Research
To be updated...
- .Gege Song, Hongqiang Chen, Yonghai Zhang*, Jinjia Wei, Xiang Ma*.Reviews: Applications of optimization algorithm for microchannel and microchannel heat sink on heat transfer,2024,108:109451
- .Hongqiang Chen, Quan Gao, Xiang Ma*, Kai Li, Wangfang Du, Caifeng Li, Yonghai Zhang**, Jinjia Wei.Teardrop-like micro pin fin coated nanotube arrays chip for enhancement of flow boiling electronics cooling,2025,214:109854
- .Xiang Ma, Chengyu Hu, Hongqiang Chen, Wenkai Cu, Yonghai Zhang*, Xiaoping Yang, Jinjia Wei, Bengt Sund´en.Saturated/subcooled flow boiling heat transfer characteristics for R134a, HFE-7100 and Deionized water inside micro/mini-channels: Part II – New CHF prediction model establishment,2024,235:126223
- .Xiang Ma, Chengyu Hu, Hongqiang Chen, Wenkai Cu, Yonghai Zhang*, Xiaoping Yang, Jinjia Wei, Bengt Sund´en.Saturated/subcooled flow boiling heat transfer characteristics for R134a, HFE-7100 and Deionized water inside micro/mini-channels: Part I - Visualization of flow patterns and new diabatic two-phase flow pattern transition regimes,2024,234:126077
- .Xiang Ma, Chengyu Hu, Xinyu Ji, Xiaoping Yang, Na Xu*, Yonghai Zhang*, Jinjia Wei, Yali Feng, Bengt Sund´en.Flow boiling frictional pressure drop inside micro/mini-channels: A new general model and experimental investigation,2024,247:123111
- 一种分级式歧管微通道散热装置,ZL 202111408691.5,Invent,2021-11-25,
- 一种基于弹性湍流的双流体回路错排波型微通道散热器,ZL 202110713634.1,Invent,2021-6-25,
- 一种基于气液分离的双层微通道散热装置,ZL 202110144313.4,Invent,2021-2-2,
- 一种基于液滴连续补液的散热装置,ZL 202011586914.2,Invent,2020-12-28,
- 2025ZD1406702,高比例绿电消纳油气注采输模式再造研究,National '10th Five-Year' Science and Technology Key Project,2025-8~2030-12,Vertical project
- 52495001,微重力空间环境下全过程低温液体推进剂管理,National Natural Science Foundation of China (NSFC),2025-1~2029-12,Vertical project
- 2024BSHSDZZ157,基于均温板的梯级毛细芯强化相变传热技术及气液输运机理研究,Shaanxi Province Postdoctoral Research Project Funding Program,2025-1~2026-12,Vertical project
- XYZ012025057,基于复杂多支路并联微通道内的泵驱两相传热-流动机理研究,Central University Basic Scientific Research Business Fee,2025-1~2026-12,Vertical project
- 2025-JC-YBQN-493,并联仿生歧管微通道内汽液两相流动与沸腾换热特性研究,Shaanxi Provincial Natural Science Foundation Basic Research Program - General Project - Youth Project,2025-1~2026-12,Vertical project
