姓名:黄胜
职称职务:特聘副研究员,硕士生导师
所在学系:过程装备与安全工程系
所属科研团队:四川大学燃烧动力学中心
所在科研平台:空天动力燃烧与冷却教育部工程研究中心、四川大学空天动力研究所
主讲课程:《航空发动机原理》、《燃烧学》、《工程制图与AutoCAD》
招生专业:080706/化工过程机械;085802/动力工程;085701/安全工程
邮箱:huangsheng@scu.edu.cn
地址:四川大学望江校区江南体育官网418室、四川大学江安校区燃烧动力学中心(空天学院北侧)
一、个人简介:
黄胜,副研究员,2017年获华中科技大学“动力工程及工程热物理”学科博士学位,2021年入职四川大学,2023年入选四川省高层次人才引进计划。研究领域面向内燃机、航空发动机等动力装备中的燃烧过程,主要从事燃烧光学诊断、层流/湍流预混火焰、射流雾化燃烧、高效低排放策略等相关研究。主持国家自然科学基金项目1项,发表SCI/EI论文40余篇,其中以一作/通讯作者身份发表SCI论文10余篇,授权发明专利6项。
二、工作经历
2021.03~至今:江南体育官网,特聘副研究员
2017.11~2021.02:华中科技大学 博士后
三、教育经历
2012.09~2017.09:华中科技大学 动力机械及工程专业,博士(推免直攻博)
2008.09~2012.06:华中科技大学 热能与动力工程专业,本科
四、研究领域及内容
面向内燃机、航空燃气涡轮发动机等动力装备中的燃烧过程,着力提高发动机动力性能和实现低排放燃烧。利用高速纹影成像、PIV流场测量等光学诊断方法,研究燃料射流雾化、层流/湍流火焰、燃料裂解结焦、超临界态-裂解态燃烧等过程,聚焦与燃料燃烧组织相关的基础科学问题,支撑燃料在发动机中的应用性能评价需求。
五、近年承担的科研项目
1.四川省****计划青年科技人才项目,50万,2023~2025,项目负责人。
2. JG2023261,纵向课题,400万,2023~2025,主要参研人员。
3. JG2022463,纵向课题,60万,2022~2023,项目负责人。
4.四川大学引进人才科研启动项目,30万,2021~2023,项目负责人。
5.国家自然科学基金青年基金,“膨胀预混火焰自加速振荡机制及变化规律研究”,项目编号51906074,21万,2020~2022,项目负责人。
6. JG2021112,横向课题,85万,2021-2021,主要参研人员。
六、代表性论文:
[1] Mao Y, Gao Y, Li S, Yang C, Huang L,Huang S*, Zhang C., Hu X.* An investigation on the laminar flame propagation and auto-ignition characteristics of a coal-derived rocket kerosene-Part I: Experimental study.Fuel, 2023, 352: 129004.
[2] Zhang J., Jiang M., Wang X.,Huang S.*, Han H., Li Z. Effect of flow number of pilot-stage centrifugal atomizer on idle performance of internally staged combustor.Fuel, 2023, 345: 128144.
[3] Huang L.,Huang S.*, Mao Y., Wang B., Zhu Q., Jiang R. An experimental study on the laminar burning velocities of RP-3 kerosene and its surrogate fuel at elevated pressures and temperatures.Fuel, 2023, 331: 125844.
[4] Zhang Jie., Zhou Xiong., Han Huaizhi.*,Huang S.*, Li Zerong., Zhong Huagui. Experiment on the influence of flow number of the pilot-stage centrifugal atomizer on ignition performance of internally staged combustor.Fuel, 2022, 318: 123329.
[5]Huang S., Huang R.*, Zhou P., Zhang Y., Yin Z., Wang Z.*, Yin Z. Role of cellular wavelengths in self-acceleration of lean hydrogen-air expanding flames under turbulent conditions.International Journal of Hydrogen Energy, 2021, 46: 10494-10505.
[6] Zhang Y., Huang R.,Huang S., Zhou, P., Rao, X., Zhang, G., Qiu, L. Experimental study on puffing, auto-ignition and combustion characteristics of an n-pentanol-diesel droplet.Energy, 2021, 223: 119994.
[7] Zhou P., Huang R.*,Huang S.*, et al. Experimental investigation on active nucleation site density and bubble departure frequency in subcooled flow boiling by using bubble tracking algorithm.International Journal of Heat and Mass Transfer, 2020, 148: 119081.
[8] Zhou P., Huang R.*,Huang S.*, et al. Experimental investigation on bubble contact diameter and bubble departure diameter in horizontal subcooled flow boiling.International Journal of Heat and Mass Transfer, 2020, 149: 119105.
[9]Huang S., Huang R.*, Zhang Y.*, Zhou P., Wang Z., Yin Z. Relationship between cellular morphology and self-acceleration in lean hydrogen-air expanding flames.International Journal of Hydrogen Energy, 2019, 44: 31531-31543.
[10]Huang S., Zhang Y., Huang R.*, Xu S., Ma Y., Wang Z.*, Zhang X. Quantitative characterization of crack and cell‘s morphological evolution in premixed expanding spherical flames.Energy, 2019, 171: 161-169.
[11] Zhang Y., Huang R.*, Huang Y.,Huang S.*, Zhou P., Chen X., Qin T. Experimental study on combustion characteristics of an n-butanol-biodiesel droplet.Energy, 2018, 160: 490-499.
[12] Wang Z., Shi S.,Huang S., Tang J., Du T., Cheng X.*, Huang R., Chen J. Y. Effects of water content on evaporation and combustion characteristics of water emulsified diesel spray.Applied Energy, 2018, 226: 397-407.
[13] Xu S.,Huang S., Huang R.*, Wei W., Cheng X., Ma Y., Zhang Y. Estimation of turbulence characteristics from PIV in a high-pressure fan-stirred constant volume combustion chamber.Applied Thermal Engineering, 2017, 110: 346-355.
[14] Ma Y.,Huang S., Huang R.*, Zhang Y., Xu S. Ignition and combustion characteristics of n-pentanol–diesel blends in a constant volume chamber.Applied Energy, 2017, 185: 519-530.
[15] Ma Y., Huang R.*,Huang S., Zhang Y., Xu S., Wang Z. Experimental investigation on the effect of n-pentanol blending on spray, ignition and combustion characteristics of waste cooking oil biodiesel.Energy Conversion and Management, 2017, 148: 440-455.
[16] Ma Y.,Huang S., Huang R.*, Zhang Y., Xu S. Spray and evaporation characteristics of n-pentanol–diesel blends in a constant volume chamber.Energy Conversion and Management, 2016, 130: 240-251.
[17] Huang Y.,Huang S., Huang R.*, Hong G. Spray and evaporation characteristics of ethanol and gasoline direct injection in non-evaporating, transition and flash-boiling conditions.Energy Conversion and Management, 2016, 108: 68-77.
[18] Wang Z.*, Chen X.,Huang S., Chen Y., MacK J. H., Tang J., Li L., Huang R.* Visualization study for the effects of oxygen concentration on combustion characteristics of water-emulsified diesel.Fuel, 2016, 177: 226-234.
[19]Huang S., Deng P., Huang R.*, Wang Z., Ma Y., Dai H. Visualization research on spray atomization, evaporation and combustion processes of ethanol-diesel blend under LTC conditions.Energy Conversion and Management, 2015, 106: 911-920.
[20]黄胜,郑高翔,黄荣华,蓝天凯,杨震寰,李志鹏,王龙飞.海拔条件对喷雾碰壁燃烧过程的影响研究.内燃机学报, 2019, 37(06): 522-528.