mg娱乐游戏平台官网">
当前位置: mg娱乐游戏平台官网 >> 师资队伍 >> 师资概况 >> 正文

罗权兵

2019-09-23 08:29:39mg娱乐游戏平台官网

罗权兵(Luo, Quanbing)

罗权兵,湖北荆门人,1988年03月出生,mg4355电子游戏网址“青年百人”引进人才,讲师、博士。

研究方向:

(1)易燃物质热危险性研究,主要包括:不同易燃固体堆积物自热/自燃火灾的特性、机理及防治措施;不同易燃液体着火与爆炸的特性、机理及防治措施。

(2)计算流体力学及网格划分基础算法研究,主要包括:Navier-Stokes方程的有限体积法求解算法(关注于算法实施简易性、准确性及稳定性);自适应且高质量非结构网格划分算法。

工作经历:

2017.7-今 mg4355电子游戏网址,环境科学与工程学院,安全工程系.讲师(青年百人).

教育经历:

2016.2–2017.2博士生联合培养, University of Wollongong, Australia.导师:Ting Ren.

2011.9–2017.7研究生,中山大学.工程力学(硕博连读,博士学位),导师:梁栋.

2007.9–2011.7本科生,贵州大学.安全工程(学士学位).

授课课程:

本科生:C语言程序设计、安全检测与控制技术

主持项目:

[1]mg4355电子游戏网址“青年百人计划”科研启动项目:易燃固体物质热分解特性及自燃危险性研究,2017.7-2022.7(负责人,10万)。

电子邮件(Email):

quanbing.luo@foxmail.com

Dr. Quanbing Luo is currently a lecturer at the School of Environmental Science and Engineering, GuangDong University of Technology. Quanbing does research in the field of Fire Safety, Combustion, and Computional Physics.

Quanbing joined the GuangDong University of Technology in July 2017. Quanbing obtained his Doctoral degree from Sun Yat-Sen University in July 2017 and Bachelor degree from Guizhou University in July 2011. Quanbing was a visiting PhD student of University of Wollongong, Australia from February 2016 to February 2017.

For more information, please refer to researchgate.

https://www.researchgate.net/profile/Quanbing_Luo2/

发表论文(Publications)(第一编辑#,通讯编辑*)

[1]Quanbing Luo#*, Discretized pressure Poisson algorithm for steady incompressible flow on two-dimensional triangular unstructured grids,European Journal of Mechanics / B Fluids, 2020 (SCI论文).

[2]Wenbin Xu#; Liang Liang;Quanbing Luo*; Zili He; Minghua Liang; Hao Shen*; Dong Liang, Comparison of six ester components in nitrocellulose lacquer thinner from the aspects of dissolution rates, explosion characteristics and environmental influence,Progress in Organic Coatings, 2020, 139, 105426 (SCI论文).

[3]Xiaochun Zhang#; Zijian Zhang; Zhenyi Zhang; Wenbin Xu;Quanbing Luo*; Haowen Tao; Xing Li*, Experimental investigation of compartment fires with circular opening: From the aspects of internal temperature and facade flame,Combustion and Flame, 2020, 213: 107-116 (SCI论文).

[4]Quanbing Luo#; Zili He; Wenbin Xu*; Hao Shen*; Dong Liang; Ting Ren, The spontaneous combustion mechanism of sawdust from the aspect of biochemical components,Cellulose, 2019, 26(17): 9045-9055 (SCI论文).

[5]Quanbing Luo#; Ting Ren; Hao Shen*; Jian Zhang; Dong Liang, The Thermal Properties of Nitrocellulose: From Thermal Decomposition to Thermal Explosion,Combustion Science and Technology, 2018, 190(4): 579-590 (SCI论文).

[6]Quanbing Luo#*; Dong Liang; Ting Ren; Jian Zhang, Calculation of critical parameters for spontaneous combustion for some complex geometries using an indirect numerical method,The ANZIAM Journal, 2018, 59(3): 402-412 (SCI论文).

[7]Wenbin Xu#; Zili He;Quanbing Luo*; Hao Shen*; Dong Liang; Ting Ren, The influence of soluble components on spontaneous combustion risk of sawdust samples,Thermochimica Acta, 2018, 670: 219-225 (SCI论文).

[8]Quanbing Luo#; Ting Ren; Dong Liang; Jian Zhang; Hao Shen*, A study on the Thermal Decomposition Temperature (TDT) and Critical Ambient Temperature (CAT) of cotton,Journal of Thermal Analysis and Calorimetry, 2017, 128: 1617–1625 (SCI论文).

[9]Quanbing Luo#; Ting Ren; Hao Shen*; Dong Liang*; Jian Zhang, Comparison of thermal hazards of sodium dithionite and thiourea dioxide from thermal analysis (DSC-TG), small-scale self-heating experiments and FTIR smoke gas analysis,Fire Safety Journal, 2017, 92: 91-97 (SCI论文).

[10]Quanbing Luo#*; Ting Ren; Dong Liang, Discretized pressure Poisson algorithm for the steady incompressible flow on a nonstaggered grid,Numerical Heat Transfer, Part B: Fundamentals, 2017, 71(6): 549-559 (SCI论文).

[11]Quanbing Luo#; Dong Liang; Hao Shen*, Evaluation of self-heating and spontaneous combustion risk of biomass and fishmeal with thermal analysis (DSC-TG) and self-heating substances test experiments,Thermochimica Acta, 2016, 635: 1-7 (SCI论文).

[12]Quanbing Luo#; Dong Liang; Shanjun Mo*, Numerical Calculation of the Critical Parameters of Frank-Kamenetskii Equation in Spontaneous Combustion Theory,Numerical Heat Transfer, Part B: Fundamentals, 2015, 68(5): 403-417 (SCI论文).

XML 地图 | Sitemap 地图