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  • 姓名:王琳玮
    热科学与能源工程系
    讲师
  • 办公地点:
    科技楼913A
  • Email:
    lwwang@ustb.edu.cn

王琳玮热科学与能源工程系



教育及工作经历:

2022.03-至今,WilliamHill登录入口,讲师

2021.04-2022.02,荷兰University of Twente,助理教授

2019.10-2022.03,英国Loughborough University,高级博士后

2018.08-2019.08,英国University of Glasgow,讲师(授课型)

2014.10-2019.03,英国University of Glasgow,博士

2011.09-2013.06,武汉大学,动力与机械学院,硕士

2007.09-2011.06,武汉大学,动力与机械学院,学士

 

研究领域:

1.  多相反应与非反应热流体

2.  氢冶金热动力学基础研究

3.  低碳能源开发及利用

4.  热能储存技术


社会兼职:

1. 《Journal of Energy and Natural Resources》编委.

2. 担任APPL THERM ENG,FUEL,ENERGY, Int. J. Hydrog. Energy等多个国际著名期刊审稿人.

3. 中国工程热物理学会会员.

4. 国际机械工程师学会(Institution of Mechanical Engineers)会员

 

认证/荣誉:

1. 特许工程师Chartered Engineer, Engineering Council (UK), 2020年.

2. Overseas Conference Grant, Institution of Mechanical Engineers, 2019年.

3. The Great Britain-China Educational Trust Chinese Student Award, Great Britain China Center, 2017年.

 

科研项目:

1. H2多相反应系统热动力学机制研究, 科技部, 2022-2023, 主持.

2. Low temperature heat recovery and distribution network technologies, 英国EPSRC, 2019-2021, 参与.

3. Next generation advanced gasification technology, 英国RAEng/Leverhulme Trust, 2018-2019, 参与.

 

代表性论文及著作:

1.     L. Wang*, A.N. Izaharuddin, N. Karimi, M.C. Paul. “A comprehensive numerical investigation of CO2 gasification of biomass particles coupling analysis of energy, exergy and entropy”, Energy, 2021, 228, 120615.

2.    L. Wang, N. Karimi*, T. Sutardi, M.C. Paul. “Numerical modelling about combustion characteristics and pollutant emissions from a single biomass particle in oxy-fuel combustion”, Energy & Fuels. 2019, 33(2), 1556-1569.

3.     L. Wang, N. Karimi*, T. Sutardi, M.C. Paul. “Numerical modelling of unsteady entropy generation in oxy-combustion of single coal particles with varying flow velocities and oxygen concentrations”, Applied Thermal Engineering. 2018, 144(5): 147-164.

4.     L. Wang, N. Karimi*, M.C. Paul. “Gas-phase transport and entropy generation during transient combustion of single biomass particle in varying oxygen and nitrogen atmospheres”, International Journal of Hydrogen Energy. 2018, 43(17): 8506-8523.

5.    B. Dehghan B*, L. Wang, N. Karimi. “Modelling of waste heat recovery of a biomass combustion plant through ground source heat pumps- development of an efficient numerical framework”, Applied Thermal Engineering, 2020, 166, 114625.

6.     T. Sutardi, L. Wang, M.C. Paul*, N. Karimi. “Utilization of H2O and CO2 in Coal Particle Gasification with an Impact of Temperature and Particle Size”, Energy & Fuels, 2020, 34(10), 12841-12852.

7.     T. Sutardi, L. Wang, M.C. Paul*, N. Karimi. “Investigation of thermochemical process of coal particle packed bed reactions for the development of UCG”, International Journal of Coal Science & Technology, 2020, 7(3), 476-492.

8.     T. Sutardi, L. Wang, M.C. Paul*, N. Karimi. “Numerical Simulation Approaches for Modelling a Single Coal Particle Combustion and Gasification”, Engineering Letters. 2018, 26(2): 257-266.

9.     L. Govone, M. Torabi, L. Wang, N. Karimi*. “Effects of nanofluid and radiative heat transfer on the double diffusive forced convection in microreactors”, Journal of Thermal Analysis and Calorimetry. doi:10.1007/s10973-018-7027-z.

10.  L. Yu*, L. W. Wang, P. Li. “Study on prediction models of biomass ash softening temperature based on ash composition”. Journal of the Energy Institute. 2014, 87, 215-219.

11.  L. Yu*, L. Wang, P. Li. “Study on empirical formula prediction of biomass ash melting point”. Journal of Combustion Science and Technology. 2013, 19(5), 407-412.

12.  Z. Huang, L. Wang, K. Liu, X. Hu*. “Water Collection by condensation on surfaces with wettability gradients”. Journal of Engineering Thermophysics, 2011, 32(11), 1937-1940.

13.   L. Wang, A.N. Izaharuddin, N. Karimi, M. C. Paul. Enhanced Syngas Production from CO2 Gasification of Biomass. In: 11th International Conference on Applied Energy (ICAE 2019), Västerås, Sweden, 12-15 August 2019.

14.   L. Wang*, N. Karimi, M.C. Paul. “Numerical study of single coal particle combustion in O2/N2 and O2/CO2 atmospheres”. 12th International Conference on Heat Transfer, Fluid Mechanics and Thermodynamics, Costa del Sol, Spain, 2016.

15.   L. Wang*, N. Karimi, M.C. Paul. “NO Emission from a single coal particle combustion in O2/N2 and O2/CO2 atmospheres”. 5th UK-Japan Engineering Education League Workshop, Glasgow, UK, 2017. (Poster Presentation)

16.   L. Wang*, N. Karimi, M.C. Paul. “Numerical modelling of single coal particle combustion in different gas atmospheres”. 29th Scottish Fluid Mechanics Meeting, Edinburgh, UK, 2016. (Poster Presentation)

17.   L. Wang*, N. Karimi, M.C. Paul. “Numerical simulation of coal combustion using Euler-Lagrange Model”. IOP Combustion Physics Group One-day meeting on Current Research in Combustion, Loughborough, UK, 2015. (Poster Presentation)

18.   Z. Huang, L. Wang, K. Liu, X. Hu*. “Water Collection by condensation on surfaces with wettability gradients”. Chinese Engineering Thermophysics Heat and Mass Transfer Conference, Xi’an, China, 2010.

 

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