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个人简介 陈晨博士的主要研究方向为太阳能热化学储能与制燃料。在太阳能热化学储能研究方面，主要研究内容围绕氨基太阳能热化学储能系统与化学热泵技术等；在太阳能制燃料研究方面，主要研究内容围绕太阳能热化学制绿氢与绿氨等。担任《Carbon Neutrality》期刊青年编委。教育经历和工作经历2007.8 — 2011.6学士浙江工业大学机械工程学院2011.9 — 2013.6硕士美国哥伦比亚大学机械工程系2013.9 — 2017.3 博士美国加州大学洛杉矶分校机械工程系，导师：Adrienne Lavine教授2017.11 —至今副教授浙江工业大学机械工程学院2019.12 —2022.12 在职博士后中科院工程热物理研究所， 合作导师：金红光院士、倪明玖教授 教学与课程 课程名称：1.化学科学概论（留学生）2.化工设备基础（留学生）3.过程装备技术进展 育人成果 一、教学育人奖励1.机械工程学院2019年度青年教师教学技能比赛一等奖2.机械工程学院2020年度学院学生工作优秀奖3.机械工程学院2019年度学院学生工作优秀奖二、指导学生获奖情况1.全国大学生节能减排社会实践与科技竞赛，全国二等奖，三次；全国三等奖，一次2.全国大学生过程装备实践与创新大赛，全国一等奖，两次；全国二等奖，一次 科研项目 研究项目2021/08-至今国家自然科学基金面上项目：氨基太阳能热化学储能与高温电解水耦合制氢系统的研究，主持2023/06-至今浙江省属高校基本科研业务费项目：分布式太阳能氨基化学热泵耦合高温电解水制氢研究，主持2019/01-2021/12国家自然科学基金青年科学基金项目：超临界CO2太阳能热发电中热化学储能反应器的传热机理研究，主持2020/01-2022/12浙江省自然科学基金一般项目：氨基太阳能热化学制氢反应器传热特性研究，主持2019/11-2022/10国家自然科学基金“能源有序转化”基础科学中心项目，参与  科研成果 代表性论文1) Muhammad Sajid Khan, Zihan Lin, Liangrui Lin, Muhammad Abid, Hafiz Muhammad Ali, Chen Chen*. Techno-economic analysis of solar-driven co-electrolysis for renewable methanol production using SOEC. Energy Conversion and Management, 2024, 302: 118129.2) Huicong Qiu, Hui Liu, Qi Xia, Zihan Lin, Chen Chen*. A spectral splitting CPV/T hybrid system based on wave-selecting filter coated compound parabolic concentrator and linear Fresnel reflector concentrator. Renewable Energy, 2024, 226: 120403.3) Qi Xia, Zihan Lin, Congwei Wang, Zhouxin Pan, Weiya Jin, Chen Chen*, Qibin Liu. Solar-driven multichannel membrane reactor for hydrogen production from ammonia decomposition. Fuel, 2024, 356: 129591.4) Zihan Lin, Qi Xia, Kewei Ma, Muhammad Sajid Khan, Chen Chen*, Qibin Liu. Efficient solar hydrocarbon fuel production by integrating Fischer-Tropsch synthesis with high-temperature solid oxide co-electrolysis and electrolysis. Energy Conversion and Management, 2023, 294: 117598.5) Qi Xia, Huichong Qiu, Junqi Wang, Jianguo Zhao, Chen Chen*, Weiya Jin, Qibin Liu. Efficient distributed concentrating solar power system with ammonia-based  chemical heat pump. Energy Conversion and Management, 2023, 276: 116575.6) Qi Xia, Jianguo Zhao, Chen Chen*, Weiya Jin. Modeling of CO2/H2O Co-electrolysis using solar-driven SOEC coupled with ammonia-based chemical heat pump. Renewable Energy, 2023, 212: 128.7) Chen Chen, Fan Jiao, Buchu Lu, Taixiu Liu, Qibin Liu, Hongguang Jin. Challenges and perspectives for solar fuel production from water/carbon dioxide with thermochemical cycles. Carbon Neutrality, 2023, 2: 9.8) Qi Xia, Liangrui Lin , Zihan Lin, Chen Chen*, Weiya Jin, Qibin Liu. Development of a Pd-Ag H2-selective membrane microchannel reactor for efficient solar hydrogen production with ammonia. Energy Conversion and Management, 2022, 270: 116181.9) Chen Chen*, Qi Xia, Shuaiming Feng, Qibin Liu. A novel solar hydrogen production system integrating high temperature electrolysis with ammonia based thermochemical energy storage. Energy Conversion and Management, 2021, 237: 114143.10) Chen Chen, Xixi Xie, Ming Yang*, Ilwoo Seok, Zhanhu Guo, Qinglong Jiang, Grant Wangila, Hang Zhang*, Qibin Liu*. Recent Advances in Solar Energy Full Spectrum Conversion and Utilization. ES Energy & Environment, 2021, 11: 3-18.11) Chen Chen*, Mingmin Kong, Shuiqing Zhou*, Abdon E. Sepulveda, Hui Hong. Energy storage efficiency optimization of methane reforming with CO2 reactors for solar thermochemical energy storage. Applied Energy, 2020; 266: 114788.12) Chen Chen*, Yi Liu, Hamarz Aryafar, Tao Wen, Adrienne S. Lavine. Performance of conical ammonia dissociation reactors for solar thermochemical energy storage. Applied Energy, 2019; 255: 113785.13) Chen Chen*, Leilei Zhao, Mingmin Kong, Adrienne S. Lavine. Heat recovery from an autothermal ammonia synthesis reactor for solar thermochemical energy storage. Solar Energy, 2018; 176: 256-66.14) Chen Chen*, Leilei Zhao, Adrienne S. Lavine. Feasibility of using ammonia-based thermochemical energy storage to produce high-temperature steam or sCO2. Solar Energy, 2018; 176: 638-47.15) Chen Chen, Yuebing Li*, Mingjue Zhou, Shuiqing Zhou, Weiya Jin. Design of a methanation reactor for producing high-temperature supercritical carbon dioxide in solar thermochemical energy storage. Solar Energy, 2018; 176: 220-9.16) Chen Chen*, Keith M. Lovegrove, Abdon Sepulveda, Adrienne S. Lavine. Design and Optimization of an Ammonia Synthesis System for Ammonia-Based Solar Thermochemical Energy Storage. Solar Energy, 2018; 159: 992-1002.17) Chen Chen*, Hamarz Aryafar, Keith M. Lovegrove, Adrienne S. Lavine. Modeling of Ammonia Synthesis to Produce Supercritical Steam for Solar Thermochemical Energy Storage. Solar Energy, 2017; 155: 363–371.专利1) A. Lavine, R. Wirz, H. Aryafar, C. Chen, K. Lovegrove, High Temperature Synthesis for Power Production and Storage, U.S.Patent No. 10,641,524 B2, May 5, 2020.2) 陈晨,马进,陈迪沛,杜逍,鲁腾君,吴昱鑫,吴奇哲,吴昌渠,赵磊磊. 基于压电效应和电磁感应的无电式商场智能停车场[P]. ZL201910245729.8,2020-12-01.3) 陈晨,鲁腾君,吴昱鑫,杜逍,陈迪沛,马进,吴奇哲,吴昌渠,赵磊磊. 基于压电效应和电磁感应的商场停车场发电装置[P]. ZL201910245717.5,2019-03-01.4) 陈晨,夏起,赵建国,冯帅明,孔明民,钱挺,杜伟,何兴. 一种基于氨基热化学能储能的太阳能高温电解水耦制氢的系统及工艺[P]. ZL202110271197.2,2022-08-05.5) 陈晨,赵建国,夏起,冯帅明,孔明民,钱挺,杜伟,何兴. 一种耦合太阳能氨基热化学能储能和卡琳娜循环的高温固体氧化物电解水制氢系统及工艺[P]. ZL202110564164.7,2022-04-29.