何茂刚,张颖,白里航,彭三国. 一种测量气体在液体中溶解度的变体积定压装置及办法: 中国, 201610140912.8. 2018年.

[5] 何茂刚, 张新欣, 曾科, 张颖. 一种适用于车用发动机余热回收的热力循环系统: 中国, 200810232218.4, 2010年.

[4] 何茂刚, 张颖. 一种适用于高压下及低沸点物质液相黏度的测量方法: 中国, 200610105252.6. 2010年.

[3] 何茂刚, 王小飞, 张颖. 一种带有导流装置和二次布液装置的水平管降膜蒸发器: 中国, 2007100119012.9. 2009年.

[2] 何茂刚, 张颖. 采用波纹管作为容积式压缩机工作腔体的方法: 中国, 200410073473.0. 2008年.

[1] 付羲, 何茂刚, 张颖. 多点温度控制燃气器具意外熄火的安全保护方法: 中国, 200510041875.7. 2007年.

 


软件著作权:
--------------------------------------------------------

11.软件著作权:二氧化碳导热系数计算软件[简称:CO2DRXSJSCX]V1.0. 软件著作开发者:张颖,占涛涛,杨枚洁,刘向阳,何茂刚. 登记号:2021SR1264562

10.软件著作权:二氧化碳热扩散率计算软件[简称:CO2RKSLJSCX]V1.0. 软件著作开发者:张颖,占涛涛,杨枚洁,刘向阳,何茂刚. 登记号:2021SR1263746

9.软件著作权:水蒸气热物性快速计算软件V1.0. 软件著作开发者:刘向阳,朱晨阳,薛飒,何茂刚. 登记号:2021SR0612822

8.软件著作权:铅铋合金热物理性质计算软件[简称:铅铋合金热物性计算]V1.0. 软件著作开发者:刘向阳,徐济民,付泽祺,李健,张颖,何茂刚. 登记号:2021SR0262662

7.软件著作权:铅铋合金相图预测软件V1.0. 软件著作开发者:刘向阳,亢泽阳,何茂刚,张颖. 登记号:2021SR0270108

6.软件著作权:通风冷却式电机热流场计算软件V1.0. 软件著作开发者:刘向阳,薛飒,王奕然,何茂刚. 登记号:2021SR0058534

5.软件著作权:跨/超临界二氧化碳热物性计算软件V1.0. 软件著作开发者:刘向阳,朱晨阳,薛飒,何茂刚. 登记号:2021SR0058533

4.软件著作权:二氧化碳和水二元混合物的热物性计算软件V1.0. 软件著作开发者:刘向阳,朱晨阳,薛飒,何茂刚. 登记号:2021SR0058513

3.软件著作权:流体互扩散系数激光数字全息干涉法图像处理软件[简称:流体互扩散系数图像处理软件]V1.0. 软件著作开发者:张颖,占涛涛,宿禹琪,何茂刚. 登记号:2020SR0962401

2. 软件著作权:二氧化碳热力学性质和迁移性质计算软件[简称:二氧化碳热物性计算软件]V1.0. 软件著作开发者:陈玉田,张颖,何茂刚. 登记号:2018SR128102

1.  软件著作权:光热发电系统及子系统能量效率和火用效率计算软件[简称:光热发电系统效率计算软件]V1.0 . 软件著作开发者:何茂刚,辛楠,刘向阳. 登记号:2016SR155286