科研成果 - 张 永海
| 论文标题 | 作者 | 发表/完成日期 | 期刊名称 |
|---|---|---|---|
| 常/微重力下微结构表面强化沸腾换热研究进展 | 魏进家*,刘斌,张永海 | 2018-08-01 | 化工进展, 2019, 38(1): 14-29. |
| 亲疏水表面换热性能及其沸腾现象的微细化研究 | 孔新, 魏进家*, 张永海 | 2018-05-20 | 工程热物理学报, 2018, 39(6): 1373-1378. |
| Experimental Study of Subcooled Flow Boiling Heat Transfer on a Smooth Surface in Short-Term Microgravity | Yonghai Zhang, Bin Liu, Jianfu Zhao, Yueping Deng, Jinjia Wei* | 2018-05-16 | Microgravity Science and Technology, 2018,30(6): 792-805. |
| Pool boiling heat transfer of N-pentane on micro/nanostructured surfaces | B. Liu, Z. Cao, Y. H. Zhang, Z. Wu, A.Pham, W. Wang, Z. Wang, J. Wei, B. Sunden | 2018-05-08 | International Journal of Thermal Sciences, 2018, 130: 386–394. |
| Experimental Study of Subcooled Flow Boiling Heat Transfer on Micro-Pin-Finned Surfaces in Short-Term Microgravity | Yonghai Zhang, Bin Liu, Jianfu Zhao, Yueping Deng, Jinjia Wei* | 2018-05-06 | Experimental Thermal and Fluid Science, 2018, 97: 417-430. |
| Pool boiling heat transfer of FC-72 on pin-fin silicon surfaces with nanoparticle deposition | Z Cao, B Liu, C. Preger, Z Wu, Y.H. Zhang, X.Wang, M.E. Messiing et al. | 2018-05-05 | International Journal of Heat and Mass Transfer, 2018, 126: 1019–1033. |
| Heat transfer correlations for Jet Impingement Boiling over Micro-pin-finned Surface | Yonghai Zhang, Bin Liu, Jinjia Wei*, Bengt Sundén, Zan Wu | 2018-04-29 | International Journal of Heat and Mass Transfer, 2018 , 126: 401–413. |
| CHF correlation of boiling in FC-72 with micro-pin-fins for electronics cooling | Yonghai Zhang, Jie Zhou, Wenjing Zhou, Baojin Qi, Jinjia Wei* | 2018-04-10 | Applied Thermal Engineering, 2018, 138: 494–500. |
| Catalytic dehydrogenation study of dodecahydro-N-ethylcarbazole by noble metal supported on reduced graphene oxide | Bin Wang, Tieyan Chang, Zhao Jiang, Jinjia Wei,Yonghai Zhang, Sen Yang, Tao Fang | 2018-02-24 | International Journal of Hydrogen Energy, 2018 43(15): 7317-7325. |
| A modified bubble dynamics model for predicting bubble departure diameter on micro-pin-finned surfaces under microgravity | Jie Zhou, Yonghai Zhang, Jinjia Wei* | 2017-12-28 | Applied Thermal Engineering, 2018, 132: 450–462. |
| Experimental study of pool boiling heat transfer on novel bistructured surfaces based on micro-pin-finned structure, | Xin Kong, Yonghai Zhang, Jinjia Wei* | 2017-09-24 | Experimental Thermal and Fluid Science, 2018, 91(Supplement C): 9-19. |
| A Study on Enhancement of Boiling Heat Transfer by Mixed-Wettability Surface | Xin Kong, JinjiaWei*, Yueping Deng, Yonghai Zhang | 2017-08-01 | Heat Transfer Engineering, 2018, 39(17-18):1552-1561. |
| Pool Boiling Experiment on Modified Micro-Pin-Finned Surface with Mechanical Oscillation | JinjiaWei*, Xin Kong, Jie Ding, Yonghai Zhang | 2017-05-06 | Heat Transfer Research, 2018, 48(9): 991–1001. |
| Nucleate Pool Boiling Heat Transfer on Micro-Pin-Finned Surface in Short-Term Microgravity | Yong Hai Zhang, Jian Fu Zhao, Jin Jia Wei*,Yan Fang Xue | 2017-02-01 | Heat Transfer Engineering, 2017, 38(6): 594-610. |
| 机械振荡下微结构表面沸腾换热性能实验研究 | 丁婕,魏进家*,孔新,张永海 | 2016-12-10 | 工程热物理学报, 2016, 37(1): 164-167. |
| 交错排列柱状微结构表面池沸腾换热实验研究 | 刘泳辰,魏进家*,孔新,张永海 | 2016-08-16 | 西安交通大学学报, 2016, 50(7), 13-17. |
| 柱状微结构射流强化换热性能研究 | 张永海, 魏进家*, 孔新 | 2016-08-10 | 工程热物理学报, 2016, 37(9): 1952-1955. |
| Experimental Study of the Heater Size Effect on Subcooled Pool Boiling Heat Transfer of FC-72 in Microgravity | Xueli Wang, Yonghai Zhang, Baojin Qi, Jianfu Zhao, Jinjia Wei* | 2016-03-26 | Experimental Thermal and Fluid Science, 2016, 76: 275-286. |
| Boiling heat transfer enhancement of nanofluids on a smooth surface with agitation | Xin kong, Bao Jin Qi, Jin Jia Wei*, Wei Li, Jie Ding, Yong Hai Zhang | 2016-02-15 | Heat and Mass Transfer, 2016, 52(12): 2769-2780. |
| 柱状微结构表面强化沸腾换热研究综述 | 魏进家*, 张永海 | 2015-09-08 | 化工学报, 2016, 67(1): 97-108. |
| 专利名称 | 申请号 | 专利类型 | 申请日期 |
|---|---|---|---|
| 一种热管理系统 | 202210766982.X | 发明 | 2022.07.01 |
| 一种分级式歧管微通道散热装置 | 202111408691.5 | 发明 | 2021.11.25 |
| 一种浸没式液冷毛细芯能量转化自驱动相变散热装置(授权) | CN202111095537.7 | 发明 | 2021.09.17 |
| 一种机械扰动驱浸没式液冷烧结毛细芯铜基散热装置(授权) | CN202111088291.0 | 发明 | 2021.09.16 |
| 一种基于弹性湍流的双流体回路错排波型微通道散热器(授权) | 202110713634.1 | 发明 | 2021.06.25 |
| 一种射流-横流组合浸没式散热装置与方法(授权) | CN202110707777.1 | 发明 | 2021.06.24 |
| 一种散热装置(授权) | CN202110589246.7 | 发明 | 2021.05.28 |
| 一种Y字形浸没式毛细微通道强化散热结构及其制造方法 | 202110464779.2 | 发明 | 2021.04.28 |
| 一种浸没式液冷烧结多孔毛细芯耦合微通道散热装置(授权) | CN202110464785.8 | 发明 | 2021.04.28 |
| 一种基于气液分离的双层微通道散热装置(授权) | CN202110144313.4 | 发明 | 2021.02.02 |
| 负压相变散热装置及高热流密度电子芯片模拟散热系统(授权) | CN202011492092.1 | 发明 | 2020.12.15 |
| 一种基于池沸腾散热的液体腔散热装置(授权) | CN202011400608.5 | 发明 | 2020.12.03 |
| 一种两相散热回路主动控制系统与方法 | CN202011079353.7 | 发明 | 2020.10.10 |
| 一种长条形大功率LED灯(授权) | CN202022189529.6 | 发明 | 2020.09.29 |
| 一种可在高漏热下稳定运行的平板式环路热管及使用方法 | CN202011026819.7 | 发明 | 2020.09.25 |
| 一种具有立体网状结构的电子器件散热结构及制造方法(授权) | CN202010820770.6 | 发明 | 2020.08.14 |
| 一种低流阻芯片嵌入式阵列微射流散热器及其制造方法(授权) | CN202010382883.2 | 发明 | 2020.05.08 |
| 基于弹性湍流的超低流阻微通道液冷换热器及其制造方法(授权) | CN202010383793.5 | 发明 | 2020.05.08 |
| 一种泵驱薄膜蒸发第三代半导体电子器件散热装置及方法(授权) | CN202010027236.X | 发明 | 2020.01.10 |
| 一种基于液滴连续补液的散热装置 | 202011586914.2 | 发明 | 2020.01.01 |
(创新港)
