严大炜
2025-02-17 14:01  

基本信息

称:高级实验师 /硕导

务:分工会主席 实验中心副主任

所在系室:能源与动力工程系 新能源科学工程系 实验中心  

联系方式:305653720@qq.com          

通信地址:安徽工业大学能源与环境学院,243002

个人简介

工学博士,高级实验师,博士生导师,曾任江苏省第1617批科技镇长团团员,江苏省科技副总,担任Energy、FuelATE等期刊审稿人。第一(通讯)作者发表SCI论文10余篇;主持宝钢、八钢及江苏省揭榜挂帅等产学研项目10余项,研究经费超800万元;授权发明专利10余项,专利转化(许可)经费超150万元。

研究方向

相变高效传热、纳米材料制备与应用、热工测试与节能分析、清洁燃烧与污染物控制等


科研成果

1. 学术论文及专著

[1] Yan, D.; Zha, Z.; Yan, Y*.; Liu,F et al. A study on fragmentation and emissions characteristics during combustion of injected pulverized coal. Fuel 2026,

[2] Yan, D*.; Gao, L.; et al. Study on Heat Transfer Characteristics of Gravity-Assisted Alumina Nanofluid Heat Pipes. Applied Thermal Engineering 2026,

[3] Sun,W. ; Zou,Q. ;Wu,Y.; Yu,Z.;Yan,D*. ;Liu,F. Mechanistic Study of Thermal-Stress-Induced Fragmentation of a Single Pulverized-Coal Particle .Energy 2026,141648

[4] Yan, D. Ma, L. ; Shuang W*.; et al. Structural Characterization and Fractal Mechanisms of Coal Char during Pulverized-Coal Combustion for Blast-Furnace Injection. International Journal of Coal Preparation and Utilization 2026,

[5] Yan, D. ;Dong, K. ; Yao, Shuang W*.; et al. Experimental Study on the Enhancement of Heat Transfer Performance in Sintered-Core Heat Pipes Using CuO Nanofluid[J]. Asia-Pacific Journal of Chemical Engineering 2026,0:e70252

[6] Yan, D.; Li, M.; Zou, L*.; Gu, M.; Li, M.; Wang, F., A study on fragmentation and emissions characteristics during combustion of injected pulverized coal. Fuel 2022, 309, 122152.

[7] Zou, L.; Wang, F.; Yan, D*.; Gu, M.; Li, M.; Li, M.; Liu, M.; Wang, W., Synergy investigations for the thermal transportation performance of a coaxial gravity heat pipe with internally finned in evaporator section. International Journal of Heat and Mass Transfer 2022, 184, 122312.

[8] Yan, D.; Gu, M*.; He, X.; Wang, J.; Wang, F.; Pan, J., Structural Characterization and NO Generation Characteristics of Coal Char under O2/CO2 Atmosphere. Journal of Thermal Science 2021.

[9] Yan, D*.; Li, M.; Zou, L.; Gu, M.; Liu, M.; Wang, M.; Zhu, B.; Wang, F., Optimum liquid filling capacity and explosion limits of naphthalene gravity heat pipes. Asia-Pacific Journal of Chemical Engineering 2020, 16, (1).

[10] Yan, D.; Gu, M*.; Zou, L., Numerical Analysis of the Heat Transfer in a Naphthalene Heat Pipe Based on the Modified Nusselt Model. Applied Thermal Engineering 2019, 167, 114730.

[11] Yan, D.; Gu, M*.; Lin, Y.; Ping, C.; He, X., Evolution of surface functional groups of coal char during coal combustion under O 2 /CO 2 atmospheres. Asia‐pacific Journal of Chemical Engineering 2018, 13, (5), e2170.


2. 科研项目

序号

项目名称

项目编号

[1]

无人机智能热管关键技术研发与产业化应用

RH2600000633

[2]

换热器用高性能涂层技术开发

RZ2500001927

[3]

轧钢厂加热炉热平衡测试

RH2500001735

[4]

纳米涂层技术开发

RH2500001734

[5]

换热器用高性能涂层技术开发

RH2500001733

[6]

纳米流体高效传热技术开发

RH2500001732

[7]

中频炉节能降碳关键技术研究

RH2500001731

[8]

喷吹煤粉燃烧性能综合评价与配煤优化研究

RH2400002861

[9]

新型纳米流体换热器关键技术及产业化

RH2300003851

[10]

纳米流体热管技术开发

RH2200000072


3. 专利、标准、成果转化

序号

发明专利名称

专利号

[1]

一种基于相变传热的炼焦装置

ZL202510896596.6

[2]

焦炉上升管余热回收装置及控制方法

ZL2021111479199.7

[3]

试验用滴管炉的使用方法

ZL201910179364.3

[4]

试验用滴管炉及其自冷却密封装置

ZL201910179365.8

[5]

沉降炉恒温取样方法

ZL201810528735.X

[6]

实验用热管相变换热煤粉给粉机

ZL201810528701.0

[7]

热管相变换热恒温取样枪

ZL201810528419.2

[8]

煤粉给粉机的给粉方法

ZL201810528341.4



 

 


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