Jianhao Liu

Prior member

  • 现就职中远川崎

  • 中国仿真学会会员

研究方向:

  • 船舶余热综合利用
  • 基于TEG-TENG复合能量采集
  • 直流摩擦纳米发电机

获奖情况:

  • 2019-2020学年“大连海事大学”优秀研究生
  • 2019-2020学年“大连海事大学”优秀指导员助理
  • 2020-2021学年“大连海事大学”优秀团干部
  • 大连海事大学2019年度“五四表彰”优秀团员
  • “杰瑞杯”第七届中国研究生能源装备创新设计大赛国家三等奖(队长)
  • “杰瑞杯”第六届中国研究生能源装备创新设计大赛国家三等奖(主力队员)
  • 中国航海学会2020年优秀航海科技论文奖

期刊论文:

  1. Study on a new cascade utilize method for ship waste heat based on TEG-ORC combined cycle(学生1作,投稿于Environmental Progress & Sustainable Energy(SCI),JCR分区Q2,IF=1.989,已录用)
  2. A wind driven rotational direct current triboelectric nanogenerator for inactivating seawater microorganisms(学生1作,投稿于Nano Energy(SCI),JCR分区Q1,IF=17.881,审稿中)
  3. Research on Human Kinetic Energy Collection Device based on direct current triboelectric nanogenerator(学生1作,投稿于JOURNAL OF THE ENERGY INSTITUTE(SCI),JCR分区Q2,IF=4.748,审稿中)
  4. Design and study of a combining energy harvesting system based on thermoelectric and flapping triboelectric nanogenerator (学生2作,投稿于International Journal of Green Energy(SCI),JCR分区Q3,IF=1.388,已录用)
  5. Research on TEG-ORC Combined Cycle for Cascade Recovery from Various Vessel Waste heat (学生3作,投稿于International Journal of Energy Research(SCI),JCR分区Q2,IF=3.741,已录用)
  6. Experimental study on cascade utilization of ship's waste heat based on TEG-ORC combined cycle(学生3作,投稿于International Journal of Energy Research(SCI),JCR分区Q2,IF=3.741,已录用)
  7. Simulation research of TEG-ORC combined cycle for cascade recovery of vessel waste heat (学生3作,投稿于International Journal of Green Energy(SCI),JCR分区Q3,IF=1.388,已录用)
  8. Experimental research of underwater intelligent material recognition sensor based on thermoelectric effect(学生3作,投稿于Journal of Marine Engineering and Technology(SCI),JCR分区Q2,IF=1.049,投稿中)
  9. 船舶多种余热梯级回收 TEG-ORC 联合循环实验研究(学生2作,西安交通大学学报(EI),已录用)
  10. 面向船舶多种余热梯级利用的TEG-ORC联合循环性能研究(学生2作,工程科学学报(EI),已录用)

会议论文:

  1. Design of Self-powered Environment Monitoring Sensor Based on TEG and TENG (投稿于第16届微纳工程与分子系统国际研讨会(IEEE-NEMS2021)(EI会议)(第1作者),已录用)
  2. 船舶余热梯级利用装置设计及实验研究(投稿于中国航海学会,已录用)
  3. An Underwater Material Recognition Device Based On A Micro Thermal Electric Power Generator(投稿于17th UK Heat Transfer Conference(EI会议)已录用)

发明专利:(均处于实质审查阶段)

  1. 《一种基于太阳能、风能与雨能多能互补的自供能装置》申请号201911270036.0(学生1作)
  2. 《一种基于TEG和PEG的太阳能与风能多能互补小型能量采集装置》申请号201911269273.5(学生1作)
  3. 《一种基于雨能和风能的自供能单元及除尘装置》申请号2020110861483(学生1作)
  4. 《一种旋转式直流摩擦纳米发电机及流速传感器装置》申请号2020110869610(学生1作)
  5. 《一种自供能环境监测传感器装置》申请号2020110861695(学生1作)
  6. 《直流摩擦纳米发电机在灭活船舶压载水微生物的应用》申请号202110553858.0(学生1作)
  7. 《一种基于旋转式直流摩擦纳米发电机的发电路面》申请号202110561127.0(学生1作)