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陈 龙祥，研究员，博导生导师

招生联系方式：chenlx@fjirsm.ac.cn

研究方向：高效物理储能；碳捕集与资源化利用；工业低碳节能

办公地点：福建省晋江市三创园片区泉州装备制造研究所

2007年考入中国科学技术大学，2015年获博士学位。入选中国科学院青年创新促进会会员，福建省引进高层次人才，福建省自动化学会理事会理事，海西院“春苗”青年人才等。依托“电机驱动与功率电子国家地方联合工程研究中心”，组建“能源清洁与高效利用实验室”，任该方向负责人。

面向热工设计与低碳节能领域，重点围绕先进热力循环三要素：环保工质、核心部件和系统拓扑结构，展开热力循环在高效物理储能和工业绿色低碳过程中的基础与应用研究。形成了新型水基碳捕集与压缩空气储能耦合系统、多因素环境模拟（温度-湿度-压力-振动等）、海水淡化与冰蓄冷耦合系统、工业节能方案设计及优化等多项特色专业技术。主持国家基金项目，福建省技术创新重点攻关项目及龙头企业委托等项目11项，各类科研经费累积1000余万。发表中英文论文70余篇，其中SCI论文50余篇，授权发明专利10项。

近五年代表论文：

[1]Chen LX,?Su C, Li S, Ye K. International Journal of Mechanical Sciences Design and diodicity enhancement mechanism of a double-baffle Tesla valve. International Journal of Mechanical Sciences?2025;302:110575.

[2]Chen LX, Deng S, Jing X, Xie M, Ye K, Zhang L. Design and analysis of a novel three-bed series VTSA process for enhancing adsorbent utilization under low-concentration CO₂?exhaust gas conditions. Energy?2025;320:135388.

[3]Zhang L, Xie M, Ye K, Li S, Chen LX^*. Compressed air energy storage based on variable-volume air storage?: A review. J Energy Storage 2025;110:115361.

[4]Chen LX, Luo Z, Jing R, Ye K, Xie M. Two-stage planning of integrated energy systems under copula models informed cascading extreme weather uncertainty. Applied Energy?2025;380:124990.

[5]Lan W, Liu X, Xie M, Ye K, Chen LX^*. Theoretical and experimental analysis of sea ice centrifugal desalination and supercooled water production for slurry ice. Sep Purif Technol 2025;352:128272.

[6]Zhang L, Xie M, Su C, Ye K, Li S,?Chen LX^*. Experimental analysis and cost assessment of a novel variable-volume air storage device designed for compressed air energy storage. Energy?2024;313:134082.

[7]Lan W, Liu X, Guo W, Lian H, Wang Y, Ye K, Chen?LX^*. Comprehensive thermodynamic , economic , and environmental analysis of a novel cooling and water cogeneration system based on seawater evaporation. Journal of Cleaner Production?2024;482:144208.

[8]Chen LX, Zhang L, Guo W, Lian H, Wang Y, Ye K, Xie MN^*. Dynamic analysis of an adiabatic compressed air energy storage system with temperature-regulated in air tanks.?Renewable and Sustainable Energy Reviews?2024;206:114862.

[9]Chen LX, He?H, Jing R, Xie M, Ye K.?Energy management in integrated energy system with electric vehicles as mobile energy storage: an approach using bi-level deep reinforcement learning.?Energy?2024;307:132757.

[10]Lan W, Liu X, Xie M, Ye K, Chen LX^*. Experimental analysis of freezing desalination using gravity and centrifugal methods with economic evaluation of coupled freezing desalination and ice storage system. Energy Convers Manag?2024;315:118743.

[11]Chen LX, Zhang L, Guo W, Lian H, Wang Y, Ye K. Techno-economic analysis of water-based CO 2 capture method based on adiabatic compressed air energy storage?: Comparison with monoethanolamine-based CO 2 capture method. J Clean Prod?2024;464:142790.

[12]Lan W, Liu X, Ye K, Xie M, Chen LX^*. Comprehensive thermodynamic and economic analysis of an LNG cold energy recovery system using organic Rankine cycle and freezing-centrifugal desalination for power and water cogeneration.?J Clean Prod?2024;461:142677.

[13]Xie M, Chen X, Chen LX^*, Zhou M, Liu Y, Zeng L, Shi H, Zhang F, Xie S, Zhao Y^*. Evaluating the feasibility of a novel Allam cycle for co-generating power and water in hot regions. Energy Conversion & Management?2024;309:118447.

[14]Xie M, Zhou M, Chen LX^*, Zhang F, Xiao N, Chen X, Xie S, Shah N, Zhao Y^*. Techno-economic assessment of the modified Allam cycle configurations with multi-stage pump / compressor for efficient operation in hot regions. Energy Conversion & Management?2024;306:118291.

[15]Zhang LG, Ye K, Wang YZ, Han W, Xie MN, Chen LX^*, Performance analysis of a hybrid system combining cryogenic separation carbon capture and liquid air energy storage (CS-LAES), Energy, 2024; 290:129867.

[16]Chen LX,?Liu X, Ye K, Xie M, Lan W. Thermodynamic and economic analysis of an integration system of multi-effect desalination (MED) with ice storage based on a heat pump. Energy 2023;283:129064.

[17]Chen LX, Zhang LG, Wang YZ, Xie MN, Yang HP, Ye K^*, Mohtaram S, Design and performance evaluation of a novel system integrating Water-based carbon capture with adiabatic compressed air energy storage.?Energy Conversion & Management?2023; 276:116583.

[18]Chen LX, Zhang LG, Yang HP, Xie MN, Ye K^*, Dynamic simulation of a Re-compressed adiabatic compressed air energy storage (RA-CAES) system, Energy?2022; 261:125351.

[19]Liu X, Lan WC, Ye K, Zhang JC, Mohtaram S, Chen LX^*, Numerical simulation and experimental analysis of ice crystal growth and freezing-centrifugal desalination for seawater with different compositions, Separation and Purification Technology, 2022; 298:121656.

[20]Chen LX, Wang YZ, Xie MN, Ye K, Mohtaram S. Energy and exergy analysis of two modified adiabatic compressed air energy storage (A-CAES) system for cogeneration of power and cooling on the base of volatile fluid, Journal of Energy Storage, 2021; 42:103009.?

[21]Jing R, Xie MN, Wang FX, Chen LX^*. Fair P2P energy trading between residential and commercial multi-energy systems enabling integrated demand-side management. Applied Energy?2020;262:114551.