所获荣誉
[1] 第十届中国青少年科技创新奖.(中国青少年科技创新领域最高奖项,在人民大会堂受到了原国务院副总理刘延东同志和国家副主席李源潮同志的接见)
[2] 陕西省秦创原引用高层次创新创业人才.
[3]国际学术组织Science Father颁布的Best Researcher Award.
[4] 2021年人民网奖学金(全国30人、校唯一、省唯二)
[5] 创新故事入选《青春新动能、科技强国梦》(全国44人)
主讲课程及教学成果
[1] 工程热力学(本科生),可再生能源建筑一体化技术(硕士生)
[2] 指导大学生创新创业训练计划项目:太阳能平板集热器弯管二次流强化传热研究(国家级,结题优秀,推荐参加大学生创新创业年会)、基于光伏光热太阳能电站综合系统的容量配置及优化(国家级,结题良好)、全玻璃热管式真空集热管数值模拟研究(省级,结题优秀)
[3] 指导大学生学科竞赛项目:太阳能热利用技术创新大赛国家级二等奖、第五届全国大学生可再生能源优秀科技作品竞赛国家级二等和三等奖
科研成果
一、期刊论文
[1]Jing-hu Gong, et al. Improving the performance of a 2-stage large aperture parabolic trough solar concentrator using a secondary reflector designed by adaptive method. Renewable Energy 152 (2020): 23-33. (SCI一区,TOP,引用34次)
[2]Jing-hu Gong, et al. Improving the performance of large-aperture parabolic trough solar concentrator using semi-circular absorber tube with external fin and flat-plate radiation shield. Renewable Energy 159 (2020) 1215-1223. (SCI一区,TOP,引用18次)
[3]Jing-hu Gong, et al. Comparative study of heat transfer enhancement using different fins in semi-circular absorber tube for large-aperture trough solar concentrator. Renewable Energy. 169 (2021) 1229-1241. (SCI一区,TOP,引用8次)
[4]Jing-hu Gong, et al. Improving stability and heat transfer through a beam in a semi-circular absorber tube of a large-aperture trough solar concentrator. Energy. 228 (2021) 120614. (SCI一区,TOP,引用3次)
[5]Jing-hu Gong, et al. Optimizing research on large-aperture parabolic trough condenser using two kinds of absorber tubes with reflector at 500℃. Renewable Energy 179 (2021) 2187-2197.(SCI一区,TOP,引用1次)
[6] Wang Chenglong*,Gong Jing-Hu*, et al. Theoretical and experimental study on the uniformity of reflective high concentration photovoltaic system with light funnel. Renewable Energy 133 (2019) 893–900. (SCI一区,TOP,引用18次,二作兼通讯)
[7]Jing-hu Gong, et al. Straight-through all-glass evacuated tube solar collector for low and medium temperature applications. Solar Energy 201 (2020): 935-943. (SCI二区,TOP,引用16次)
[8]Jing-hu Gong, et al. Numerical study on the uniformity of reflective high concentration photovoltaic system with two-stage reflective concentrator. Solar Energy 199 (2020): 206-213. (SCI二区,TOP,引用14次)
[9]Jing-hu Gong, et al. Study on the uniformity of high concentration photovoltaic system with array algorithm. Solar Energy 153 (2017) 181–187. (SCI二区,TOP,引用19次)
[10]Jing-hu Gong, et al. Optical, thermal and thermo-mechanical model for a larger-aperture parabolic trough concentrator system consisting of a novel flat secondary reflector and an improved absorber tube. Solar Energy. 240 (2022): 376-387.(SC二区,TOP)
[11] Ling-gang Kong*, Xin-long Chen*,Jing-hu Gong*, et al. Scheduling optimization of the hybrid solar power consisted of photovoltaic and concentrated solar power using butterfly algorithm. Energy Conversion and Management 257(2022):115310. (SCI一区,TOP,引用8次,共同一作)
[12]Jing-hu Gong, et al. Performance optimization of larger-aperture parabolic trough concentrator solar power station using multi-stage heating technology. Energy, 268 (2023): 126640 (SCI一区,TOP)
[13]Jing-hu Gong, et al. Performance studies of novel all-glass heat pipe evacuated collector tube integrating numerical simulation and experiment method. Solar Energy, 235(2023):491-500 (SCI二区,TOP)
[14]Jing-hu Gong, et al. Thermal and thermo-mechanical analysis of a novel pass-through al -glass evacuated collector tube by combining experiment with numerical simulation. Energy,277(2023): 127630. (SCI一区,TOP)
二、发明专利
[1] 王军,巩景虎等.具有二次反射镜的槽式发电系统. ZL201910588554.0.
[2] 王成龙,巩景虎等.一种光伏光热联合发电装置. ZL201610142661.7.
[3] 王成龙,巩景虎等.线性菲涅尔一次反射镜反射光线进入CPC率的测试设备及测试方法. ZL201610152838.1.
[4] 王成龙,巩景虎等.囊式减速带联合风力发电供热水及热泵空调装置. ZL201510792167.
[5] 王克振,巩景虎等.太阳能半遮光式热驱动自动跟踪装置. ZL201410269653.X.
[6] 王军,巩景虎等.带有翅片的半圆型集热管及大开口高聚光比槽式聚光集热系统.申请号:201910801940.3.
[7] 王军,巩景虎等.一种带有CPC聚光器的全玻璃热管式真空集.申请号: 202010120635.0.
[8]巩景虎等.带有平板二次反射镜的槽式聚光集热系统及其设计方法.申请号202210465134.5.
[9]巩景虎等.一种梯级大开口槽式太阳能聚光集热系统及设计方法.申请号:202210616703.1.
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