主要获奖
1. 栅式位移传感器,中国专利金奖,金奖,2018年;
2.基于测量基准时空转换技术的时栅位移传感器,国家技术发明奖二等奖,2014年;
3.时空坐标转换方法与时栅位移传感器研究,重庆市技术发明奖一等奖,2006年;
4.第二届“中国创翼”青年创业创新大高端装备制造业全国总决赛 一等奖,2016年;
5.第二届中国“互联网+”大学生创新创业大赛 全国铜奖、重庆市金奖,2016年。
主要论文成果
1.Haidong Liu, Kejian Dong, Peigang Yan, Jiyun Zhao, Takashi Hibiki, Jiang Qin, Hanzhou Liu, Deqi Chen. Experimental and theoretical study on liquid-vapor behavior characteristics near CHF[J]. International Journal of Thermal Sciences. 2024, 198:108879.
2.Haidong Liu, Wei Liu, Peigang Yan, Deqi Chen, Kejian Dong, Jiang Qin, Hanzhou Liu. The role mechanism of vapor-liquid behavior on boiling crisis triggering[J]. International Journal of Heat and Mass Transfer. 2022, 196:123248.
3.Haidong Liu, Deqi Chen, Jiang Qin, Erlei Zhao, Peigang Yan, Hanzhou Liu. A phenomenological investigation on near-wall bubble behavior close to CHF in flow boiling[J]. International Journal of Heat and Mass Transfer. 2022, 189:122732.
4.Haidong Liu, Deqi Chen, Kejian Dong, Jiang Qin, Peigang Yan, Hanzhou Liu. A general prediction model of minimum film boiling temperature during bottom reflooding in rectangular channels[J]. Applied Thermal Engineering, 2022,212:118640.
5.Haidong Liu, Deqi Chen, Jiang Qin, Erlei Zhao, Peigang Yan, Hanzhou Liu. Visual experimental study on bubble behavior from nucleation site in vertical rectangular channel[J]. Applied Thermal Engineering, 2022, 201: 117811.
6.Jingtan Chen, Haidong Liu*, Kejian Dong, Experimental and LBM simulation study on the bubble dynamic behaviors in subcooled flow boiling[J]. International Journal of Heat and Mass Transfer,2023,206,123947.
7.Haidong Liu, Erlei Zhao, Deqi Chen , Jiang Qin, Peigang Yan, Wei Liu, Hanzhou Liu. The visual experiment of boiling crisis triggering process during subcooled flow boiling[J]. International Journal of Thermal Sciences, 2022, 172: 107347.
8.Yangyang Wang, Yi Qin*, Xihou Chen*, et al. Absolute Inductive Angular Displacement Sensor for Position Detection of YRT Turntable bearing[J]. IEEE Transactions on Industrial Electronics, 2022.10, 69(10): 10644-10655.
9.YangyangWang, Yi Qin*, Xihou Chen*, et al. Angular displacement sensor for gear position detection based on the tunneling magnetoresistance effect[J]. Measurement Science and Technology, 2022, 34(2): 025112.
10.YangyangWang, Yi Qin*, Xihou Chen*, et al. Parasitic time-grating angular displacement sensor for precision position measurement of turntable bearing. Transactions of the Institute of Measurement and Control. 2023;45(14):2669-2678.
11.秦毅, 王阳阳, 彭东林*,等. 电感式角位移传感器技术综述[J]. 仪器仪表学报, 2022.11,43(11): 1-14.
12. XiaoCheng, Huiying Wu. Enhanced flow boiling performance in high-aspect-ratio groove-wall microchannels. International Journal of Heat and Mass Transfer, 164 (2021) 120468.
13.XiaoCheng, Huiying Wu. Improved flow boiling performance in high-aspect-ratio interconnected microchannels. International Journal of Heat and Mass Transfer, 165 (2021) 120627.
14.XiaoCheng, Huiying Wu.An experimental investigation of flow boiling characteristics in silicon-based groove-wall microchannels-A parametric study of grooves. International Journal of Heat and Mass Transfer, 168 (2021) 120843.
15.XiaoCheng, Junjun Wu. Geometry-metrics-dependent flow boiling characteristics in rectangular microchannels. International Journal of Heat and Mass Transfer, 165 (2024) 124733.
16.XiaoCheng, Junjun Wu. Unravelling the Role of Inlet Valve in Flow Boiling Characteristics in Microchannel: Flow Reversal Suppression. International Communications in Heat and Mass Transfer, 139(2022) 106438.
17.XiaoCheng, Huiying Wu. Impact of inlet subcooling on flow boiling in microchannels. Experimental Thermal and Fluid Science, 142(2023) 110805.
18.XiaoCheng, Rong Chen, et al. Optofluidic membrane microreactor for photocatalytic reduction of CO2. International Journal of Hydrogen Energy, 2016, 41(4): 2457-2465.
19.XiaoCheng, Rong Chen, et al. An optofluidic planar microreactor for photocatalytic reduction of CO2 in alkaline environment. Energy, 2017, 120: 276-282.
20.XiaoCheng, Rong Chen, et al. High-performance optofluidic membrane microreactor with a mesoporous CdS/TiO2/SBA-15@carbon paper composite membrane for the CO2 photoreduction. Chemical Engineering Journal, 2017, 316: 911-918.
主要专利成果
[1]刘海东,秦江,王占良,陈德奇,刘汉周.一种绝缘导电装置:中国,ZL202021371366.7.[P]. 2020-07.13.
[2]刘海东,秦江,王占良,陈德奇,刘汉周.一种适用于高温高压下可视窗多级密封装置:中国,ZL202121139017.7.[P]. 2021-05-25.
[3]刘海东,秦江,周毅,任全耀,韩元吉,陈德奇,刘汉周.模拟金属在铅铋合金环境下多种运动的磨蚀系统及方法:中国, ZL202110807484.0.[P]. 2021-07-16.
[4]刘海东,秦江,任全耀,雷晋,陈德奇,刘汉周.一种适用于高温高压条件的多通道元件密封绝缘装置:中国,ZL202122778813.1.[P]. 2021-11-12.
[5]刘海东,陈德奇,左潜龙,刘汉周,陈明静,程潇,吴俊辰.一种便于安装的液膜测量装置:中国,CN 202311076650.X. [P]. 2023-08-25.
[6]刘海东,陈德奇,左潜龙,刘汉周,陈明静,程潇,吴俊辰.一种适用于高热流密度紧凑型轻量化散热装置:中国,CN 202311075508.3. [P]. 2023-08-25.
[7]吴慧英,程潇,一种PDMS微通道热沉、PDMS模具、硅模具及其制备方法,中国发明专利,授权号:CN110993577B。
[8]吴慧英,程潇,内置微转子强化流动沸腾散热的微通道热沉系统,中国发明专利,授权号:CN110838476B。
[9]吴慧英,程潇,内置微转子强化纳米流体换热的微通道热沉系统,中国发明专利,授权号:CN110867424B。
[10]陈蓉,程潇,一种微通道内强化流体混合的方法,中国发明专利,授权号:CN104984773B。
[11]陈蓉,程潇,一种微通道内产生超小液滴的方法,中国发明专利,授权号:CN104941702B。
[12]陈蓉,程潇,一种微通道内生成乳液的方法,中国发明专利,授权号:CN104941469B。
[13]陈蓉,程潇,光催化还原二氧化碳以及光催化燃料电池耦合产电系统,中国发明专利,授权号:CN104993164B。
科研项目(仅限主持)
[1]亲疏水异质微纳结构微通道内沸腾传热与抗垢协同强化机制,国家自然科学基金青年项目,2023.01-2025.12,30万。
[2]近壁汽液行为对沸腾临界触发机制及机理模型研究,重庆市自然科学基金面上项目,2023.08-2025.07,10万。
[3]太阳能光-热催化产氢技术及系统研发,重庆市技术创新与应用发展重点专项,2023.09-2026.09,10万,
[4]面向旋转机械嵌入式位置感测的传感单元逆向构造与原位集成方法,重庆市教育委员会科学技术研究计划项目, 2023.10-2026.09,4万元。
[5]混合润湿表面微通道内沸腾传热与阻垢协同调控机制,重庆市教委,2023.10-2023.09,4万。
[6]高效紧凑换热设备分析设计及试验测试技术服务,企事业委托项目,2023.07-2025.07,151万。
[7]丝网传感器实验测试及数据采集系统开发,企事业委托项目,2023.07-2024.07,58万。
[8]反应堆热工水力实验系统设计与开发,企事业委托项目,2023.07-2024.07,46.2万。
[9]换挡器结构强度校核与设计开发,企事业委托项目,2024.1-2025.01,55.2万。
[10]大功率长寿命金属型氢燃料电池电动机系统的研发,企事业委托项目,2023.12-2024.12,31万。
[11]直驱电机编码器技术服务,企事业委托项目,2024.02-2024.07,49.2万元。
[12]混合动力推进系统测试平台,企事业委托项目,2023.08-2023.11,48.3万。
[13]氢燃料电池电堆热管理关键技术研究,企事业委托项目,2023.10-2024.02,29.6万。
[14]温差发电器系统关键技术研究,企事业委托项目,2023.12-2024.12,28.9万元。
[15]燃料局部变形行为及其影响研究,中国核动力研究设计院,2023.12-2024.12,11.8万。
[16]蒸汽盘管内两相流脉动载荷计算,企事业委托项目,2023.10-2024.02,19万。
[17]数据采集系统设计及开发,企事业委托项目,2023.12-2024.04,7.2万元。
