性 别
职 务
职 称
电子邮件
通讯地址
邮政编码
职 务
职 称
电子邮件
通讯地址
邮政编码
女
副研究员
chenqq@sari.ac.cn
上海市浦东新区海科路100号分子楼9A
200120
副研究员
chenqq@sari.ac.cn
上海市浦东新区海科路100号分子楼9A
200120
陈倩倩,副研究员,2011年于华东理工大学获得化学工艺硕士学位,2018年于中国科学院大学上海高等研究院获得化学工程博士学位。主要研究方向为能源环境领域化工过程系统建模与评价,复合能源系统的集成与优化,高能耗行业低碳化解决方案与碳减排潜力研究。2017年入选上海市青年科技英才扬帆计划,作为负责人承担了上海市科委、壳牌(Shell)集团前瞻科学II期、III期项目、企业横向课题项目等。在Joule、Energy Conversion and Management、Journal of Cleaner Production 等能源领域一区期刊发表论文10余篇,授权发明专利4项。
1. 低碳能源系统的评估与优化;
2. 微流控可控合成功能性材料;
2017年 上海市青年科技英才扬帆计划
1. 壳牌前瞻项目,“AI辅助的综合能源制氢系统运行策略优化”,陈倩倩,2022.03-2025.04
2. 上海市扬帆计划项目“复合能源系统碳减排潜力的模型研究”,负责人,2017-2020
3. 壳牌前瞻课题项目 “液态阳光及过渡期能源转化系统的过程评价”,负责人,2019-2021
4. 壳牌前瞻课题项目“高能耗行业碳减排潜力研究”,负责人,2016-2018
5. 企业横向合作课题 “产业链碳排放产值分析”,负责人,2014-2016
6. 中国科学院先导专项,“核能制氢与CO2加氢系统模拟与集成”,参与,2012-2015
1.文章:
[1]. Danfeng Wang, Yu Gu, Qianqian Chen (通讯), Zhiyong Tang, Direct conversion of syngas to alpha olefins via Fischer-Tropsch synthesis: Process development and comparative techno-economic-environmental analysis[J], Energy, 263 (2023)125991
[2]. Yu Gu, Danfeng Wang, Qianqian Chen(通讯), Zhiyong Tang, Techno-economic analysis of green methanol plant with optimal design of renewable hydrogen production: A case study in China[J], International Journal of Hydrogen Energy 47(2022) 5085-5100
[3]. Qianqian Chen, Yu Gu, Zhiyong Tang, Danfeng Wang, Qing Wu, Optimal design and techno-economic assessment of low-carbon hydrogen supply pathways for a refueling station located in Shanghai[J], Energy, 237 (2021) 121584
[4].Qianqian Chen, Lv Mmin, Gu Yu, Xiyi Yang, Zhiyong Tang*, Yuhan Sun*, Mianheng Jiang. Hybrid Energy System for a Coal-Based Chemical Industry[J]. Joule, 2018, 2(4):607-620.
[5]Qianqian Chen, Yu Gu, Zhiyong Tang*, Wei Wei, Yuhan Sun*. Assessment of low-carbon iron and steel production with CO2 recycling and utilization technologies: A case study in China[J]. Applied Energy, 2018, 220:192-207.
[6]Qianqian Chen, Danfeng Wang, Yu Gu, Sheng Yang, Zhiyong Tang, Yuhan Sun, Qing Wu. Techno-economic evaluation of CO2-rich natural gas dry reforming for linear alpha olefins production, Energy Conversion and Management, 2020, 205.
[7]Qianqian Chen, Yu Gu, Zhiyong Tang, Yuhan Sun Comparative environmental and economic performance of solar energy integrated methanol production systems in China, Energy Conversion and Management[J], 2019, 187, 63-75.
[8]Sheng Yang, Qianqian Chen(共一), Zhiqiang Liu, Yifan Wang, Zhiyong Tang*, Yuhan Sun*. Performance analysis of the wind energy integrated with a natural-gas-to-methanol process[J]. Energy Conversion and Management, 2018, 173: 735-742.
[9]Qianqian Chen, Min Lv, Danfeng Wang, Zhiyong Tang*, Wei Wei, Yuhan Sun*. Eco-efficiency assessment for global warming potential of ethylene production processes: A case study of China[J]. Journal of Cleaner Production, 2017, 142:3109-3116.
[10]Sheng Yang, Zhiqiang Liu, Zhiyong Tang, Yifan Wang, Qianqian Chen*, YuhanSun*, Performance analysis of solar energy integrated with natural gas to methanol process, Energy Conversion and Management[J], 2017, 150, 375-381.
[11]Qianqian Chen, Min Lv, Zhiyong Tang*, Hui Wang, Wei Wei, Yuhan Sun*. Opportunities of integrated systems with CO2 utilization technologies for green fuel & chemicals production in a carbon-constrained society[J]. Journal of CO2 Utilization, 2016, 14:1-9.
[12]QianQian Chen, Zhiyong Tang*, Yang Lei, Yuhan Sun*, MianHeng Jiang. Feasibility analysis of nuclear–coal hybrid energy systems from the perspective of low-carbon development[J]. Applied Energy, 2015, 158:619-630.
[13]Yu Gu, Qianqian Chen (共一), Junli Xue, Zhiyong Tang, Yuhan Sun, Qing Wu, Comparative techno-economic study of solar energy integrated hydrogen supply pathways for hydrogen refueling stations in China, Energy Conversion and Management, 2020, 223.
[14]陈倩倩, 顾宇, 唐志永, 孙予罕. 以二氧化碳规模化利用技术为核心的碳减排方案[J]. 中国科学院院刊, 2019, 34(04):104-113.
[15]陈倩倩, 汪丹峰, 雷杨, 唐志永, 孙予罕. 天然气耦合煤炭的低碳能源系统:中国向低碳能源过渡时期的解决方案?[J]. 科学通报, 2015(16):141-147.
2.专利
[1]二氧化碳-甲烷自热重整生产直接还原铁的方法及系统,发明专利,CN 201810077703.2
[2]一种核能-煤生产燃料化学品的零碳排放系统及方法,发明专利,CN 201810077007.1
[3]利用零碳或负碳排放系统制备合成气的工艺方法, 发明专利,CN 201310683298.6
[4]高温电解水蒸气制氢反应器, 实用新型, CN 201520637812.7
