L

    L
    当前位置: 首页 > L > 正文

    刘鹏

    发布时间:2022-05-09  发布者: 点击阅读数:

    姓名:刘鹏

    职称:副教授

    地址:武汉工程大学流芳校区大化工楼C407

    邮箱:peng_liu@wit.edu.cn

    个人基本情况

    刘鹏,20146月及20196月于华中科技大学分别获得学士及博士学位,201910月至202110月在华中科技大学能源学院开展博士后研究,202111月起入职武汉工程大学红宝石活动优惠大厅hbs任教。主要研究方向:流动传热强化理论与技术、太阳能光热利用、电子器件高效热管理技术等。近年来,在Energy Conversion and ManagementInternational Journal of Heat and Mass TransferEnergyRenewable EnergyApplied Thermal Engineering等能源与传热传质工程领域知名期刊发表SCI论文28篇,其中包括第一或通讯作者10篇,1篇入选ESI高被引论文,授权发明专利1项。学术论文SCI他引500余次,Google学术H因子20。多次参加国际国内学术会议并作口头报告,并担任第九届国际应用能源学术会议分会场主席;担任International Journal of Photoenergy期刊关于太阳能热技术进展特刊客座编辑,受邀担任International Journal of Heat and Mass TransferInternational Journal of Communications in Heat and Mass TransferRenewable EnergyApplied Thermal EngineeringEnergy Reports等期刊的审稿人。

    开设课程

    本科生课程:《化工机械设备基础》、《工程制图》

    科研项目

    1. 中国博士后科学基金面上项目(二等):基于导热网络调控表面过热度分布及其与润湿性分布协同强化沸腾换热机理研究(2020-2021)主持

    2. 中国航天科技集团有限公司第一研究院横向课题项目:一体化系统仿真与多目标优化方法研究与地面考核模拟实验平台研制(2020-2021)主持

    3. 国家自然科学基金面上项目:吸附-反电渗析热力系统中能量转换特性与热质传递机理研究(2022-2025)参与

    4. 国家自然科学基金重点项目:基于斯特林热机的能量转换与传递过程基础问题研究(2018-2022)参与

    5. 国家自然科学基金青年项目:基于流场与温度场同步测量的管内对流强化传热机理研究(2017-2019)参与

    6. 国家自然科学基金面上项目:基于减阻与耗散理论的聚合物材料换热器及其传热元件的优化设计理论与实验研究(2014-2017)参与

    7. 国家973计划课题项目:余热能级及梯级利用的定量化原则及其在热力系统中的应用(2013-2017)参与

    代表性成果(论文及专利)

    1. Liu P, Dong ZM, Xiao H, Liu ZC, Liu W. A novel parabolic trough receiver by inserting an inner tube with a wing-like fringe for solar cascade heat collection. Renewable Energy, 2021, 170: 327-340.

    2. Liu P, Dong ZM, Xiao H, Liu ZC, Liu W. Thermal-hydraulic performance analysis of a novel parabolic trough receiver with double tube for solar cascade heat collection. Energy, 2021, 219:119566.

    3. Liu P, Wu JF, Chen LG, Liu ZC, Liu W. Numerical analysis and multi-objective optimization design of parabolic trough receiver with ribbed absorber tube. Energy Reports, 2021, 7: 7488-7503.

    4. Liu P, Lv JY, Shan F, Liu ZC, Liu W. Effects of rib arrangements on the performance of a parabolic trough receiver with ribbed absorber tube. Applied Thermal Engineering, 2019, 156: 1-13.

    5. Liu P, Zheng NB, Liu ZC, Liu W. Thermal-hydraulic performance and entropy generation analysis of a parabolic trough receiver with conical strip inserts. Energy Conversion and Management, 2019, 179:30-45.

    6. Liu P, Zheng NB, Shan F, Liu ZC, Liu W. Heat transfer enhancement for laminar flow in a tube using bidirectional conical strip inserts. International Journal of Heat and Mass Transfer, 2018, 127:1064-1076.

    7. Liu P, Zheng NB, Shan F, Liu ZC, Liu W. An experimental and numerical study on the laminar heat transfer and flow characteristics of a circular tube fitted with multiple conical strips inserts. International Journal of Heat and Mass Transfer, 2018, 117:691-709.

    8. Liu P, Zheng NB, Shan F, Liu ZC, Liu W. Numerical study on characteristics of heat transfer and friction factor in a circular tube with central slant rods. International Journal of Heat and Mass Transfer, 2016, 99: 268-282.

    9. Xiao H, Liu P*, Liu ZC, Liu W*. Performance analyses in parabolic trough collectors by inserting novel inclined curved-twisted baffles. Renewable Energy, 2021, 165: 14-27.

    10. Liu W, Liu P, Dong ZM, Yang K, Liu ZC. A study on multi-field synergy theory for convective heat and mass transfer enhancement, International Journal of Heat and Mass Transfer, 2019, 134 :722-734.

    11. Liu W, Liu P, Wang JB, Zheng NB, Liu ZC. Exergy destruction minimization: a principle to convective heat transfer enhancement. International Journal of Heat and Mass Transfer, 2018, 122:11-21.  

    上一条: 李欢欢 下一条:李育房