王越明

能源工程系副教授、硕士生导师

通讯方式:yueming@seu.edu.cn

研究方向:

  1. 新型储能技术

  2. 碳捕集利用与封存

  3. 清洁高效燃烧技术


办公地点:能环大楼-北楼711

 

 

个人简介

王越明,1992年生,江苏南京人,20146月毕业于东南大学化学化工学院,获学士学位,20195月毕业于美国犹他大学化工学院,获博士学位。2019年5月任职于美国Southern Research Institute,于National Carbon Capture Center(NCCC)工作。2020年10月入职东南大学太阳成集团tyc4633。主要研究领域是新型储能技术、碳捕集利用与封存、清洁高效燃烧技术。

教学课程

1. 《能源化学基础》,本科二年级(获第30届东南大学授课竞赛二等奖)

2. 《写作规范与文献检索》,本科一年级

3. 《先进燃料转化技术》-全英文 ,研究生课程

科研 教改项目

国家自然科学基金 - 青年基金,2022.01 - 2024.12,主持

江苏省基础研究计划(自然科学基金)青年基金,2021.07 - 2024.06,主持

江苏省市场监督管理局“基于固体颗粒储热的下一代高温长时储能系统”,主持

江苏省双创计划—“双创博士”项目,主持

南京市公共机构“碳达峰、碳中和”行动建议,主持
东南大学高层次人才科研启动项目,主持




论文 专著

[1]      Gao H, Wang Y, Wang Y*, Zhou M, Duan L* (2024). Understanding flame behaviors under gradient magnetic fields: The dynamics of non-reacting gas jets. International Communications in Heat and Mass Transfer, 159, 108066.

[2]      Wang Y, He J, Wang Y, Sun F, Lu C, Zhang S, Duan L. Development of an integrated online deposition and corrosion monitoring system in a full-scale solid waste CFB boiler. Waste Management. 2024; 1;189:211-8.

[3]      Wang Y, Wang Y*, Zhou M, Zhou H, Duan L*. The influence of self-assembled particle layer on particle collision properties. Powder Technology. 2024; 1;446:120138.

[4]      Gao H, Wang Y*, Zhou M, Wang Y, Duan L*. Exploring the stabilization mechanism of NH3/CH4 non-premixed flames under gradient magnetic fields. International Journal of Hydrogen Energy. 2024; 4;73:165-73.

[5]      Wang Y, Niu X, Liu H, Li X, Duan L. Towards a comprehensive understanding of PM1 formation in pressurized oxy-fuel combustion: A study comparing model predictions with experimental data. Journal of the Energy Institute 2024;113:101441.

[6]      Niu X, Wang Y*, Liu H, Li X, Duan L*. The impact of chlorine and sulfur on alkali metal migration and submicron particle formation during solid fuel combustion. Journal of the Energy Institute 2024:101588.

[7]      Gao H, Li J, Li A, Li Y, Xu X, Wang Y*, Zhou M, Wu W, Duan L*. Optimizing micro-diffusion flame energy density and stability through the application of magnetic fields: A numerical study. Int J Hydrogen Energy 2024;51:179-189.

[8]      Wang Y, Wang Y, Zhang S, Zhou M, Duan L. Comprehensive Study on Particle–Wall Interactions: From Microscopic Parameters to Macroscopic Implications. Industrial & Engineering Chemistry Research 2023;62(50):21740-21749.

[9]      Wang Y, Zhou M, Li X, Zhan Z, Wendt JO, Duan L. Improved Comprehensive Mechanism for Initial Deposit Formation: The Role of Thermophoresis and Glue Effect in Solid Fuel Combustion. Energy Fuels 2023;37(20):16011-16021.

[10]   Wang Y, Qiu X, Niu X, Zhou Z, Duan Y, Duan L. Particulate matter formation mechanism in pressurized fluidized bed combustion of various solid fuels. Journal of the Energy Institute 2022;105:167-175.

[11]   Qiu X, Wang Y, Zhou Z, Duan Y, Duan L. Particulate matter formation mechanism during pressurized air-and oxy-coal combustion in a 10kWth fluidized bed. Fuel Processing Technology 2022;225:107064.

[12]   王越明, 刘慧敏, 仇兴雷, 段伦博. 富氧燃烧颗粒物生成和灰沉积特性研究进展. Clean Coal Technology 2021;27(2).

[13]   Zhou Z, Qiu X, Wang Y, Duan Y, Li L, Lin H, Luo Y, Sun Z, Duan L. Particulate matter formation during shoe manufacturing waste combustion in a full-scale CFB boiler. Fuel Processing Technology 2021;221:106914.

[14]   Zhan Z, Chiodo A, Zhou M, Davis K, Wang D, Beutler J, Cremer M, Wang Y, Wendt JO. Modeling of the submicron particles formation and initial layer ash deposition during high temperature oxy-coal combustion. Proceedings of the Combustion Institute 2021;38(3):4013-4022.

[15]   Wang Y, Qiu X, Zhou Z, Duan Y, Li L, Dai J, Lin H, Luo Y, Sun Z, Duan L. Ash deposition mechanism of shoe manufacturing waste combustion in a full-scale CFB boiler. Fuel Processing Technology 2021;221:106948.

[16]   Li X, Wang Y, Wendt JO. Characteristics of the sub-micron ash aerosol generated during oxy-coal combustion at atmospheric and elevated pressures. Proceedings of the Combustion Institute 2021;38(3):4063-4071.

[17]   Fakourian S, McAllister Z, Fry A, Wang Y, Li X, Wendt JO, Dai J. Modeling ash deposit growth rates for a wide range of solid fuels in a 100 kW combustor. Fuel Processing Technology 2021;217:106777.

[18]   Zhou M-m, Parra-Álvarez JC, Smith PJ, Isaac BJ, Thornock JN, Wang Y, Smith ST. Large-eddy simulation of ash deposition in a large-scale laboratory furnace. Proceedings of the Combustion Institute 2019;37(4):4409-4418.

[19]   Wang Y, Wu J, Li X, Yu D, Xu M, Wendt JO. Ash aerosol partitioning and ash deposition during the combustion of petroleum coke/natural gas mixtures. Fuel 2019;256:115982.

[20]   Wang Y, Wu J, Li X, Han J, Yu D, Xu M, Wendt JO. Comparison study of ash partitioning and deposition behavior between two rice husk fuels under a 100 kW combustor. Energy & Fuels 2019;33(11):11968-11975.

[21]   Wang Y, Van Devener B, Li X, Wendt JO. High resolution STEM/EDX spectral imaging to resolve metal distributions within 100 nm combustion generated ash particles. Aerosol Science and Technology 2019;53(7):783-792.

[22]   Wang Y, Li X, Wendt JO. On ash deposition rates from air and Oxy-Combustion of pulverized coal, petroleum coke, and biomass. Energy & Fuels 2019;33(7):5849-5858.

[23]   Zhou M-m, Parra-Álvarez JC, Smith PJ, Isaac BJ, Thornock JN, Wang Y, Smith ST. Large-eddy simulation of ash deposition in a large-scale laboratory furnace. Proceedings of the Combustion Institute 2018.

[24]   Wang Y, Li X, Wendt JO. Ash aerosol and deposition formation mechanisms during air/oxy-combustion of rice husks in a 100 kW combustor. Energy & Fuels 2018;32(4):4391-4398.

[25]   Liu H, Wang Y, Wendt JO. Particle Size Distributions of Fly Ash Arising from Vaporized Components of Coal Combustion: A Comparison of Theory and Experiment. Energy & Fuels 2017.

 


专利申请
荣誉 奖励

[1]      2023.04:第三届江苏省高校教师教学创新大赛2等奖(排2);

[2]      2023.03:东南大学青年教师授课竞赛2等奖(排1);

[3]      2021.10:江苏省“双创博士”.


指导学生

欢迎对相关研究领域感兴趣的学生加入课题组/dlb/


博士研究生:

王煜兴,2023.03-至今,《待定》(协助指导)

高贺同,2021.03-至今,《待定》(协助指导)


硕士研究生:

王亚芳,2024.09-至今,《待定》

符芳薇,2023.09-至今,《待定》

何京徽,2022.09-至今,《待定》

牛晓雪,2021.09-至今,《高氯燃料燃烧中矿物元素析出及亚微米颗粒物生成机理研究》(协助指导)

周镇港,2019.09-2022.06,《压力对煤燃烧过程中亚微米颗粒物生成影响的数值模拟研究》(协助指导)

仇兴雷,2018.09-2021.06,《流化床增压富氧燃烧细颗粒物排放与沉积特性实验研究》(协助指导)