基本信息

       

吴小梅  博士

副教授,博士生导师

化工学院,化工过程机械研究所

 

      本科就读于过程装备与控制工程专业,2018年12月博士毕业于动力工程及工程热物理专业(导师:张早校教授)。2017年1月至2018年2月在澳大利亚昆士兰大学化工学院(合作导师:Victor Rudolph教授)进行访学交流。现主持国家自然科学基金青年项目1项,陕西省自然科学基金1项,中国博士后特别资助计划1项,中国博士后科学基金2项,中央高等学校基础科研业务费项目1项。作为子课题负责人参与国家自然科学基金碳中和专项1项,参与基金委原创项目1项,基金委面上项目1项。另外,作为主要参与人参与企业节能减排相关横向课题多项。目前已发表学术论文20余篇,其中SCI源刊10余篇。已授权国家发明专利3件。

联系方式

联系电话:13772005574

通讯地址:陕西省西安市碑林区

                 咸宁西路28号

邮       编:710049

办公地址:创新港19号楼4F-045

邮       箱:wuxiaomei@xjtu.edu.cn

Researchgate:https://www.researchgate.net/profile/Xiaomei-Wu-2

站点计数器

我的新闻

研究领域

 课题组以“双碳目标”为研究背景,针对温室气体减排与利用这一主题开展系统研究。开发了变截面喷雾塔撞击流喷雾高效捕集CO2技术;在前期研究基础上提出微纳尺度荷电液滴群强化撞击流喷雾捕集CO2技术;对目前国际上先进的电化学介导胺捕集CO2技术开展了从机理到实验室应用的研究;以上研究获得了许多有意义的成果,有望实现高效低成本CO2捕集,为我国“双碳目标”落实、落地提供技术支撑。主要研究方向如下:

 

  • 二氧化碳减排与利用技术:CO2捕集技术研究、电化学介导胺碳减排技术。

 

  • 化工过程节能优化及控制:系统的开展过程工业用能诊断与节能减排优化研究。

 

  • 高效能源化工装备开发:设计开发高效塔器、喷射器等能源化工装备。

 

     每年招收1-2名硕士生和1名博士生,欢迎报考。

 

代表性成果:

[1] Mao Y, Sultan S, Fan H, Xiaomei Wu*. Stability improvement of the advanced electrochemical CO2 capture process with high-capacity polyamine solvents[J]. Applied Energy, 2024, 369: 123597. (IF=10.1).

[2] Xiaomei Wu, Fan H, Mao Y, et al. Comparative Performance Evaluation of Absorbents for the Electrowinning-Coupled Competitive Separation CO2 Capture Process[J]. ACS Sustainable Chemistry & Engineering, 2024. (IF=7.1).
[3] Xiaomei Wu., Mao, Y., Fan, H., Sultan, S., Yu, Y., & Zhang, Z. (2023). Investigation on the performance of EDA-based blended solvents for electrochemically mediated CO2 capture. Applied Energy, 349, 121656. (IF=11.446).
[4] Fan, H., Mao, Y., Sultan, S., Yu, Y., Xiaomei Wu*, & Zhang, Z. (2023). Combined experimental and computational study for the electrode process of electrochemically mediated amine regeneration (EMAR) CO2 capture. Applied Energy, 349, 121656. (IF=11.446).
[5] Fan, H., Mao, Y., Wang, H., Yu, Y., Xiaomei Wu*, & Zhang, Z. (2023). Performance comparation of MEA and EDA in electrochemically-mediated amine regeneration for CO2 capture. Separation and Purification Technology, 311, 123282. (IF=9.136).

[6] ​​Xiaomei Wu, Huifeng Fan, et al. Systematic study of an energy efficient MEA-based electrochemical CO2 capture process: From mechanism to practical application[J]. Applied Energy, 2022, 327: 120014. (IF=11.446).

[7] Huifeng Fan, Yuanhao Mao, Xiaomei Wu*, et al. Performance comparation of MEA and EDA in electrochemically-mediated amine regeneration for CO2 capture[J]. Separation and Purification Technology, 2023, 311: 123282. (IF=9.136).

[8] Xiaomei Wu, Maimoona Sharif, Yunsong Yu, Zaoxiao Zhang. Hydrodynamic mechanism study of the diameter-varying spray tower with atomization impinging spray. Separation and Purification Technology, 2021, 268, 118608. (IF=9.136).

[9] Xiaomei Wu, Huifeng Fan, Maimoona Sharif, Yunsong Yu, Zaoxiao Zhang. Electrochemically-mediated amine regeneration of CO2 capture: From electrochemical mechanism to bench-scale visualization study. Applied Energy, 2021, 302, 117554. (IF=11.446).

[10] Xiaomei Wu, Yunsong Yu, Zaoxiao Zhang. Experimental and numerical study on CO2 absorption mass transfer enhancement for a diameter-varying spray tower[J]. Applied Energy, 2018, 225: 367-379. (IF=11.446).

[11] Xiaomei Wu, Yunsong Yu, Zaoxiao Zhang. Performance of CO2 absorption in a diameter varying spray tower[J]. Chinese Journal of Chemical Engineering, 2017, 25(8), 1109-1114. (IF: 3.171)

[12] Xiaomei Wu, Yunsong Yu, Zaoxiao Zhang. String to characterize the field synergy during CO2 capture by CaCl2-supported MEA adsorbent[J]. The Journal of Physical Chemistry C, 2014, 119(1): 473-485. (IF: 4.126)

[13] Xiaomei Wu, Yunsong Yu, Zaoxiao Zhang. Identifying the CO2 capture performance of CaCl2 -supported amine adsorbent by the improved field synergy theory[J]. Industrial & Engineering Chemistry Research, 2014, 53(24): 10225-10237. (IF: 3.764)

[14] 张早校; 吴小梅; 余云松 ; 一种喷雾捕集烟气中二氧化碳的喷射塔及喷射吸收测试系统和方法, 2018-4-17, 中国, ZL201510548133.7

[15] 陕西石化科技一等奖(5/8

[16] 2024年百名教师课程思政大练兵,二等奖。