职 称

教授

√博导 √硕导

专 业

动力工程及工程热物理专业

办公地址

北京理工大学 发动机研究所东楼106

邮 编

100081

办公电话

13044267302

邮 件

sren@bit.edu.cn; sren.combust@gmail.com

研究方向

1. 液体火箭发动机、航空发动机以及燃气轮机等燃烧系统的研究；

2. 微型能源动力系统与微尺度燃烧，新型能源动力系统；

3. 湍流燃烧、喷雾燃烧系统研究，空气-热-火焰动力学稳定性分析；

4. 超稳定燃烧、燃烧不稳定抑制与热声耦合；

5. 燃烧过程强化与污染物排放多物理场协同调控；

6. 先进高效、清洁、稳定燃烧系统的研究与开发：分层燃烧、氢氨燃烧、碳中性燃料的燃烧等；

7. 先进湍流燃烧数值计算方法的建立与应用：OpenFOAM、EBI-DNS、各类In-house Code (LES/DNS)、AI赋能、PINNs，数据驱动方法等。

代表性论文及研究项目

代表论文:

第一作者身份发表高水平SCI论文20余篇，其中绝大部分为燃烧、能源燃料、流体力学以及航空航天等领域顶尖/权威期刊；以第一发明人授权发明专利1项，实用新型1项。

[1] Ren, SJ.; Yang, HL.; Jiang, LQ.; Zhao, DQ.; Wang, XH., Numerical Study On Combustion Characteristics of Partially Premixed Tubular Flame Burner For DME, Combustion Science and Technology, 2019, 191, (3), 435-452. （一作）https://doi.org/10.1080/00102202.2018.1498486.

[2] Ren SJ., Yang HL., Jiang LQ., Zhao DQ., Wang XH., Flow Field and Combustion Characteristics in Localized Stratified Swirling Tubular Flame Burner: Numerical Investigation, Combustion Science and Technology, 2020, 192, (5), 915-932. https://doi.org/10.1080/00102202.2019.1602614. （一作）

[3] Ren, SJ.; Jiang, LQ.; Yang, HL.; Zhao, DQ.; Wang, XH., Comparative Study on the Combustion Performance in Localized Stratified and Rapidly Mixed Swirling Tubular Flame Burners, Combustion Science and Technology, 2021, 193, (8), 1444-1462. （一作）https://doi.org/10.1080/00102202.2019.1697692.

[4] Ren, SJ.; Yang, HL.; Jiang, LQ.; Zhao, DQ.; Wang, XH., Stabilization Characteristics and Mechanisms in a Novel Tubular Flame Burner with Localized Stratified Property, Energy, 2020, 197: 117235. （一作）https://doi.org/10.1016/j.energy.2020.117235.

[5] Ren, SJ., An Exploration of Stabilization Mechanisms in a Novel Vortex-tube Combustor with Localized Stratified Peculiarity., International Journal of Energy Research, 2020, 44, (7), ‏ 5649-565. （一作+通讯）https://doi.org/10.1002/er.5316.

[6] Ren, SJ.; Yang, HL.; Jiang, LQ.; Zhao, DQ.; Wang, XH., Combustion Modes and Driving Mechanisms of Pressure Oscillation in Novel Vortex Combustor with Quasi-steady and Stratified Properties, Experimental Thermal and Fluid Science, 2020, 117: 110134.（一作）https://doi.org/10.1016/j.expthermflusci.2020.110134.

[7] Ren, SJ.; Yang, HL.; Jiang, LQ.; Zhao, DQ.; Wang, XH., Stabilization Performances and Mechanisms of a Diffusion-like Vortex-tube Combustor for Oxygen-Enriched Combustion, International Journal of Energy Research, 2020, 44, (8), 6917-6926. （一作+通讯）https://doi.org/10.1002/er.5445.

[8] Ren, SJ.; Yang, HL.; Jiang, LQ.; Zhao, DQ.; Wang, XH., NOx Emission and its Reduction mechanism Investigation in One Diffusion-like Vortex-tube Combustor, Journal of Cleaner Production, 2020, 274:123138. （一作+通讯）https://doi.org/10.1016/j.jclepro.2020.123138.

[9] Ren, SJ.; Yang, HL.; Jiang, LQ.; Zhao, DQ.; Wang, XH., Combustion of liquid ethanol in an innovatory vortex-tube combustor with Self-evaporating and edge-like flame properties, Fuel, 2020, 280:118680. （一作+通讯）https://doi.org/10.1016/j.fuel.2020.118680.

[10] Ren, SJ.; Yang, HL.; Jiang, LQ.; Zhao, DQ.; Wang, XH., One Axial Fuel Injected Vortex-tube Combustor with High Capacity of Combustion Stabilization for NOx Reduction, Energy, 2020, 211: 118659.（一作+通讯）https://doi.org/10.1016/j.energy.2020.118659.

[11] Ren, SJ.; Jiang, LQ.; Yang, HL.; Zhao, DQ.; Wang, XH., Evaporation and Combustion Characteristics of Kerosene Droplets in a Non-premixed Tubular Flame Burner: A Numerical Investigation, Combustion Science and Technology, 2020, 194, (9), 1731-1746. （一作+通讯）https://doi.org/10.1080/00102202.2020.1828880.

[12] Ren, SJ.; Yang, HL.; Jiang, LQ.; Zhao, DQ.; Wang, XH., The oxygen-deficient combustion and its effect on the NOx emission in a localized stratified vortex-tube combustor, Energy, 2021, 235: 121365. （一作+通讯）https://doi.org/10.1016/j.energy.2021.121365.

[13] Ren, SJ.; Jones W.P.; Wang X.H., Stabilization mechanism revelation of an novel vortex-tube combustion technique: LES with sgs-pdf Approach, Physics of Fluids, 2022, 34, (5). （一作+通讯）https://doi.org/10.1063/5.0090978.

[14] Ren, SJ; Jones,W.P.,; Wang, XH., Hydrogen-enriched methane combustion in a swirl vortex-tube combustor. Fuel, 2023, 334, 126582. （一作+通讯）https://doi.org/10.1016/j.fuel.2022.126582.

[15] Ren, SJ; Jones, W.P.; Wang, XH., Multi-fuel combustion performance analysis and operating characteristics of a vortex-tube combustor. Energy, 2023, 264, 126129. （一作+通讯）https://doi.org/10.1016/j.energy.2022.126129.

[16] Ren, SJ; Jones, W.P.; Wang, XH., Aerodynamic and thermo-acoustic stability analysis in a super-steady reactive flow. Fuel, 2023, 337, 127229. （一作+通讯）https://doi.org/10.1016/j.fuel.2022.127229.

[17] Ren, SJ; Tian Bo; Jones, W.P.; Wang, XH., The Response Mechanism of Pressure Fluctuation to the Unsteady HRR in a Strong Rotating Environment: LES with sgs-pdf Approach. Aerospace Science and Technology. （一作+通讯）https://doi.org/10.1016/j.ast.2023.108356(2023) 108356.

[18] Ren, SJ; Tian Bo; Jones, W.P.; Wang, XH., The combustion intensification mechanism revelation in a strong rotating reactive flow, AIAA Journal, 2023, 61(9): 3810-3820. （一作 + 通讯）https://doi.org/10.2514/1.J062791.

[19] Ren, SJ; Tian Bo; Jones, W.P.; Wang, XH., An advanced vortex-tube technology for pure ammonia combustion with clean and steady peculiarity, Physics of Fluids, 2023, 35(10). （一作 + 通讯）https://doi.org/10.1063/5.0168790.

[20] Ren, SJ; Tian Bo; Jones, W.P.; Wang, XH., Assessing the Effects of Pressure Variations on Combustion Dynamics in Vortex-Tube Flows. Physics of Fluids, 2024, 36, 025103.https://doi.org/10.1063/5.0045281 （一作 + 通讯）

[21] Ren, S.J. ; Yue Lou; Jianbing Gao; Jones, W.P., Combustion dynamic stability analysis in stratified-rotation ethanol/air flame, Physics of Fluids, 2024, 36(12).https://doi: 10.1063/5.0241189 （一作 + 通讯）

[22] Li, Fan; Ren, SJ; Li, Tao et al., A new denitrification strategy based on high-temperature catalytic coatings Y2O3-BaO-ZrO2 without using ammonia in a lab-scale natural gas combustion furnace. Fuel, 2024, 378,132995. https://doi.org/10.1016/j.fuel.2024.132995. （二作）

[23] Z. Fu, J. Gao, J. Gao, S. Ren, Y. Shi, X. Wang, Y. Wang, J. Song, M. Qi, G. Tian, Insight into the combustion and emission characteristics of an ammonia-hydrogen dual-fuel opposed rotary piston engine, J Energy Inst 120 (2025) 102100. https://doi.org/10.1016/j.joei.2025.102100. （通讯）

[24] Lou Y, Ren SJ, Li YK, et al. Experimental study on the effects of transverse standing wave frequency and amplitude on oscillation and mode transition of partially premixed flame[J]. Experimental Thermal and Fluid Science, 2025, 166: 111477. https://doi.org/10.1016/j.expthermflusci.2025.111477. （二作）

研究项目：

主持参研英国/加拿大海外项目，国内高层次人才引进项目，政府间国际合作项目，两机重大专项项目等国家级项目以及其他省部级项目8项，项目总经费在千万以上；

[1] 2024国家级青年人才项目，600万，2024~2027，项目主持；

[2] 北京理工大学高层次人才引进项目‘特立青年学者’，100万，2024~2030，项目主持；

[3] Study on combustion characteristics of micro-mixing hydrogen combustion in gas turbine，100万刀，2023~2025，项目主负责人；

[4] Experimental and Numerical Investigation of Soot and Particulate Matter (PM) Formation in the Combustion of Aviation Biofuels (Biojet Fuels)，University internal funding and industry partnership，20万英镑，2020~2022，项目主负责人；

[5] 面向燃气轮机燃料适应性问题的新型燃烧技术（NO. 2016YFE012750），250万，2016~2020，项目主负责人；

[6] 广东省青年优秀人才国际培养计划项目, 60万，2020~2022，项目主持；

[7] 雾化喷嘴断流雾化燃烧机理，两机重大专项，3000万，2022~2023，参与；

[8] 超燃冲压发动机富氢尾气二次燃烧，150万，2022~2023，参与。

成果及荣誉

[1] 入选2024年国家高层次青年人才计划；

[2] 入选2023年北京理工大学“特立青年学者”高层次人才引进计划，准聘教授，博士生导师；

[3] 国内外领域内多次主讲报告，包括全国青年燃烧会议和数字孪生国际会议等；

[4] 南京航空航天大学优秀博士学位论文。

社会职务

[1] Nature Communications, Physics of Fluids, AIAA Journal, Energy, Flow Turbulence and Combustion, Energy and Fuels等国际顶级/权威期刊审稿专家; Frontiers in Energy Research, Guest editor。

[2] 教育部学位论文评审专家, 教育部研究生未来飞行器大赛评审专家。

[3] 中国宇航学会高级会员，中国航空学会会员，中国工程热物理学会会员，中国内燃机学会会员。

本课题组常年招收流体、燃烧、能源领域硕士生、博士生、博士后及各类海内外优秀人才，尤其是精通先进湍流燃烧数值计算建模，AI赋能，以及先进光学诊断方向的专业人才。