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{| class="wikitable" style="float:right; margin: -10px 0px 10px 20px; text-align:left" |<center>''' 陈龙祥 '''<br><img src=" https://xjzz.fzu.edu.cn/__local/6/C1/79/9F658242426ADB7481F61396787_79235F73_1E29A.png?e=.png " width="180"></center><small>[https://xjzz.fzu.edu.cn/info/1015/1102.htm 福州大学先进制造学院与海洋学院] </small> |} '''陈龙祥''',男,福州大学先进制造学院与海洋学院教授。 ==人物简历== 2019.01- 至今 中国科学院海西研究院,泉州装备制造研究所,副研究员 2015.07-2018.12 中国科学院海西研究院,泉州装备制造研究所,助理研究员 2011.09-2015.06中国科学技术大学,工程热物理,工学博士 2007.09-2011.06中国科学技术大学,热能和动力工程系,工学学士 ==社会兼职== Applied Energy,Energy,Energy Conversion & Management审稿人 ==研究领域== 制冷工质热物性推算与测量、基于SPH雾化仿真、工业节能技术研究以及新能源储能系统优化设计。 ==科研课题== 国家自然科学青年基金项目,51706221,含HFO混合工质的临界性质和超临界PVTx性质研究,2018/01-2020/12,23万,在研,主持 福建省青年基金项目,2017J05143,低GWP混合工质热物性研究,2017/04-2020/03,3万,结题,主持 ==学术成果== 1. Jing R, Xie MN, Wang FX, Chen LX*. Fair P2P energy trading between residential and commercial multi-energy systems enabling integrated demand-side management. Appl Energy 2020;262:114551. (SCI 一区) 2. Chen LX, Hu P, Sheng CC, Zhang N, Xie MN, Wang FX. Thermodynamic analysis of three ejector based organic flash cycles for low grade waste heat recovery. Energy Convers Manag 2019;185:384–95. (SCI 一区) 3. Chen LX, Hu P, Zhao PP, Xie MN, Wang FX. Thermodynamic analysis of a High Temperature Pumped Thermal Electricity Storage ( HT-PTES ) integrated with a parallel organic Rankine cycle ( ORC ). Energy Convers Manag 2018;177:150–60. (SCI 一区) 4. Chen LX, Xie MN, Zhao PP, Wang FX, Hu P, Wang DX. A novel isobaric adiabatic compressed air energy storage (IA-CAES) system on the base of volatile fluid. Appl Energy 2018;210:198-210. (SCI 一区)Chen LX, Hu P, Zhao PP, Xie MN, Wang DX, Wang FX.A novel throttling strategy for adiabatic compressed air energy storage system based on an ejector. Energy Convers Manag 2018;158:50–9. (SCI 一区) 5. Chen LX*, Hu P, Sheng CC, Xie MN. A novel compressed air energy storage (CAES) system combined with pre-cooler and using low grade waste heat as heat source. Energy 2017;131: 259-266. (SCI 一区) 6. Chen LX, Hu P, Zhu WB, Jia L, Chen ZS. Vapor–liquid equilibria of fluoroethane (HFC-161) +2,3,3,3- tetrafluoroprop-1-ene (HFO-1234yf). Fluid Phase Equilib 2015;392:19–23. 7. Hu P, Chen LX, Chen ZS. Vapor–liquid equilibria for binary system of 2,3,3,3-tetrafluoroprop-1-ene (HFO-1234yf) + isobutane (HC-600a). Fluid Phase Equilib 2014;365:1–4. 8. Hu P, Chen LX, Zhu WB, Jia L, Chen ZS. Isothermal VLE measurements for the binary mixture of 2,3,3,3-tetrafluoroprop-1-ene (HFO-1234yf) + 1,1-difluoroethane (HFC-152a). Fluid Phase Equilib 2014;373:80–3. 9. Hu P, Chen LX, Zhu WB, Jia L, Chen ZS. Vapor−liquid equilibria for the binary system of 2,3,3,3-tetrafluoroprop-1-ene (HFO-1234yf) + 1,1,1,2,3,3,3-heptafluoropropane (HFC-227ea). Fluid Phase Equilib 2014;379:59–61. 10. Hu P, Chen LX, Chen ZS. Vapor–liquid equilibria for the 1,1,1,2-tetrafluoroethane (HFC-134a) + 1,1,1,2,3,3,3-heptafluoropropane (HFC-227ea) and 1,1,1-trifluoroethane (HFC-143a) + 2,3,3,3-tetrafluoroprop-1-ene (HFO-1234yf) systems. Fluid Phase Equilib 2013;360:293–7. 11. Hu P, Chen LX, Chen ZS. A modified differential-model for interaction parameters in PR EoS with vdW mixing rules for mixtures containing HFCs and HCs. Fluid Phase Equilib 2012;324:64–9. 12. Zhi L-H, Hu P, Chen L-X, Zhao G. Multiple parametric analysis, optimization and efficiency prediction of transcritical organic Rankine cycle using trans-1,3,3,3-tetrafluoropropene (R1234ze(E)) for low grade waste heat recovery. ENERGY Convers Manag 2018;180:44–59. 13. Zhi LH, Hu P, Chen LX, Zhao G. Viscosity prediction for six pure refrigerants using different artificial neural networks. Int J Refrig 2018;88:432–40. 14. Zhang GW, Hu P, Chen L, Liu M. Experimental and simulation investigation on heat transfer characteristics of in-tube supercritical CO 2 cooling fl ow. Appl Therm Eng 2018;143:1101–13. 15. Cai XD, Zhang N, Chen LX, Hu P, Zhao G, Liu MH. Gaseous PvTx measurements of HFO-1234yf + HFC-32 binary mixture by single-sinker magnetic suspension densimeter. Fluid Phase Equilib 2018;460:119-125. 16. Hu P, Cai XD, Chen LX, Xu H, Zhao G. pvT Properties of 2,3,3,3-Tetrafluoroprop-1-ene (HFO-1234yf) in the Gaseous Phase. J Chem Eng Data 2017;62:3353–9. 17. Hu P, Zhang N, Chen LX, Cai XD. Vapor−Liquid Equilibrium Measurements for 2,3,3,3-Tetrafluoroprop-1-ene + Butane at Temperatures from 283.15 to 323.15 K. J Chem Eng Data 2018;63:1507-12. 18. Hu P, Zhang GW, Chen LX, Liu MH. Theoretical analysis for heat transfer optimization in subcritical electrothermal energy storage systems. Energies 2017;10:198-212. 19. Hu P, Zhu WB, Chen LX, Cai XD, Chen ZS. Vaporeliquid equilibria measurements of 1,1,1,2-tetrafluoroethane(HFC-134a)þ2,3,3,3-tetrafluoroprop-1-ene(HFO-1234yf)þisobutane (HC-600a) ternary system. Fluid Phase Equilib 2016;414:111–6. 20. Zhang N, Hu P, Chen L, Zhi L. Molecular modeling of vapor-liquid equilibrium properties of HFC-161 and itsmixture HFC-161 + HFO-1234yf. J Mol Liq 2020;306:112896. 21. 胡芃、陈龙祥、陈则韶,高精度气液相平衡系统及HFC134a/HFC227ea气液相平衡的实验研究,2013年工热年会 22. 胡芃、陈龙祥、陈则韶,HFC/HC三元混合工质气液相平衡推算,工程热物理学报, Vol.34 NO.4 APR. 2013 23. 胡芃 、高静轩、陈龙祥,PR方程结合vdW混合法则推算二元及三元HFC/HC混合工作[[汽液相平衡]]性质,[[化工学报]],Vol.63 NO.2 February 2012 24. 胡芃、毛霖、陈龙祥,HFC/HC混合工质共沸点推算,[[工程热物理学报]],Vol.33 NO.3 Mar 2012 ==获奖情况== 海西研究院“春苗人才” 2020 福建省引进高层次人才 2018 泉州市引进高层次人才 2017 中科院院长奖 2014 研究生国家奖学金 2013 优秀毕业论文奖 2011<ref>[https://xjzz.fzu.edu.cn/index.htm 福州大学先进制造学院与海洋学院]</ref> ==参考资料== {{reflist}} [[Category:教授]]
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