代表文章:
[1] Liu YJ, Yang C, Qin SY*, Yang JC, Jin LW, et al. Boiling heat transfer in confined vapor chamber with conical and smooth surfaces: visualization analysis of bubble nucleation and liquid rewetting[J]. Applied Thermal Engineering, 2025, 278:127105. (SCI, IF:6.47, Q1)
[2] Qin SY, Liu YJ, Ji RY, Jin LW, Yang C, Meng XZ, et al. Effect of compact thermosyphon height on boiling curve and thermal performance: a visualization analysis[J]. Applied Thermal Engineering, 2024, 240:122142. (SCI, IF:6.47, Q1)
[3] Qin SY, Ji RY, Miu CY, Jin LW, Yang C, Meng XZ, et al. Review of enhanced methods of boiling and condensation heat transfer: surface wettability modification[J]. Renewable and Sustainable Energy Reviews, 2024, 189:113882. (SCI, IF:16.90, Q1)
[4] Qin SY, Ji RY, Liu YJ, Jin LW, Yang C, Meng XZ, et al. Analysis of wettability effects on thermal performance of vapor chamber with a hybrid lattice Boltzmann method[J]. International Journal of Heat and Mass Transfer, 2024, 225:125315. (SCI, IF:5.43, Q1)
[5] Qin SY, Liu YJ, Yang CM, Jin LW, Yang C, Meng XZ, et al. Visualization study of co-existing boiling and condensation heat transfer in a confined flat thermosyphon[J]. Energy, 2023, 285:129392. (SCI, IF:8.86, Q1)
[6] Qin SY, Ji RY, Jin LW, Yang C, Meng XZ, et al. Experimental study on the thermal characteristics of a novel 3D thermosyphon device[J]. Applied Thermal Engineering, 2023, 225:120193. (SCI, IF:6.47, Q1)
[7] Qin SY, Cui X, Yang C, Jin LW. Thermal comfort analysis of radiant cooling panels with dedicated fresh-air system[J]. Indoor and Built Environment, 2021, 30(10): 1596-1608. (SCI, IF:3.60, Q2)
[8] Qin SY, Cui X, Meng XZ, Jin LW, et al. Heat transfer characteristics of a composite radiant wall under cooling/heating conditions[J]. Indoor and Built Environment, 2020, 29(8): 1155-1168. (SCI, IF:3.60, Q2)
[9] Xia ZH, Qin SY, Jin LW, et al. Multi-factor optimization of thermo-economic performance of coaxial borehole heat exchangers based on levelized cost of energy analysis[J]. Renewable energy, 2023, 219:119513. (SCI, IF:8.70, Q1)
[10] Ma ZD, Qin SY, Jia GS, Jin LW, et al. Effects of boundary conditions on performance prediction of deep-buried ground heat exchangers for geothermal energy utilization[J]. Energies, 2023, 16(13): 4874. (SCI, IF:3.25, Q3)
[11] Zhang ZB, Cao Y, Qin SY, Jin LW, et al. Optimization of design parameters and operation conditions of solar-air source heat pump coupled system for rural buildings in cold and severe cold regions[J]. Solar Energy, 2025, 286: 113147. (SCI, IF:6.0, Q1)
[12] 秦思宇,刘艺佳,杨佳成,佟薇,金立文,孟祥兆. 受限蒸汽腔内气液两相传热特性研究[J]. 化工学报,2024,75(S1):47-55. (EI)
[13] Liu YJ, Qin SY, Yang CM, Meng XZ, Yang C, Jin LW. A visualization study of a confined vapor chamber with conical microstructure applied in data centres[J]. IOP Conf. Series: Earth and Environmental Science, 2024, 1372:012085.
[14] Qin SY, Ji RY, Jin LW, Yang C, et al. Numerical investigation of phase change heat transfer in a confined micro-space by lattice Boltzmann method[J]. IOP Earth and Environmental Science, 2022. (EI)
[15] Zou YH, Wei LC, Lu Z, Qin SY, Jin LW, et al. An optimal study of serpentine channel with various configurations based on response surface analysis[J]. IOP Earth and Environmental Science, 2022. (EI)
[16] Qin SY, Wang YA, Jin LW, Yang C, et al. Research on design and operation methods of radiant panel with fresh air system[J]. IOP Earth and Environmental Science, 2019. (EI)
[17] Liu YJ, Qin SY, Yang CM, Meng XZ, Yang C, Jin LW. A study of a confined vapor chamber with conical structured surface applied in data centers[C]. Theme of ICoGB 2025: Sustainable Community Environment, 2025. Xi’an, China.
[18] 秦思宇,刘艺佳,孟祥兆等.受限蒸汽腔内气液两相传热传质特性研究[C]. 中国工程热物理学会多相流学术会议暨国家自然科学基金多相流领域项目交流会2023.
[19] Meng XZ, Qin SY, Yang C, et al. 基于表面改性技术对相变散热能效提升的研究评述[C]. 第三届华人能源与人工环境国际会议CEBE 2023.
[20] Qin SY, Jin LW, Meng XZ, Yang C, et al. 基于数据中心冷却技术的超薄蒸汽腔气液两相传热传质特性研究[C]. 第三届华人能源与人工环境国际会议 CEBE 2023.
[21] Xia ZH, Qin SY, Jin LW, et al. 基于热经济型及环境影响的地热供暖系统多目标协同优化[C]. 第三届华人能源与人工环境国际会议 CEBE 2023.
[22] Cai J, Qin SY, Meng XZ, et al. 基于建筑采光目标和室温调控的建筑立面挡板式外遮阳设计研究[C]. 第三届华人能源与人工环境国际会议 CEBE 2023.
[23] Liu YJ, Qin SY, Jin LW, et al. A visualization study of a thin vapor chamber with conical microarray structure applied in data centres[C]. International Conference on Sustainable Energy and Green Technology SEGT 2023.
[24] Qin SY, Ji RY, Yang CM, Jin LW, Yang C, et al. Investigation of heat transfer enhancement in a confined two-phase closed thermosyphon[C]. International Conference of Applied Energy ICAE 2022.
[25] Qin SY, Miao CY, Ji RY, Jin LW, Yang C, et al. Experimental study on coupling thermal performance of air-cooling and phase change heat transfer for 3D thermosyphon[C]. International Conference of Applied Energy ICAE 2021.
[26] Ji RY, Qin SY, Jin LW, Yang C, et al. Effect of surface wettability on boiling heat transfer in a confined space[C]. International Conference of Applied Energy ICAE 2021.
[27] Miao CY, Qin SY, Jin LW, et al. Experimental investigation of vapor chambers with different wick structures for the thermal management[C]. International Conference of Applied Energy ICAE 2021.
[28] Cui X, Qin SY, Meng XZ, Jin LW, et al. Performance investigation of an evaporative pre-cooled air-conditioning system in tropics[J]. Energy Procedia, 2019, 158: 5673-5678. (EI)
代表专利:
[1] 金立文,杨佳成,李佳瑶,秦思宇,马真迪,崔鑫,刘艺佳. 一种多孔石墨孔隙结构的数字重构方法及设备. 中国发明专利 (202510730637.4) 2025-07-25.
[2] 顾兆林,秦思宇,李进,孟祥兆,罗昔联. 真空液态喷吹低碳炼镁用镁液态冷却收集-热管蒸汽发生器系统. 中国发明专利 (202510458999.2, CN120292871A) 2025-07-11.
[3] 金立文,马真迪,贾国圣,孔琼香,成崇华,张智斌,秦思宇. 一种中深层地埋管-岩土传热的降阶系统构建方法及系统. 中国发明专利 (202410626017.1, CN118428095A) 2024-08-02.
[4] 金立文,秦思宇,杨纯,崔鑫,贾国圣,张思聪. 一种空调系统的敷设面积工程计算方法、系统、装置即存储介质. 中国发明专利 (ZL202011497580.1, CN112611087A) 2022-01-25.
[5] 秦思宇,金立文,杨纯,崔鑫,贾国圣,孟祥兆. 一种空调系统的人体热舒适性评价方法、系统、装置即存储介质. 中国发明专利 (ZL202011503923.0, CN112611067A) 2021-12-28.
[6] 金立文,秦思宇,杨纯,崔鑫,孟祥兆,高松. 一种空调负荷估算分析方法、系统、装置即存储介质. 中国发明专利 (ZL202011503938.7, CN112628948A) 2021-11-19.