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晏水平

博士生导师
硕士生导师
教师姓名:晏水平
教师拼音名称:Yan Shuiping
职称:教授
在职信息:在职
学历:博士研究生毕业
学位:工学博士学位
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毕业院校:浙江大学
所属院系:工学院
所在单位:工学院
学科:农业生物环境与能源工程    
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科研成果
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一、代表性论文
(一)CO2矿化类

  1. [1] Xuan Zheng, Jiayao Liu, Yikun Wang, Yan Wang, Long Ji*, Shuiping Yan*. Regenerable glycine induces selective preparation of vaterite CaCO3 by calcium leaching and CO2 mineralization from coal fly ash. Chemical Engineering Journal, 2023, 459: 141536.

  2. [2] Yunxie Huang, Xuan Zheng, Yibin Wei, Qingyao He, Shuiping Yan*, Long Ji*. Protonated amines mediated CO2 mineralization of coal fly ash and polymorph selection of CaCO3. Chemical Engineering Journal, 2022, 450: 138121.

  3. [3] Xuan Zheng, Jiayao Liu, Yibin Wei, Kangkang Li, Hai Yu, Xiaolong Wang, Long Ji*, Shuiping Yan*. Glycine-mediated leaching-mineralization cycle for CO2 sequestration and CaCO3 production from coal fly ash: Dual functions of glycine as a proton donor and receptor. Chemical Engineering Journal, 2022, 440: 135900.

  4. [4] Long Ji*, Xuan Zheng, Long Zhang, Liang Feng, Kangkang Li, Hai Yu, Shuiping Yan*. Feasibility and mechanism of an amine-looping process for efficient CO2 mineralization using alkaline ashes. Chemical Engineering Journal, 2022, 430: 133118.

  5. [5] Long Ji, Jiabi Li, Nan Liu, Wenzhong Wang, Xuan Zheng, Qingyao He, Ming Hua*, Shuiping Yan*. Insights into the interaction between typical amines and alkaline minerals for improved CO2 absorption and mineralization. Greenhouse Gases: Science and Technology, 2022, 12: 508-519.

  6. [6] Long Ji, Long Zhang, Xuan Zheng, Liang Feng, Qingyao He, Yibin Wei, Shuiping Yan*. Simultaneous CO2 absorption, mineralisation and carbonate crystallisation promoted by amines in a single process. Journal of CO2 Utilization, 2021, 51: 101653.

  7. [7] Xuan Zheng, Long Zhang, Liang Feng, Qingyao He, Long Ji*, Shuiping Yan*. Insights into dual functions of amino acid salts as CO2 carriers and CaCO3 regulators for integrated CO2 absorption and mineralization. Journal of CO2 Utilization, 2021, 48: 101531.

  8. [8] Liang Feng, Feihong Liang, Lang Xu, Long Ji, Qingyao He*, Shuiping Yan*. Simultaneous biogas upgrading, CO2 sequestration, and biogas slurry decrement using biomass ash. Waste Management, 2021, 133:1-9.

  9. [9] 晏水平*,冯椋,段海超,纪龙,贺清尧. 以负碳排放为目标的生物质灰矿化CO2路径研究. 农业机械学报,2022,53(7): 363-369+386.

(二)CO2化学吸收/吸附技术类

  1. [1] Qiufang Cui, Leonardo Gutierrez, Fushuai Li, Te Tu, Yu Shang, Shuiping Yan*. Waste heat recovery enhancement in the CO2 chemical absorption process by hydrophobic-hydrophilic composite ceramic membranes. Journal of Membrane Science, 2023, 676: 121606.

  2. [2] Te Tu, Yu Shang, Qiufang Cui, Lei Xia, Yan Zhao, Xing Yang*, Shuiping Yan*. Configuration screening of ceramic membrane heat exchanger for an energy-efficient carbon capture process. Separation and Purification Technology, 2023, 311: 123207.

  3. [3] Ruicheng Fu, Ge Yu, Junna Cheng, Yingchao Hu*, Shuiping Yan*. One-step synthesi of porous Li4SiO4 pellets by polyvinyl alcohol (PVA) method for CO2 capture. Fuel, 2023, 331: 125873.

  4. [4] Te Tu, Xing Yang, Qiufang Cui, Yu Shang, Shuiping Yan*. CO2 regeneration energy requirement of carbon capture process with an enhanced waste heat recovery from stripped gas by advanced transport membrane condenser. Applied Energy, 2022, 323: 119593.

  5. [5] Qiufang Cui, Yu Shang, Zhengxin Fei, Te Tu, Shuiping Yan*. Hydrophobic-hydrophilic Janus ceramic membrane for enhancing the waste heat recovery from the stripped gas in the carbon capture process. ACS Sustainable Chemistry & Engineering, 2022, 10(12): 3817–3828.

  6. [6] Yingchao Hu, Ruicheng Fu, Wenqiang Liu, Dingding Yao*, Shuiping Yan*. Lithium-based ceramics in nonsilicates for CO2 capture: Current status and new trends. Journal of Materials Chemistry A, 2022, 10(4): 1706-1725. 

  7. [7] Qiufang Cui#, Te Tu#, Long Ji, Shuiping Yan*. CO2 capture cost saving through waste heat recovery using transport membrane condenser in different solvent-based carbon capture processes. Energy, 2021, 216: 119225.

  8. [8] Te Tu, Shuo Liu, Qiufang Cui, Liqiang Xu, Long Ji, Shuiping Yan*. Techno-economic assessment of waste heat recovery enhancement using multi-channel ceramic membrane in carbon capture process. Chemical Engineering Journal, 2020, 400: 125677.

  9. [9] Liqiang Xu, Qiufang Cui, Te Tu, Shuo Liu, Long Ji, Shuiping Yan*. Waste heat recovery from the stripped gas in carbon capture process by membrane technology: Hydrophobic and hydrophilic organic membrane cases. Greenhouse Gases: Science and Technology, 2020, 10: 421-435.

  10. [10] Qiufang Cui, Shuo Liu, Liqiang Xu, Te Tu, Qingyao He, Shuiping Yan*. Modification of rich-split carbon capture process using ceramic membrane for reducing the reboiler duty: Effect of membrane arrangements. Separation and Purification Technology, 2020, 235: 116148.

  11. [11] Shuiping Yan*, Qiufang Cui, Te Tu, Liqiang Xu, Qingyao He, Paul H.M. Feron, Shuaifei Zhao*. Membrane heat exchanger for novel heat recovery in carbon capture. Journal of Membrane Science, 2019, 577: 60-68.

  12. [12] Te Tu, Qiufang Cui, Feihong Liang, Liqiang Xu, Qingyao He, Shuiping Yan*. Water recovery from stripping gas overhead CO2 desorber through air cooling enhanced by transport membrane condensation. Separation and Purification Technology, 2019, 215: 625-633.

  13. [13] Shuiping Yan*, Qiufang Cui, Liqiang Xu, Te Tu, Qingyao He. Reducing CO2 regeneration heat requirement through waste heat recovery from hot stripping gas using nanoporous ceramic membrane. International Journal of Greenhouse Gas Control, 2019, 82: 269-280.

  14. [14] Shuiping Yan, Shuaifei Zhao*, Leigh Wardhaugh, Paul H. M. Feron. Innovative use of membrane contactor as condenser for heat recovery in carbon capture. Environmental Science & Technology, 2015, 49(4): 2532-2540.

  15. [15] 尚玉,肖满,崔秋芳,涂特,晏水平*. CO2捕集工艺中热再生气余热的PVDF/BN-OH平板复合膜回收特性. 化工进展2023423):1618-1628.

  16. [16] 崔秋芳,徐立强,涂特,贺清尧,晏水平*. CO2化学吸收法中再生气的陶瓷膜余热回收特性. 化工进展2019388):3540-3547.

  17. [17] Shuiping Yan*, Qingyao He, Ping Ai, Yuanyuan Wang, Yanlin Zhang. Regeneration performance of concentrated CO2-rich alkanolamine solvents: The first step study of a novel concept for reducing regeneration heat consumption by using concentration swing absorption technology. Chemical Engineering and Processing: Process Intensification, 2013, 70(8): 86-94.

  18. [18] Shuiping Yan*, Mengxiang Fang*, Zhen Wang, Zhongyang Luo. Regeneration performance of CO2-rich solvents by using membrane vacuum regeneration technology: relationships between absorbent structure and regeneration efficiency. Applied Energy, 2012, 98: 357-367.

(三)CO2吸收剂开发与CO2农业利用类

  1. [1] Feihong Liang, Shihui Wei, Lanlan Wu, Shuiping Yan*. Improving the value of CO2 and biogas slurry in agricultural applications: A rice cultivation case. Environmental and Experimental Botany, 2023, 208: 105233.

  2. [2] Feihong Liang, Liang Feng, Nan Liu, Qingyao He, Long Ji, Jo De Vrieze, Shuiping Yan*. An improved carbon fixation management strategy into the crop-soil ecosystem by using biomass ash as the medium. Environmental Technology & Innovation, 2022, 28:102839.

  3. [3] Feihong Liang#, Lang Xu#, Long Ji, Qingyao He, Lanlan Wu, Shuiping Yan*. A new approach for biogas slurry disposal by adopting CO2-rich biogas slurry as the flower fertilizer of Spathiphyllum: Feasibility, cost and environmental pollution potential. Science of the Total Environment, 2021, 770: 145333.

  4. [4] Feihong Liang, Wenjie Yang, Lang Xu, Long Ji, Qingyao He, Lanlan Wu, Yi Ran*, Shuiping Yan*. Closing extra CO2 into plants for simultaneous CO2 fixation, drought stress alleviation and nutrient absorption enhancement. Journal of CO2 Utilization, 2020, 42: 101319.

  5. [5] Qingyao He, Mingfei Shi, Feihong Liang, Lang Xu, Long Ji*, Shuiping Yan*. Renewable absorbents for CO2 capture: from biomass to nature. Greenhouse Gases: Science and Technology, 2019, 9: 637-651.

  6. [6] Qingyao He, Long Ji, Bing Yu, Shuiping Yan*, Yanlin Zhang*, Shuaifei Zhao. Renewable aqueous ammonia from biogas slurry for carbon capture: chemical composition and CO2 absorption rate. International Journal of Greenhouse Gas Control, 2018, 77: 46-54.

  7. [7] Qingyao He, Ge Yu, Shuiping Yan*, Ludovic F. Dumée, Yanlin Zhang, Vladimir Strezov, Shuaifei Zhao*. Renewable CO2 absorbent for carbon capture and biogas upgrading by membrane contactor. Separation and Purification Technology, 2018, 194: 207-215. 

  8. [8] Feihong Liang, Te Tu, Ge Yu, Wenchao Wang, Qingyao He, Shuiping Yan*, Yi Ran*. Ecological treatment of MEA aqueous solution using a hydroponic method. International Journal of Energy for a Clean Environment, 2018, 19(3-4): 143-155.

  9. [9] Qingyao He, Ge Yu, Te Tu, Shuiping Yan*, Yanlin Zhang, Shuaifei Zhao*. Closing CO2 loop in biogas production: recycling ammonia as fertilizer. Environmental Science & Technology, 2017, 51: 8841-8850.

  10. [10] Qingyao He, Ge Yu, Wenchao Wang, Shuiping Yan*, Yanlin Zhang, Shuaifei Zhao*. Once-through CO2 absorption for simultaneous biogas upgrading and fertilizer production. Fuel Processing Technology, 2017, 166: 50-58.

  11. [11] Qingyao He, Jiang Xi, Wenchao Wang, Liang Meng, Shuiping Yan*, Yanlin Zhang. CO2 absorption using biogas slurry: Recovery of absorption performance through CO2 vacuum regeneration. International Journal of Greenhouse Gas Control, 2017, 58: 103-113.

  12.  [12] Shuiping Yan*, Qingyao He, Shuaifei Zhao*, Hong Zhai, Minhui Cao, Ping Ai. CO2 removal from biogas by using green amino acid salts: Performance evaluation. Fuel Processing Technology, 2015, 129 (1): 203-212.

  13. [13] Shuiping Yan*, Qingyao He, Shuaifei Zhao*, Yuanyuan Wang, Ping Ai. Biogas upgrading by CO2 removal with a highly selective natural amino acid salt in gas–liquid membrane contactor. Chemical Engineering and Processing: Process Intensification, 2014, 85(11): 125-135.

  14. [14] 梁飞虹,孙豆,涂特,纪龙,贺清尧,晏水平*. 基于膜空气吹扫技术的农业温室CO2增施可行性分析. 农业机械学报,2021,52(11):351-357.

  15. [15] 王文超,贺清尧,余歌,刘璐,晏水平*. 外源吸收剂对沼液CO2吸收及农业应用的影响. 化工进展,2017,36(4):1512-1520. 

  16.  [16] 贺清尧,王文超,蔡凯,晏水平*,张衍林. 减压浓缩对沼液CO2吸收性能和植物生理毒性的影响. 农业机械学报2016472):200-207.

(四)废弃物资源回收与负碳排放技术

  1. [1] Mingfei Shi#, Haichao Duan#, Liang Feng, Man Xiao, Qingyao He*, Shuiping Yan*. Sustainable ammonia recovery from anaerobic digestion effluent through pretreating the feed by biomass ash. Separation and Purification Technology, 2023, 307: 122655.

  2. [2] Tao Sun#, Wenlong Li#, Long Ji, Qingyao He*, Shuiping Yan*. Valorization of biogas through simultaneous CO2 and H2S removal by renewable aqueous ammonia solution in membrane contactor. Frontiers of Agricultural Science and Engineering, Accepted, 2022.

  3. [3] Mingfei Shi, Xiaorong Zeng, Man Xiao, Qingyao He*, Shuiping Yan*. Ammonia recovery from anaerobic digestion effluent by aeration-assisted membrane contactor. Chemical Engineering Research and Design, 2022, 188: 954-963.

  4. [4] Mingfei Shi, Man Xiao, Liang Feng, Te Tu, Qingyao He*, Shuiping Yan*. Water and green ammonia recovery from anaerobic digestion effluent by two-stage membrane distillation. Journal of Water Process Engineering, 2022, 49: 102949.

  5. [5] Benchi Chen, Yusen Shao, Mingfei Shi, Long Ji, Qingyao He*, Shuiping Yan*. Anaerobic digestion of chicken manure coupled with ammonia recovery by vacuum-assisted gas-permeable membrane process. Biochemical Engineering Journal, 2021, 175: 108135.

  6. [6] Mingfei Shi#, Qingyao He#, Liang Feng, Lanlan Wu, Shuiping Yan*. Techno-economic evaluation of ammonia recovery from biogas slurry by vacuum membrane distillation without pH adjustment. Journal of Cleaner Production, 2020, 265: 121806.

  7. [7] Qingyao He#, Jiang Xi#, Mingfei Shi, Liang Feng, Shuiping Yan*, Liangwei Deng. Developing a vacuum-assisted gas-permeable membrane process for rapid ammonia recovery and CO2 capture from biogas slurry. ACS Sustainable Chemistry & Engineering, 2020, 8: 154-162. (Front cover)

  8. [8] Qingyao He, Mingfei Shi, Feihong Liang, Long Ji, Xin Cheng, Shuiping Yan*. B.E.E.F.: a sustainable process concerning negative CO2 emission and profit increase of anaerobic digestion. ACS Sustainable Chemistry & Engineering, 2019, 7: 2276-2284.

  9. [9] Qingyao He, Te Tu, Shuiping Yan*, Xing Yang, Mikel Duke, Yanlin Zhang, Shuaifei Zhao*. Relating water vapor transfer to ammonia recovery from biogas slurry by vacuum membrane distillation. Separation and Purification Technology, 2018, 191: 182-191.

  10. [10] 贺清尧,石明菲,冯椋,艾平,袁巧霞,晏水平*. 基于膜蒸馏的沼液资源化处理研究进展. 农业工程学报,2021378):259-268.

  11. [11] 梁飞虹,崔秋芳,涂特,余歌,王文超,晏水平*. 基于水培技术的沼液净化及生菜品质提升. 农业环境科学学报2018374):788-795.

  12. [12] 贺清尧,冉毅,刘璐,王文超,晏水平*,张衍林. 生物质灰致沼液氮磷脱除研究. 农业机械学报2017481):237-244+251.

  13. [13] 贺清尧,王文超,刘璐,余歌,晏水平. 沼液氨氮减压蒸馏分离性能与反应动力学. 农业工程学报20163217):191-197.


二、专利、软件类
1. 晏水平,贺清尧,艾平,等. 基于吸收剂浓度变换的气体中CO2化学吸收系统与方法. 发明专利:ZL201310449986.6.

2. 晏水平,蔡凯,贺清尧,等.一种以厌氧发酵沼液为载体的CO2吸收和储存利用系统和方法. 发明专利:ZL 201410722425.3.

3. 晏水平,王文超,贺清尧,等. 以沼液和秸秆水解液制备氨基酸及分离CO2的系统与方法. 发明专利:ZL201510466349.9.

4. 晏水平,贺清尧,王文超,等. 沼液减量化处理和沼气协同净化系统及净化方法. 发明专利:ZL 201510407545.9.

5. 晏水平,王文超,贺清尧,等. 以沼液为CO2吸收剂的沼气提纯与沼液处理系统与方法. 发明专利:ZL201610815657.2.

6. 贺清尧,石明菲,晏水平,等. 减压辅助的沼液氨氮膜回收系统与方法. 发明专利:ZL201811230621.3.


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