2012 - 至今 中国科学院工程热物理研究所  助理研究院/副研究员/项目研究员/研究员

发表论文90余篇，其中SCI论文40余篇

[1] Feng Lu, Zhang Xinjing, Li Xiaoyu, Li Bin, Li Yang, Xu Yujie, Guo Huan, Zhou Xuezhi, Chen Haisheng. Performance analysis of hybrid energy storage integrated with distributed renewable energy. Energy Reports. 2022;8:1829-38.

[2] Zhang Xinjing, Qin Chao？, Xu Yujie, Li Wen, Zhou Xuezhi, Li Ruimin, Huang Ye, Chen Haisheng. Integration of small-scale compressed air energy storage with wind generation for flexible household power supply. Journal of Energy Storage. 2021;37:102430.

[3] Zhang Xinjing, Qin Chao, Loth Eric, Xu Yujie, Zhou Xuezhi, Chen Haisheng. Arbitrage analysis for different energy storage technologies and strategies. Energy Reports. 2021;7:8198-206.

[4] Zhou Xuezhi, Xu Yujie, Zhang Xinjing, Xu Dehou, Linghu Youqiang, Guo Huan, Wang Ziyi, Chen Haisheng. Large scale underground seasonal thermal energy storage in China. Journal of Energy Storage. 2021;33:102026.

[5] Wang Liang, Lin Xipeng, Zhang Han, Peng Long, Zhang Xinjing, Chen Haisheng. Analytic optimization of Joule–Brayton cycle-based pumped thermal electricity storage system. Journal of Energy Storage. 2022;47:103663.

[6] Guo Huan, Xu Yujie, Zhu Yilin, Zhang Xinjing, Yin Zhao, Chen Haisheng. Coupling properties of thermodynamics and economics of underwater compressed air energy storage systems with flexible heat exchanger model. Journal of Energy Storage. 2021;43:103198.

[7] Zhang Xinjing, Xu Yujie, Zhou Xuezhi, Zhang Yi, Li Wen, Zuo Zhitao, Guo Huan, Huang Ye, Chen Haisheng. A near-isothermal expander for isothermal compressed air energy storage system. Applied Energy. 2018;225:955-64.

[8] Zhang Xinjing, Xu Yujie, Xu Jian, Sheng Yong, Zuo Zhitao, Liu Jimin, Chen Haisheng, Wang Yaodong, Huang Ye. Study on the performance and optimization of a scroll expander driven by compressed air. Applied Energy. 2017;186:347-58.

[9] Zhang Xinjing, Chen Haisheng, Xu Yujie, Li Wen, He Fengjuan, Guo Huan, Huang Ye. Distributed generation with energy storage systems: A case study. Applied Energy. 2017;204:1251-63.

[10] Zhang Xinjing, Chen Haisheng, Xu Yujie, Li Wen, He Fengjuan, Guo Huan, Huang Ye. Design and Performance Analysis of the Distributed Generation System Based on a Diesel Engine and Compressed Air Energy Storage. Energy Procedia. 2017;105:4492-8.

[11] Guo Huan, Xu Yujie, Zhang Xinjing, Zhu Yilin, Chen Haisheng. Finite-time thermodynamics modeling and analysis on compressed air energy storage systems with thermal storage. Renewable and Sustainable Energy Reviews. 2021;138:110656.

[12] Xiaoyu Li, Yumeng Wang, Xinjing Zhang*, Bin Li, Yujie Xu, Haisheng Chen, Siqing Sheng. Increasing coal-fired power plant operational flexibility by integrating solar thermal energy and compressed air energy storage system. Journal of Thermal Science, 2022 (accepted).

[13] Guo Huan, Xu Yujie, Zhang Xinjing, Zhou Xuezhi, Chen Haisheng. Transmission characteristics of exergy for novel compressed air energy storage systems-from compression and expansion sections to the whole system. Energy. 2020;193:116798.

[14] Zhang Yi, Xu Yujie, Zhou Xuezhi, Guo Huan, Zhang Xinjing, Chen Haisheng. Compressed air energy storage system with variable configuration for accommodating large-amplitude wind power fluctuation. Applied Energy. 2019;239:957-68.

[15] Zhang Xinjing, Li Ruimin, Xu Yujie, Li Wen, Zhou Xuezhi, Qin Chao, Chen Haisheng. A SMALL SCALE COMPRESSED AIR ENERGY STORAGE SYSTEM WITH WIND ENERGY FOR DOMESTIC POWER SUPPLY.  The 1st World Energy Storage Conference. Beijing, China2019. p. 1.

[16] Wang Xing, Zhang Xuehui, Zhu Yangli, Zhang Xinjing, Li Wen, Chen Haisheng. Effect of blade tip leakage flow on erosion of a radial inflow turbine for compressed air energy storage system. Energy. 2019;178:195-206.

[17] Guo Cong, Xu Yujie, Guo Huan, Zhang Xinjing, Lin Xipeng, Wang Liang, Zhang Yi, Chen Haisheng. Comprehensive exergy analysis of the dynamic process of compressed air energy storage system with low-temperature thermal energy storage. Applied Thermal Engineering. 2019;147:684-93.

[18] Zhang Yi, Xu Yujie, Guo Huan, Zhang Xinjing, Guo Cong, Chen Haisheng. A hybrid energy storage system with optimized operating strategy for mitigating wind power fluctuations. Renewable Energy. 2018;125:121-32.

[19] Li Wen, Wang Xing, Zhang Xuehui, Zhang Xinjing, Zhu Yangli, Chen Haisheng. Experimental and Numerical Investigations of Closed Radial Inflow Turbine With Labyrinth Seals. Journal of Engineering for Gas Turbines and Power. 2018;140.

[20] Zhang Yi, Xu Yujie, Zhou Xuezhi, Guo Huan, Zhang Xinjing, Chen Haisheng. Compressed air energy storage system with variable configuration for wind power generation. Energy Procedia. 2017;142:3356-62.

[21] Zhang Xinjing, Xu Yujie, Zhou Xuezhi, Zhang Yi, Li Wen, Zuo Zhitao, Guo Huan, Huang Ye, Chen Haisheng. Numerical Study of a Quasi-isothermal Expander by Spraying Water. Energy Procedia. 2017;142:3388-93.

[22] Luo Liqi, Wang Yaodong, Chen Haisheng, Zhang Xinjing, Roskilly Tony. ORC units driven by engine waste heat – a simulation study. Energy Procedia. 2017;142:1022-7.

[23] Huang Y., Wang Y. D., Chen Haisheng, Zhang Xinjing, Mondol J., Shah N., Hewitt N. J. Performance analysis of biofuel fired trigeneration systems with energy storage for remote households. Applied Energy. 2017;186:530-8.

[24] Guo Cong, Xu Yujie, Zhang Xinjing, Guo Huan, Zhou Xuezhi, Liu Chang, Qin Wei, Li Wen, Dou Binlin, Chen Haisheng. Performance analysis of compressed air energy storage systems considering dynamic characteristics of compressed air storage. Energy. 2017;135:876-88.

[25] Zhang Xinjing, Xu Yujie, Xu Jian, Xue Haobai, Chen Haisheng. Study of a single-valve reciprocating expander. Journal of the Energy Institute. 2016;89:400-13.

[26] Xinjing Zhang, Haobai Xue, Yujie Xu, Haisheng Chen, Chunqing Tan. An investigation of an uninterruptible power supply (UPS) based on supercapacitor and liquid nitrogen hybridization system. Energy Conversion and Management, 85(2014), 784-792.

[27] Zhang Xinjing, Yan Feng, Sheng Yong, Zuo Zhitao, Xu Yujie, Liu Jimin, Chen Haisheng, Wang Yaodong, Huang Ye. Experimental and simulated study of a small scale expander. In: Roskilly AP, editor. SUSTEM2015. Newcastle, UK2015. p. 10.

[28] He Fengjuan, Xu Yujie, Zhang Xinjing, Liu Chang, Chen Haisheng. Hybrid CCHP system combined with compressed air energy storage. International Journal of Energy Research. 2015;39:1807-18.

[29] 李瑞民, 张新敬, 徐玉杰, 孙雯雯, 周学志, 郭丛, 陈海生. 风光互补系统中混合储能容量优化配置研究. 储能科学与技术. 2019;8:11.

[30] 陈海生, 李泓, 马文涛, 徐玉杰, 王志峰, 陈满, 胡东旭, 李先锋, 唐西胜, 胡勇胜, 马衍伟, 蒋凯, 钱昊, 王青松, 王亮, 张新敬, 王星, 徐德厚, 周学志, 刘为, 吴贤章, 汪东林, 和庆钢, 马紫峰, 陆雅翔, 张雪松, 李泉, 索鎏敏, 郭欢, 俞振华, 梅文昕, 秦鹏. 2021年中国储能技术研究进展. 储能科学与技术, 3:1052-1076, 2022.

[31] 李扬, 张新敬*, 宋健斐, 李笑宇, 郭欢, 徐玉杰, 陈海生. 压缩空气储能系统释能过程动态调控. 储能科学与技术.  Vol. 10(05): 1514-1522, 2021.

[32] 冯璐, 李斌, 张新敬, 徐玉杰, 刘南宏, 周学志, 陈海生. 考虑需求侧响应的风储系统容量配置优化分析. 中国电机工程学报, Vol. 40 (S1):222-231, 2020.

[33] 郭欢, 徐玉杰, 张新敬, 郭丛, 陈海生. 蓄热式压缩空气储能系统变工况特性. 中国电机工程学报. 2019;39:11.

[34] 纪律, 陈海生, 张新敬, 周学志, 常静, 聂乾鑫. 压缩空气储能技术研发现状及应用前景. 高技术与产业化. 2018;4:7.

[35] 张新敬, 陈海生, 刘金超, 李文, 谭春青. 压缩空气储能技术研究进展. 储能科学与技术, Vol 1(1): 26~40, 2012.

[36] 张新敬, 陈海生, 谭春青, 李永亮, 丁玉龙. 新型储能-燃油车载动力系统性能分析. 工程热物理学报,  Vol 32 (10): 1621~1626, 2011. (EI)

[37] 薛皓白, 张新敬, 陈海生, 徐玉杰, 李文, 谭春青. 微型压缩空气储能系统释能过程分析[J]. 工程热物理学报, Vol 35 (10): 1923-1929, 2014. (EI)

[38] 许剑, 王晓东, 张新敬, 郭欢, 徐玉杰, 陈海生, 谭春青. 压缩空气储能和余热利用系统集成机理分析. 工程热物理学报, Vol 36, 2015.