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个人简介

姓名:晏水平

硕/博导:博导、硕导

性别:男

办公地点:工程楼B322

职称:教授

电子邮箱:电子邮箱: yanshp@mail.hzau.edu.cn

晏水平,男,1980年生,工学博士,博士生导师,中国农业工程学会第七届青年科技奖获得者、华中农业大学青年拔尖人才、华中农业大学第十一届“十大青年岗位能手”,开源期刊《清洁煤与能源》编委。2009年6月毕业于浙江大学能源清洁利用国家重点实验室,获得动力工程及工程热物理博士学位,2009年7月起供职于华中农业大学。2014年4月至2015年4月在澳大利亚CSIRO Energy Technology进行学术访问交流。共主持国家重点研发子课题、国家自然科学基金、湖北省自然科学基金杰出青年人才项目、华中农业大学自主创新基金、华中农业大学创新团队项目、华中农业大学优秀人才培育专项等项目10余项,参与公益性行业(农业)科研专项等项目多项。以第一作者和通讯作者身份在Environmental Science & Technology、Chemical Engineering Journal、Applied Energy、Journal of Membrane Science、ACS Sustainable Chemistry & Engineering、Energy、农业工程学报、农业机械学报等国内外期刊上发表SCI/EI收录论文60余篇。
英文简介
Prof. Shuiping Yan was awarded his Ph. D degree in Power Engineering and Engineering Thermophysics from Zhejiang University in 2009. Dr. Yan currently works at College of Engineering in Huazhong Agricultural University as a full professor from Jan. 2017. From April, 2014 to April, 2015, he did his research at CSIRO Energy Technology in Newcastle, Australia as a visiting scientist. He has been working on the development of renewable CO2 absorbents for CO2 capture from biogas and flue gas, and CO2 bio-fixation into plants and land. Waste heat recovery for reducing the reboiler duty in CO2 capture process is within his research scope as well.
教育经历
1997年9月- 2001年6月 华中农业大学 机械制造工艺与设备 学士/本科
2001年9月- 2004年6月 华中农业大学 农业机械化工程 硕士/研究生
2005年9月- 2009年6月 浙江大学 动力工程及工程热物理 博士/研究生
工作经历
2004年7月-2005年8月 金华职业技术学院 机电工程学院 助教
2009年7月-2011年12月 华中农业大学 米乐6体育app 农业工程系 讲师
2012年1月-2016年12月 华中农业大学 米乐6体育app 农业工程系 副教授
2014年4月-2015年4月 澳大利亚CSIRO Energy Technology 访问学者
2017年1月-至今 华中农业大学 米乐6体育app 农业工程系教授
主讲课程
主要讲授《能源导论》、《生物质能工程》、《能源概论》、《环保与节能》和《运筹学》、《试验设计与数据处理》等本科生课程和《生物质能转换技术》研究生课程(沼气提纯模块)。
教研教改
华中农业大学2020年“课程思政”示范建设项目:能源与环境概论,2020-2021,主持
研究领域
低能耗CO2化学吸收技术、沼气提纯技术与装备、CO2植物与土壤固定技术
主要学术兼职
湖北省农业工程学会常务理事;
the Hans Journal of Clean Coal and Energy编委;
Applied Energy、Energy & Fuels、Water research、Energy、Separation and Purification Technology、农业机械学报、农业工程学报、化工进展等国内外期刊同行评审专家
科研成果
论文类(只填写SCI、EI、CSCD收录论文,通讯作者请注明,列出格式请参照学术论文引用规范)
[1] 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, 2020, Accepted (Article Number: 119225).
[2] 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.
[3] 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.
[4] 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.
[5] 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.
[6] 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,封面论文)
[7] 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.
[8] 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. (Front cover,封面论文)
[9] 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.
[10] 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.
[11] 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.
[12] 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.
[13] 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.
[14] 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.
[15] 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.
[16] 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.
[17] 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.
[18] 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.
[19] Ming Wang*, Yanlin Zhang, Shuiping Yan*, Baojun Yi, Wenjuan Niu, Qiaoxia Yuan. Enhanced biogas yield of Chinese herbal medicine extraction residue by hydrothermal pretreatment. BioResources, 2017, 12(3): 4627-4638.
[20] 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.
[21] 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.
[22] 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.
[23] 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.
[24] 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.
[25] Shuiping Yan, Mengxiang Fang*, Zhongyang Luo, Kefa Cen. Regeneration of CO2 from CO2-rich alkanolamines solution by using reduced thickness and vacuum technology: Regeneration feasibility and characteristic of thin-layer solvent. Chemical Engineering and Processing: Process Intensification, 2009, 48 (1): 515-523.
[26] Shuiping Yan, Mengxiang Fang*, Weifeng Zhang, Weilong Zhong, Zhongyang Luo, Kefa Cen. Comparative analysis of CO2 separation from flue gas by membrane gas absorption technology and chemical absorption technology in China. Energy Conversion and Management, 2008, 49 (11): 3188-3197.
[27] Shui-ping Yan, Meng-Xiang Fang*, Wei-Feng Zhang, Shu-Yuan Wang, Zhi-Kang Xu, Zhong-Yang Luo, Ke-Fa Cen. Experimental study on the separation of CO2 from flue gas using hollow fiber membrane contactors without wetting. Fuel Processing Technology, 2007, 88 (5): 501-511.
[28] 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. [29] Shuiping Yan*, Qingyao He, Wenchao Wang, Shefeng Li. CO2 absorption using biogas slurry: CO2 absorption enhancement induced by biomass ash. Energy Procedia, 2017, 114: 890-897.
[30] Shuiping Yan*, Liqiang Zhang, Ping Ai, Yuanyuan Wang, Yanlin Zhang, Shefeng Li. CO2 absorption by using a low-cost solvent: biogas slurry produced by anaerobic digestion of biomass. Energy Procedia, 2013, 37: 2172-2179.
[31] Shuiping Yan, Mengxiang Fang*, Zheng Wang, Junli Xue, Zhongyang Luo. Economic Analysis of CO2 separation from coal-fired flue gas by chemical absorption and membrane absorption technologies in China. Energy Procedia, 2011, 4: 1878-1885.
[32] 梅道锋,赵海波,晏水平*. 基于NiO/Ca2Al2SiO7的沼气自热化学链重整制氢热分析动力学模拟. 化工学报,2019,70(S1):193-201.
[33] 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,2019,38(8):3540-3547.
[34] 王明,孔威,晏水平*,艾平,张衍林. 猪场废水发酵前固液分离对总固体及污染物的去除效果. 农业工程学报,2018,34(17):235-240.
[35] 晏水平,余歌,浦吉成,周洪亮,贺清尧,王明. 沼气中CO2化学吸收传质性能分析与传质系数建模. 农业机械学报,2018,49(7):311-318.
[36] 涂特,冉毅,贺清尧,梁飞虹,王明,晏水平*. CaO/PAC混合絮凝剂的沼液净化性能. 化工进展,2018,37(6):2392-2398.
[37] 浦吉成,余歌,梁飞虹,徐立强,晏水平*.典型沼气氛围下吸收剂的CO2化学吸收平衡溶解度及经验模型. 太阳能学报,2018,录用. [38] 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,2018,37(4):788-795.
[39] 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.
[40] 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,2017,48(1):237-244+251.
[41] 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,2016,32(17):191-197.
[42] 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,2016,47(2):200-207.
[43] 贺清尧,蔡凯,晏水平*,艾平,王媛媛,张衍林. 有机胺基氨基酸盐混合吸收剂的沼气CO2分离特性. 化工进展,2015,34 (3): 857-862.
[44] 晏水平*,贺清尧,蔡凯,艾平,王媛媛,张衍林. 有机胺基氨基酸盐吸收剂的沼气CO2分离特性. 农业机械学报,2014,45(6):199-205.
[45] 晏水平,高鑫,艾平*,袁巧霞. 发酵条件对典型木质纤维素原料产沼气影响实验. 农业机械学报,2013,44(增刊2):136-142.
[46] 艾平,王殿龙,谭中欣,晏水平*,张衍林,袁巧霞. 秸秆水解液还原糖组分特征及甲烷特性. 农业机械学报,2013,44(10):177-182.
[47] 晏水平*,陈竞翱,艾平,王媛媛,张衍林. 利用膜吸收技术分离沼气中CO2. 农业工程学报,2012,28(11):196-204.
[48] 晏水平*,陈竞翱,贺清尧,艾平,王媛媛,张衍林. 氨基酸盐吸收剂的沼气CO2吸收特性. 同济大学学报(自然科学版),2012,40(S2):127-133.
[49] 高鑫,晏水平*,贺清尧,方朝阳. 温度和搅拌对甘蔗渣厌氧发酵产沼气的影响.同济大学学报(自然科学版),2012,40(S2):40-46.
[50] 晏水平*,陈竞翱,徐明亮,艾平,张衍林. 自然型氨基酸及其钾盐的CO2吸收和再生特性. 环境科学,2012,33(6):1971-1978.
[51] 晏水平*,陈竞翱,艾平,王媛媛,张衍林. 低成本CO2化学吸收法分离技术的研究进展. 现代化工,2012,32(10):25-28.
专利、软件类
[1].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.
[2].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.
[3].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:ZL201410722425.3.
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
科研项目
[1] 国家自然科学基金,基于生物质灰和沼液可再生吸收剂体系的沼气-CCS新机制(52076101),2021-2024,58万元 主持
[2] 湖北省自然科学基金杰出青年人才项目,面向氮肥、中水和生物天然气生产的畜禽养殖废水资源化利用关键科学问题研究(2020CFA107),2020-2023,30万元 主持
[3] 国家重点研发计划子课题,用于CO2捕集的新型膜余热回收装置和工艺研究(2017YFB0603303-3),2017-2021,77万元 主持
[4] 农业农村部农村可再生能源开发利用重点实验室开放课题,厌氧发酵过程中氨氮抑制的膜蒸馏解除研究(2018-003),2018-2019,5万元 主持
[5] 国家自然科学基金,基于CO2/H2O(g)再生气膜热回收机制的低能耗沼气CO2化学吸收研究(51676080),2017-2020,60万元 主持
[6] 华中农业大学中央高校基本科研业务经费,高效低耗沼液净化与沼气CO2分离的生物质灰耦合触发机制(26622018PY046),2018-2020,18万元 主持
[7] 华中农业大学创新团队项目,农业废弃物综合利用技术与装备(2015PY077),2015-2018,150万元 主持
[8] 国家自然科学基金,以沼液为纽带的沼气中CO2吸收强化与农业生态利用(51376078),2014-2017,80万元 主持
[9] 国家自然科学基金,基于“浓缩-稀释”循环调控化学吸收新机制的沼气中CO2分离研究(51006044),2011-2013,20万元 主持
[10] 华中农业大学优秀人才培育专项,养殖场污染物近零排放与产物高质利用(2011PY007),2011-2013,15万元 主持
[11]公益性行业(农业)科研专项,沼气全面替代农户家庭商品用能的组合设备及技术研究(201303099),2013-2017,30万元(个人可支配) 参与
主要奖励
1. 中国农业工程学会青年科技奖,中国农业工程学会,2017;
2. 华中农业大学“十大青年岗位能手”,华中农业大学,2018。