教育背景  

1993-1997 浙江大学能源工程学系 本科

1997-2000 浙江大学能源工程学系 硕士

2004-2008 清华大学热能工程系 博士

工作履历

2000-2004 北京和利时集团公司 自动化工程师

2008-2010 清华大学环境工程系 博士后

2011-2017清华大学热能系助理研究员

2018-至今清华大学能动系副研究员

学术兼职

国际燃烧学会会员

煤炭分级转化清洁发电协同创新中心 特聘研究员

中国环保机械行业协会大气污染防治装备专业委员会委员

社会兼职

江苏省第12，13批科技镇长团成员

研究领域

氢氨清洁燃烧技术、多模式推进技术和储热技术等

研究概况

在研科研项目

在研项目14项，包括掺氢/氨燃气清洁高效燃烧关键技术国家重点研发项目子课题2个，新疆重大项目1个等。

奖励与荣誉

1、燃煤凝汽机组供热改造能量深度梯级利用关键技术及工程应用，2019年中国电力科学技术奖二等奖；

2、大型燃煤电站大气污染物近零排放技术研究及工程应用，2016年中国电力科学技术奖一等奖；2017年河北省科学技术进步奖二等奖；

3、气体燃料超低氮燃烧关键技术装备的研发与应用，2021年度电力科技创新奖二等奖

4、An integrated safety and particulate control technique for flexible operation of coal-fired power units，2023年日内瓦国际发明金奖

学术成果

1. J.-K. Zhuo, S.-Q. Li *, Q. Yao *, Q. Song，The progressive formation of submicron particulate matter in a quasi one-dimensional pulverized coal combustor，Proceedings of the Combustion Institute，2009,32:2059-2066（SCI，EI检索）

2. Jiankun Zhuo*, Shuiqing Li, Lei Duan, and Qiang Yao，Effect of Phosphorus Transformation on the Reduction of Particulate Matter Formation during Co-combustion of Coal and Sewage Sludge，Energy & Fuel, 2012, 36: 3162-3166.（SCI，EI检索）

3. Xiong SJ; Zhuo, JK* ; Zhang, BP; Yao, Q. Effect of moisture content on the characterization of products from the pyrolysis of sewage sludge, J. of Analytical and Applied Pyrolysis, 2013, 104:632-639.（SCI，EI检索）

4. Sijiang Xiong, Jiankun Zhuo *, Hui Zhou, Renzhong Pang, Qiang Yao. Study on the co-pyrolysis of high density polyethylene and potato blends using thermogravimetric analyzer and tubular furnace[J]. Journal of Analytical and Applied Pyrolysis. 2015.112:66-73（SCI，EI检索）

5. Mi Liu, Jiankun Zhuo*, Si J. Xiong, and Qiang Yao. Catalytic Degradation of High-Density Polyethylene over a Clay compared with other catalysts，Energy & Fuel, 2014, 28(9): 6038-6045. （SCI，EI检索）

6. Dan Yu, Chengdong Kong, Jiankun Zhuo*, Shuiqing Li, Qiang Yao. Oxidation characteristics of boron particles. Science China Technological Sciences,2015,58(12):2016-2024（SCI，EI检索）

7. Zhenghang Xiao, Tiankun Shang, Jiankun Zhuo*, Qiang Yao， Study on the mechanisms of ultrafine  particle formation during high-sodium coal combustion in a flat-flame burner， Fuel,2016, 181:1257–1264, （SCI，EI检索）

8.Yao, Q; Li, SQ; Xu, HW ; Zhuo, JK; Song, Q，Studies on formation and control of combustion particulate matter in China: A review，energy，2009，34（9）：1296-1309（SCI，EI检索）

9.Yao, Q; Li, SQ; Xu, HW ; Zhuo, JK; Song, Q，Reprint of: Studies on formation and control of combustion particulate matter in China: A review，energy，2010，35（11）：4480-4493（SCI，EI检索）

10.Meng, AH; Zhang, YG; Zhuo, JK ; Li, QH; Qin, L，Investigation on pyrolysis and carbonization of Eupatorium adenophorum Spreng and tobacco stem，JOURNAL OF THE ENERGY INSTITUTE，2015，88（4）：480-489（SCI，EI检索）

11.Sijiang XIONG,, Renzhong PANG, Jiankun ZHUO,* Qiang YAO, Study on Nitrogen Transformation during Sewage Sludge Pyrolysis at Low Temperatures,Applied Mechanics and Materials,2015, 768: 484-495（EI检索）

12. Jingying Xu, Jiankun Zhuo, Yanan Zhu, Yang Pan, and Qiang Yao，Analysis of Volatile Organic Pyrolysis Products of Bituminous and Anthracite Coals with Single-Photon Ionization Time-of-Flight Mass Spectrometry and Gas Chromatography/Mass Spectrometry，Energy&Fuel, 2017,31:730-737，（SCI，EI检索）

13. Shiyan Chang, Jiankun Zhuo , Shuo Meng , Shiyue Qin, Qiang Yao, Clean Coal Technologies in China: Current Status and Future Perspectives, Engineering,2016,2:447-459（SCI检索）

14. Zhen Chen, HaimingWang, Jiankun Zhuo, Changfu You，Experimental and numerical study on effects of deflectors on flow field distribution and desulfurization efficiency in spray towers，

Fuel Processing Technology，2017，162：1-12（SCI，EI检索）

15. Yong Tang,Chengdong Kong,Yichen Zong,Shuiqing Li,Jiankun Zhuo,Qiang Yao, Combustion of aluminum nanoparticle agglomerates: From mild oxidation to microexplosion, Proceedings of the Combustion Institute,2017,36(2):2325-2332（SCI，EI检索）

16. Zhenghang Xiao, Yong Tang, Jiankun Zhuo*, Qiang Yao, Effect of the interaction between sodium and soot on fine particle formation in the early stage of coal combustion, Fuel, 2017, 206:546-554（SCI，EI检索）

17. Junjie Xue, Jiankun Zhuo*,Mi Liu, Yongchao Chi, Dahu Zhang, Qiang Yao, Synergetic Effect of Co-pyrolysis of Cellulose and Polypropylene over an All-Silica Mesoporous Catalyst MCM-41 Using Thermogravimetry Fourier Transform Infrared Spectroscopy and Pyrolysis Gas Chromatography Mass Spectrometry, Energy & Fuel, 2017, 31(9): 9576–9584.

18.Yu dan, Kong Chengdong，Zhuo Jiankun, Yao Qiang, Li shuiqing, Yu tianzhen, Combustion characteristics of well-dispersed boron submicroparticles and plasma effect, Combustion and Flame, 2018, 188:94 -103

19.Jingying Xu; Jiankun Zhuo; Qiang Yao，Prediction of ethylene and propylene release during coal pyrolysis with modified CPD model,Fuel,2018,222:544-549

20. Yongchao Chi, Junjie Xue, Jiankun Zhuo*, Dahu Zhang, Mi Liu, Qiang Yao, Catalytic co-pyrolysis of cellulose and polypropylene over all-silica mesoporous catalyst MCM-41 and Al-MCM-41,Science of the Total Environment, 2018, 633: 1105–1113

21. Chen, Zhen; Wang, Haiming; Zhuo, Jiankun; You, Changfu，Enhancement of Mass Transfer between Flue Gas and Slurry in Wet Flue Gas Desulfurization Spray Tower, Energy & Fuels, 2018 ,32:703 -712

22. Hai-bo Zhao, Wen-ting Xu, Qiang Song, Jian-kun Zhuo, and Qiang Yao, Effect of Steam and SiO2on the Release and Transformation ofK2CO3and KCl during Biomass Thermal Conversion，Energy&Fuels, 2018, 32, 9633− 9639

23. Wen-ting Xu, Qiang Song, Hai-bo Zhao, Jian-kun Zhuo, and Qiang Yao, Study on the Capture of Gaseous KCl by Cellulose Char, Energy&Fuels,2019,33(1), pp 362–368

24. Yong Tang, Jiankun Zhuo, Wei Cui, Shuiqing Li, Qiang Yao, Non-premixed flame dynamics excited by flow fluctuations generated from Dielectric-Barrier-Discharge plasma, Combustion and Flame,2019, 204: 58–67

25. Yong Tang; Jiankun Zhuo; Wei Cui; Shuiqing Li; Qiang Yao, Enhancing ignition and extending extinction limit of non-premixed counter-flow flame by dielectric-barrier-discharge plasma, Combustion sicence and techonology, Fuel Processing Technology, 2019, 194,106128

26. Tang Yong, Yao Qiang*, Cui Wei, Zhuo Jiankun, Li Shuiqing. Premixed Flame Response to a Counterflowing Non-thermal Plasma Jet, Combustion Science and Technology, 2020, 192(12): 2280-2296. (SCI收录，WOS:000475033200001，影响因子 1.564)

27. Yu Zhang, Jiankun Zhuo*, Yifan Wu, Yao Qiang, Molecular Simulation of the Adsorption Behaviors of CO2/CH4 in Curvature, Planar, and Mixture Models, Energy& Fuels, 2020, 34(4): 4153–4161

28. Li Shangpeng, Yao Qiang, Chung K.Law, Liang Wenkai, Zhuo Jiankun, Liftoff and blowout of the Emmons flame: Analysis of the triple flame, Combustion and Flame, 2020, 215: 184–192

29. Xiang Wang, Jiankun Zhuo, Jianmin Liu, Shuiqing Li, Synergetic process of condensing heat exchanger and absorption heat pump for waste heat and water recovery from flue gas, Applied Energy, 2020, 261, 114401;

30. Yu Shi, Chang Liu, Jiankun Zhuo*, Qiang Yao, Investigation of Ni-modified MCM-41 catalyst for the reduction of oxygenates and carbon deposits during the co-pyrolysis of cellulose and polypropylene, ACS Omega 2020, 5(32): 20299–20310;

31. Zhang Yu, Hu Sherong, Zhong Qifan, Zhuo JianKun, Jonatahn P. Mathews. A large-scale molecular model of Fenghuangshan anthracite coal,Fuel, 2021,295:120616-120628.

32. Jingying Xu,Yue Lyu, Jiankun Zhuo, Yishu, Xu, Zijian Zhou, Qiang Yao, Formation and emission characteristics of VOCs from a coal-fired power plant, Chinese Journal of Chemical Engineering, 2021,35:256-264;

33.Yu Zhang, Yifan Wu, Jiankun Zhuo*, Qiang Yao, Investigation of the Adsorption Behavior of Organic Sulfur in Coal via Density Functional Theory (DFT) Calculation and Molecular Simulation,J. Phys. Chem. A 2021, 125, 34, 7358-7368

34.Tang, Yong; Yao, Qiang; Zhuo, Jiankun; Li, Shuiqing, Plasma-assisted pyrolysis and ignition of pre-vaporized n-heptane, iso-octane and n-decane,Fuel, 2021,289:119899

35.Yifan Wu, Yu, Zhang, Jiankun Zhuo*, Qiang Yao, Effect of ion-exchangeable calcium on carbonaceous particulate matter formation during coal pyrolysis, Fuel, 2022, 315(9):123124

36. Li, SP; Yao, Q ; Law, CK ; Zhuo, JK; Zhang, HW,Structure and generation mechanism of blue whirls，Proceedings of the Combustion Institute, 2023,39(3):3725-3733

37.Jiali Wang, Jiankun Zhuo*, Qiang Yao, Investigation of the fireside corrosion of a new wrought Ni-Fe-Cr-based alloy in advanced ultra-supercritical steam boilers, Corrosion Science, 2022, 199:110152

38. Lipeng Su, Jiankun Zhuo, Hao Liu, Zhaopu Yao, Xuefei Xu, Shuiqing Li, Fragmentation modeling of gas-phase ionic liquid clusters in high-voltage electric field, Fuel, 2023,335:126919

39.Junjie Xue, Jiankun Zhuo*, Yifan Wu, Mingnuo Sun, Qiang Yao, Origin of hydrogen in aromatic and olefin products derived from (Al-) MCM-41 catalysed co-pyrolysis of glucose and polypropylene via isotopic labelling, Clean Energy, 2022, 7(2):253-262;(EI)

40.Chang Liu, Jiankun Zhuo, Yanfeng He, Shuiqing Li, Qiang Yao, Synergetic process between wind power and sewage sludge pyrolysis in a novel renewable-energy microgrid system, Clean Energy, 2023,7(3):493-508; (EI)

41.Lipeng, Su, Zhaopu Yao, Jiankun Zhuo, Hao Liu, Hao Yan, Shuiqing Li, Multiplexed Electrospray Emission of Green Energetic Ionic Liquids from Wedge-Shaped Porous Emitters, Energy&Fuel, 2023, 37, 13218−13230

42.Yifan Wu, Qiuyi Zhang, Jiankun Zhuo*, Shihe Dong, Qiang Yao, Influence of calcium chloride on the fine particulate matter formation during coal pyrolysis,Fuel,2024,355:129480-129494

43. Qiuyi Zhang, Yifan Wu , Shihe Dong, Jiankun Zhuo*, Xinru Sun,Qiang Yao，Development of CaCl2 in activated carbon for seasonal thermochemical energy storage-effect of pore structure，Journal of Energy Storage，2024，97：112697-112707

44.Xucan Chen,Yong Tang, Zhaopu Yao, Jiankun Zhuo, Qiang Yao, Shuiqing Li, Experimental investigations on the direct current ignition characteristics of hydroxylammonium nitrate-based ionic liquid propellant,Proceedings of the Combustion Institute,2024,40(1-4):105342

45.Shihe Dong, Qiuyi Zhang, Jiankun Zhuo*, Yifan Wu, Yongming Lin, Qiang Yao, Dynamic behavior of droplets impacting on wetted cylindrical surfaces, Physics of Fluids, 2025, 37: 023624

(* indicating correspondence of the paper)

1.卓建坤； 李水清； 宋蔷； 姚强, 煤粉燃烧火焰区域内形成的亚微米颗粒电镜研究,工程热物理学报,2008,29(5):871-875;

2.卓建坤； 熊刚； 李水清； 宋蔷； 姚强, 煤粉燃烧过程磷在亚微米颗粒中的转化,工程热物理学报,2009,30(7):1237-1240;

3.陶雨洁，卓建坤，袁野，熊刚，李水清，姚强,煤粉燃烧过程碳烟生成的激光测量研究，工程热物理学报，2013, 34(1):185-188

4.钟哲晗，卓建坤，姚强, 水洗去除单乙醇胺气体和颗粒数值模拟，工程热物理学报, 2014, 35(12): 2540-2545

5.于丹，孔成栋，卓建坤，姚强，李水清，硼颗粒着火阶段燃烧性能研究，工程热物理学报，36(2015) 922.

6.于丹，卓建坤，姚强，硼颗粒点火与燃烧性能研究进展，燃烧科学与技术，2014,20: 1-7.

7.何艳峰，卓建坤，李水清，姚强,污水污泥的燃烧特性及动力学研究，热能动力工程，2011, 26(5): 609-637

8.东明,卓建坤,李庚达,李水清,姚强,煤粉燃烧燃尽区域内形成积灰的电镜研究，工程热物理学报，2011,32(增1): 228-231

9.李庚达，李水清，卓建坤，姚强,煤燃烧亚微米颗粒数浓度特性实验研究和理论分析，工程热物理学报，2011,32(2):333-336

10.孔成栋，于丹，卓建坤，姚强，李水清, 基于彩色火焰图像的铝、硼纳米颗粒燃烧特性分析，光学精密工程2015,23(8):2288-2295

11.张小锋； 卓建坤； 宋蔷； 姚强, 燃烧过程中铅颗粒粒径分布的实验研,清华大学学报，2007,47(8):1347-1351

12.宋少鹏，卓建坤，李娜，姚强，天然气供热锅炉低氮燃烧技术研究现状，供热制冷，2016，2：18-21

13. 张昱轩，卓建坤，肖正航，姚强，生物质的燃烧特性及积灰结渣特性研究，中国科技纵横，2014，21：35-41

14.宋少鹏，卓建坤，李娜，姚强，焦伟红，宋光武，潘涛，燃料分级与烟气再循环对天然气低氮燃烧特性影响机理，中国电机工程学报，2016，36(24):6849-6858

15.卓建坤，焦伟红，宋少鹏，宋光武，熊思江，姚强，潘涛，锅炉燃烧优化NOX预测模型研究进展，燃烧科学与技术，2016，22（6）：531-539

19.李尚鹏，卓建坤，唐勇，姚强，存在非加热起始段的热平板着火分析，工程热物理学报，2017，38（3）：657-664

20.肖正航，唐勇，卓建坤，姚强，煤粉燃烧初期碱金属与碳烟相互作用的研究，工程热物理学报，2017，38（2）：399-405

21.卓建坤；李水清；宋蔷；姚强；煤粉燃烧火焰区域中碳烟的结构与行为, 燃烧科学与技术,2009,15(1): 74-81

22.靳星；李水清；杨萌萌；卓建坤；姚强；高压电场内细颗粒堆积机理研究,工程热物理学报,2012, 33(3) : 533-536

23.唐勇, 姚强*, 崔巍, 卓建坤，李水清, 介质阻挡放电作用下对冲扩散火焰的着火特性研究, 工程热物理学报, 2018, 39(10): 2312-2318. (EI收录，检索号：20185206305487)

24.徐静颖，卓建坤，姚强. 燃煤有机污染物生成排放特性与采样方法研究进展. 化工学报, 2019，70(8): 2823-2834

25. 刘畅，卓建坤*，赵东明，李水清，陈景硕，王金星，姚强，利用储能系统实现可再生能源微电网灵活安全运行的研究综述，中国电机工程学报，2020，40（1）：1-18

26. 钟哲晗，卓建坤*，姚强，液滴在颗粒层内渗透流动动态过程的激光荧光实验测量，光学精密工程，2020,28（7）：1446-1453

27. 王金星,郝剑,刘畅,卓建坤*,任学武,姚强, 抽凝机组热电联产系统中扩大热电负荷比的灵活性研究, 热力发电，2020，49(12):41-50

28.唐勇，Simeni Simeni Marien, Adamovich Igor, 卓建坤，李水清，姚强*，电场诱导二次谐波（E-FISH）在等离子体助燃中的应用研究，工程热物理学报, 2020, 41(7)：1820-1827

29.薛俊杰，刘静逸，卓建坤*，王晓东，刘长瑞，吕海洋，董长青，高温镍基合金烟气侧腐蚀机理研究，华北电力大学学报(自然科学版)，, 2022 ,49 (06) :109-117

30.王赵国，菅志清，杨红军，姜继严，李玉衡，卓建坤*，高原电站锅炉 CO 取样系统设计优化模拟，电力科学与工程，2022，38（3）：1-7

31.王金星, 张翼, 卓建坤*, 任学武, 魏书洲, 姚强, 凝汽机组循环水吸收式热泵余热利用提效方法研究, 区域供热, 2022,2:1-9

32.董世贺，卓建坤*，姚强, 内部温度及浓度梯度对液滴蒸发模型精度的影响, 中国电机工程学报, 2023，43（1）：213-220

33.陈旭灿，卓建坤，王尊，甘辛，唐勇，姚兆普，李水清，姚强，多模式离子液体推进剂的直流电点火特性研究，中国空间科学技术. 2023,43(06)：74-82

34.王福生，孙玮，张渝，张朝阳，高东，卓建坤，过渡金属离子促进煤自燃机理的量子化学计算，煤炭学报，2024，49（5）：2347-2359

35.孙忻茹，张秋怡，卓建坤*，杨润，姚强，CaCl2复合热化学储热材料的研究进展，化工进展，化工进展 . 2024 ,43 (08) ：4506-4515

36.李影，卓建坤*，吴逸凡，樊永刚，姚强，李水清，可解释的变负荷下燃煤机组SCR反应器入口NOx质量浓度预测模型，热力发电，2024 ,53 (07)：119-128

37.张渝，王福生，朱令起，卓建坤，胡社荣，煤田火灾对环境的影响分析，煤矿安全， 2024 ,55 (12)：132-142

38.彭俊豪,卓建坤*,关靖宇,庞振洲,李伟,祝令坤,姚强,烟气内循环和燃料分级对天然气低氮燃烧特性的影响, 热力发电，2025 , 54 (02):57-67

39. 张晓倩,卓建坤*,唐勇,陈柏松,陈湘男,姚强, 掺氢燃气微混燃烧技术实验研究, 热力发电，2025