钱智 - 中国科学院大学 - 资源与环境学院

个人简介

个人经历 2001.09--2005.06：北京化工大学，化工学院，学士 2005.09--2010.06：北京化工大学，化工学院，博士 2010.07--2012.10：中国科学院大学，资环学院，博士后 2012.10--2013.06：中国科学院大学，资环学院，讲师 2013.06 -- 至今：中国科学院大学，资环学院，副教授 2015.09--2016.09：卡耐基梅隆大学，工学院，访问学者科研活动 [1] 超重力强化羟基自由基脱除一氧化氮传质过程及机理，校内，2018.12-2019.12（国科大青年教师提升项目） [2] 黄河氮元素同位素溯源，主持，地方，2017.01-2018.12（青海环科院项目） [3] 地埋式微生物膜反应器的研制，主持，部委级，2016.06-2017.12（中国科学院重点项目） [4] H2S和CO2在超重力机中与MDEA的竞争反应与传质机制，主持，国家级，2012.01--2014.12 （国家自然基金-青年基金） [5] 土壤微环境调控减少农田土壤氮流失关键技术集成与工程示范，主持，国家级，2012.01--2015.12 （国家科技重大专项子专题） [6] 超重力机端效应区MDEA选择性吸收H2S的传质强化机制，主持，部委级，2012.10--2014.10 （中国博士后特别资助）参与会议（1）基于过程强化的过程系统优化中国化工学会年会 Zhi Qian 2019-10-17 （2）Optimal synthesis of rotating packed bed and packed bed: a case illustrating the integration of PI and PSE PSE 2018 Zhi Qian 2018-07-01 （3）Optimal synthesis of rotating packed bed reactor:a case illustrating the integration of PI and PSE 9th Sino-US Joint Conference of Chemical Engineering Zhi Qian 2017-09-21 （4）Optimal synthesis of rotating packed bed reactor SCPPE Zhi Qian 2016-05-10 合作情况中石化北京化工研究院：超重力气体净化技术的过程放大以及工业应用。北京化工大学：过程强化机理研究。 Carnegie Mellon University: 基于过程强化的系统优化。中国科学院生态环境研究中心：高活性氧物种分析。

研究领域

1.废气治理强化技术及纳米材料研发：基于超重力过程强化技术及新型吸附材料对工业尾气中的H2S, NOx, SO2, VOC进行净化处理。 2.环境物化过程数学模型及系统优化：借助数学模型对气液强化传质过程进行量化及优化。

近期论文

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2020年 [1] A novel High-Gravity AOP process for enhanced NOx attenuation using alkaline H2O2 as a strong oxidizing reagent: Reaction mechanisms and kinetics, Chemical Engineering Journal, 2020(第1作者) [2] Using dielectric barrier discharge and rotating packed bed reactor for NOx removal, Separation and Purification Technology, 2020(通讯作者) [3] NOx attenuation in flue gas by OH/SO4--based advanced oxidation processes, Environmental Science and Pollution Research, 2020(通讯作者) 2019年 [1] Investigation of bacterial diversity and pathogen abundances in gibelcarp ponds during a cyprinid herpesvirus2 outbreak, Microbiology Open, 2019(通讯作者) [2] Determination of surface energy parameters of hydrophilic porous membranes via a corrected contact angle approach, Langmuir, 2019(通讯作者) 2018年 [1] Optimal synthesis of rotatingpacked bed and packed bed: a case illustrating the integration of PI and PSE, Computer-Aided Chemical Engineering, 2018(第1作者) [2] Enhanced Iodide Removal from Water by Nano-Silver Modified Anion Exchanger, Ind. Eng. Chem. Res., 2018(第7作者) 2017年 [1] Optimal synthesis of rotating packed bed reactor, Computers & Chemical Engineering, 2017(第1作者) 2016年 [1] Removal of Nitric Oxide in a Microporous Tube-In-Tube Microchannel Reactor by Ferrous Chelate Solution, The Canadian Journal of Chemical Engineering, 2016(第2作者） 2015年 [1] Selective absorption of H2S from a gas mixture with CO2 in a microporous tube-in-tube microchannel reactor, Chemical engineering and processing, 2015(第4作者) 2014年 [1] Optimal Packing of a Rotating Packed Bed for H2S Removal. Environmental Science & Technology. 2014(通讯作者) [2] An Innovative Approach of the Effective Mass Transfer Area in the Rotating Packed Bed.Industrial Engineering Chemical Research. 2014(通讯作者) [3] Absorption of carbon dioxide into N-methyldiethanolamine in a high-throughput microchannel reactor.Separation and Purification Technology. 2014(通讯作者) [4] Characteristics of mass transfer between gas-liquid phases in a higee reactor. Chem. Ind. & Chem. Eng. Quar. 2014(通讯作者) 2013年 [1] Deviation of Carbon Dioxide-water Gas-liquid Balance from Thermodynamic Equilibrium in Turbulence : Experiment and Correlation. Chin. J. Chem. Eng, 2013(第2作者) 2012年 [1] Industrial Applied and Modeling Research on Selective H2S Removal Using a Rotating Packed Bed. Industrial Engineering Chemical Research, 2012(第1作者) [2] A Pilot-scale Demonstration of Reverse Osmosis Unit for Treatment of Coal-bed Methane Co-produced Water and Its Modeling，Chin. J. of Chem. Eng., 2012(第1作者) 2011年之前 [1] Selective absorption of H2S from gas mixture of CO2 and H2S into aqueous N-methyldiethanolamine in a rotating packed bed，Industrial Engineering Chemical Research, 2010(第1作者) [2] Gas-liquid mass transfer accompanied by reversible reaction in rotating packed bed. CIESC J. 2010, 61(4): 832-838 (国际EI,第1作者) [3] Modeling study on absorption of CO2 by aqueous solutions of MDEA in rotating packed bed，Industrial Engineering Chemical Research, 2009(第1作者) [4] Modeling and kinetic study on absorption of CO2 by aqueous solutions of MDEA in a modified wetted wall column，Chin. J. of Chem. Eng., 2009(第1作者)