Presentation

Professor Huang’s research interests include the efficient and clean thermal treatment of solid waste, including municipal solid waste (MSW), sludge, waste plastics and oily sludge. He is also interested in AI technology for combustion optimization.

Prof. Huang is the current president of the Global WtERT Council and a senior expert of the National Key Research and Development Program in China. He is also the managing editor of the journal Waste Disposal & Sustainable Energy.

He is also the principal investigator for over 30 research projects, including those funded by the National Key Research and Development program, the 973 Program, the 863 Program, the High Technology Development Program project, the National Natural Science Foundation of China, and numerous projects supported by industrial companies. He has published over 90 articles in international peer-reviewed journals papers.

Prof. Huang has been awarded the National Science and Technology Progress Team Award, the Second Prize of National Science and Technology Progress, and the First Prize of Zhejiang Science and Technology Progress.

Qunxing Huang
Qunxing Huang

Biography

Ph.D. , 2005, Department of Thermal Physics, Zhejiang University, Hangzhou, China

Bachelor, 2000, College of Energy Engineering, Zhejiang University, Hangzhou, China

From 06.2029 – present : Vice Dean, College of Energy Engineering, Zhejiang University

From 09.2017 to 06.2019 : Vice Director Institute of Thermal Power Engineering,

From 12. 2014 to present : Professor at the College of Energy Engineering, Zhejiang University

From 12.2010 to 12.2011 : Visiting Scholar at the University of Illinois Urbana-Champaign, USA

From 07.2008 to 12.2014 : Associate Professor at the College of Energy Engineering, Zhejiang University

From 07.2005 to 06.2008 : Lecturer at the School of Energy and Mechanical Engineering, Postdoctoral Faculty

  • Incineration of combustible solid waste including MSW, sludge
  • Pyrolysis of waste plastics, waste tires and biomass
  • High temperature plasma technology for hazardous waste including fly ash
  • Hydrogen and oil production from solid waste
  • Combustion control optimization for furnace

1) 2023.07-2024.06 Research and development on machine learning algorithms for flame image analysis in waste incinerators, China Everbright Environment Co., Ltd. 2) 2023.03-2025.03 Pyrolysis system equipment for the project of high-value conversion  and low-carbon utilization of waste rubber based on coupling with coal-fired power  units, Tongxiang Taiais Environmental Energy Co., Ltd.

3) 2023.02-2024.12 Research on key incineration technologies of general combustible industrial solid waste, MCC Southern Urban Environmental Protection Engineering Technology Co., Ltd.

4) 2022.12-2023.12 Feasibility study on harmless and resource utilization project of general industrial waste in Lin’an, Hangzhou Lin’an Green Energy Environmental Protection  Power Generation Co., Ltd.

5) 2022.05-2023.05 Research on smart control technologies of ultra-low emission, Central Southern China Electric Power Design Institute.

6) 2022.03- 2023.12 Research and development on resource utilization technology for waste tires through coupling with coal-fired thermal power, ZJMI Environmental Energy Co., Ltd., Tongxiang Taiais Environmental Energy Co., Ltd.

7) 2021.01-2024.12 Study on the mechanism of aromatics production from mixed non-recyclable plastic by non-equilibrium plasma enhanced catalytic pyrolysis, Natural Science Foundation of China.

8) 2021.09-2022.12 Engineering and process package development on thermal treatment of waste tire, China United Engineering Corporation Limited.

9) 2021.09-2022.09 Research and demonstration on gasification-melting treatment of hazardous waste by plasma, CITIC Envirotech (Guangzhou) Ltd.

10) 2021.08-2021.12 Carbon emission reduction and energy efficiency study analysis on

coal/industrial solid waste cogeneration power plant in Yongjia, Zhejiang Hetai Heat & Power Co., Ltd.

11) 2021.06-2022.12 Research on waste tire/coal coupled pyrolysis as substitution for poly-generation, ZJMI Environmental Energy Co., Ltd., Tongxiang Taiais Environmental Energy Co., Ltd.

12) 2021.04-2022.10 Energy efficiency assessment of large-scale sludge treatment and heat/power/gas combined system, optimism study on efficient combustion of sludge, Jiaxing New Jies Heat & Power Co., Ltd.

13) 2021.03-2021.04 Simulation of hazardous waste incineration system (rotary kilns, secondary combustion chamber, deacidification tower), Tianjin Chenchuang Environment Engineering Science & Technology Co., Ltd.

14) 2021.02-2022.12 Recycle and application of tire rubber granules from waste incinerator, Zhejiang Energy Xingyuan Energy Conservation Technologies Ltd.  15) 2020.01-2022.12 Key techniques and demonstration for gradient cracking of waste tires and ultra-low emission, Zhejiang Key R&D Program.

16) 2020.12-2022.06 Key techniques and demonstration for gradient cracking of waste tires and ultra-low emission, Hangzhou ZC Rubber Technology Ltd.  17) 2020.09-2021.09 Research project on multi-source data fusion and intelligent control optimization strategy for large industrial combustion systems, Alibaba-Zhejiang University Joint Research Institute of Frontier Technologies.

18) 2020.08-2021.12 Research on coal-adaptive clean and intelligent combustion stabilization technology and capacity enhancement, Zhejiang Juhua Heat & Power Co.,  Ltd.

19) 2020.07-2022.07 Research on clean and efficient energy utilization technology of waste by pyrolysis and gasification, Shanghai SUS Environment Co., Ltd.  20) 2020.03-2021.03 Intelligent combustion control technology for biomass fluidized bed boiler based on three-dimensional temperature field measurement, Jiaxing New Jies  Heat & Power Co., Ltd.

21) 2019.01-2021.12 Key techniques and industrialization on energy-based recycle of organic solid waste, Shandong Key R&D Program.

22) 2018.12-2022.12 Key technologies and equipment for efficient clean and stable incineration of organic solid waste (project leader), National Key R&D Program. 23) 2018.01-2020.12 Demonstration project of phosphate ore modification by off-gas, Yunnan Key R&D Program.

24) 2017.07-2018.09 Pilot MSW Gasification Test, COVANTA ENERGY, LLC, United

States of America.

25) 2017.08-2020.07 Research and Demonstration on Efficient and Clean Energy Utilization of Municipal Solid Waste in Typical Southeast Asian Countries, National Key Research and Development Plan – International Cooperation Project.

26) 2017.01-2018.12 Research on catalytic cracking of tar by biochar from sludge, University development Fund of Ministry of Education of China.

27) 2015.08-2018.12 Technologies and demonstration of solid waste incineration in rural area, Ministry of Ecology and Environment of China.

28) 2016.01-2019.12 Fundamental study of target oriented catalytic pyrolysis of oily sludge treated by microemulsion system, Natural Science Foundation of China. 29) 2015.01-2016.12 Experimental study of efficient upgrading technology for syngas derived from municipal solid waste, COVANTA ENERGY, LLC, United States of  America.

30) 2011.01-2015.12 Research and equipment development on phase separation technology of sludge, National Science and Technology Support Program.

31) 2010.01-2015.12 Mechanism research on efficient and clean use of combustible solid waste, National Basic Research Program of China 973 Program.

32) 2010.01-2015.12 Circulation fluidized bed incinerator development, National science and technology major project of water pollution control and treatment.

  • Franz P. Neubacher and Qunxing Huang, WTE: Fluidized Bed Technology, Recovery of Materials and Energy from Urban Wastes, Encyclopedia of Sustainability Science and Technology, pp 375 – 392, Springer, 2019.
  • Qunxing Huang, Xu Cai, Moussa-Mallave Alhadj-Mallah, Jun Wang, Feiyan Mao, Xu Han, Chapter 11 Innovative Technologies: Plasma Arch Gasification, Sustainable Solid Waste Management, pp 293 – 318, American Society of Civil Engineers, 2016.
  • Qunxing Huang, Jianhua Yan, Xiaodong Li, Technologies and Systems for Efficient and Clean Power Generation from Municipal Solid Waste, Chemical Industry Press, 2023.
  • Qunxing Huang, Jianhua Yan, Xiaoqing Lin, Fu Gu, Hao Zhang, Energy Engineering Ethics, China Electric Power Press, 2022.

2023

1)         Pan, Yu; Li, Pei; Song, Kun; Liu, Gefei; Li, Lianming; Zhang, Pingheng; Gong, Jun; Huang, Qunxing*. New model for evaluating greenhouse gas emissions from sludge treatment based on fossil and biogenic carbon migration. Journal of Cleaner Production, 425 (2023), 138845.

2)         Song, Jiaxing; Wang, Jun; Du, Xudong; Pan, Yuhan; Sima, Jingyuan; Zhu, Youqi; Huang, Qunxing*. Ga-modified zeolites to convert mixed waste plastics to benzene, toluene, ethylbenzene, and xylene (BTEX)-enriched oil through a non-thermal plasma reactor. Chemical Engineering Journal, 476 (2023), 146501.

3)         Song, Jiaxing; Wang, Jun; Sima, Jingyuan; Zhu, Youqi; Du, Xudong; Williams, Paul T; Huang, Qunxing*. Dechlorination of waste polyvinyl chloride (PVC) through non-thermal plasma. Chemosphere, 338 (2023), 139535.

4)         Lou, Fangfang; Wang, Jun; Sima, Jingyuan, Lei Jiahui, Huang, Qunxing*. Mass concentration and distribution characteristics of microplastics in landfill mineralized refuse using efficient quantitative detection based on Py-GC/MS. Journal of Hazardous Materials, 459 (2023), 132098.

5)         Zhu, Chenxi; Wang, Jun; Lv, Jiabao; Zhu, Youqi; Huang, Qunxing*; Sun, Chen. Solar-driven reforming of waste polyester plastics into hydrogen over CdS/NiS catalyst. International Journal of Hydrogen Energy, 51 (2023), 91-103.

6)         Du, Xudong; Wang, Jun; Song, Jiaxing; Sima, Jingyuan; Zhu, Chenxi; Huang, Qunxing*. Dechlorination and fuel gas generation in chemical looping conversion of waste PVC over inherently Na/Ca/K-containing bauxite residue-based oxygen carriers. Waste Management, 168 (2023), 211-220.

7)         Wang, Jingyu; Dong, Yibin; Zhang, Pingheng; Wang, Shoukang; Huang, Qunxing*; Li, Lianming; Gong, Jun; Dong, Zhen; Chen, Weidong. Online measurement of moisture content of biomass based on LiDAR images. Fuel, 357 (2023), 129872.

8)         Liu, Gefei; Huang, Qunxing*; Song, Kun; Pan,Yu; Zhang, Hong. Improved method for calculating CO2 emission from industrial solid wastes combustion system based on fossil and biogenic carbon fraction. Waste Management, 174 (2023), 164-173.

9)         He, Junjie; Li Jiayu; Wang, Rupei; Fang, Xudong; Huang, Qunxing*; Wang, Shoukang; Long, Jisheng*. Effect of Potassium Chloride on the Nanostructure and Reactivity of Soot Particles from Combustion of Municipal Solid Waste. Energy & Fuels, 37 (2023), 1247-1256.

10)       Wang, Wanli; Sun, Kai; Gong, Piyu; Huang, Qunxing*. Production of low-oxygen oil via catalytic co-pyrolysis of biogas residue and plastics by ZSM-5. Environmental Technology, 44 (2023), 1947-1958.

2022

1)         Yang, Yuxuan; Sun, Chen; Huang, Qunxing*; Yan, Jianhua. Hierarchical porous structure formation mechanism in food waste component derived N-doped biochar: Application in VOCs removal. Chemosphere, 291 (2022), 132702.

2)         Du, Xudong; Wang, Jun; Song, Jiaxing; Pan, Yuhan; Sima, Jingyuan; Zhu, Chenxi; Gao, Huaping; Guo, Linlin; Zhang, Jie; Huang, Qunxing*. Fuel gas production through waste polyethylene gasification using bauxite residue as the oxygen carrier. FUEL, 321 (2022), 123878.

3)         He, Junjie; Li, Lianming; Feng, Hong; Jiang, Mingnan; Li, Jiayu; Guo, Linlin; Zhang, Jie; Zhang, Pingheng; Gong, Jun; Huang, Qunxing*. Morphology and nanostructure of flame-formed soot particles from combustion of typical municipal solid waste. Fuel Processing Technology, 232 (2022), 107269.

4)         Lou, Fangfang; Wang, Jun; Sun, Chen; Song, Jiaxing; Wang, Wanli; Pan, Yuhan; Huang, Qunxing*; Yan, Jianhua. Influence of interaction on accuracy of quantification of mixed microplastics using Py-GC/MS. Journal of Environmental Chemical Engineering, 32 (2022), 108630.

5)         Wang, Jun; Pan, Yuhan; Song, Jiaxing; Huang, Qunxing*. A high-quality hydrogen production strategy from waste plastics through microwave-assisted reactions with heterogeneous bimetallic iron/nickel/cerium catalysts. Journal of Analytical and Applied Pyrolysis, 166 (2022), 105612.

6)         He, Junjie; Li, Jiayu; Huang, Qunxing*; Yan, Jianhua. Release characteristics of potassium and sodium during pellet combustion of typical MSW fractions using the FES method. Combustion and Flame, 244 (2022), 112233.

7)         Zhong, Yiliu; Xu, Jun; Pan, Yuhan; Yin, Zhitong; Wang, Xinwen; Zhou, Yonggang; Huang, Qunxing*. Combustion characteristics of aromatic-enriched oil droplets produced by pyrolyzing unrecyclable waste tire rubber. Fuel Processing Technology, 226 (2022), 107093.

8)         Pan, Yuhan; Song, Jiaxing; Lou, Fangfang; Xu, Jun; Zhou, Yonggang; Huang, Qunxing*. Catalytic co-pyrolysis of rubber waste and polyacrylonitrile for producing BTEX enriched oil via heterogeneous Diels-Alder reaction. FUEL, 321 (2022),124028.

2021

1)         Pan, Yuhan; Huang, Pingan; Xue, Zhiliang; Wang, Xinwen; Zhou, Yonggang; Huang, Qunxing*. The effect of the secondary reactions on volatile composition during the pyrolysis treatment of scrap tires. Environmental Technology, 43(2021), 4054-4065.

2)         Pan, Yuhan; Sima, Jingyuan; Wang, Xinwen; Zhou, Yonggang; Huang, Qunxing*. BTEX recovery from waste rubbers by catalytic pyrolysis over Zn loaded tire derived char. Waste Management, 131 (2021), 214–225.

3)         Wang, Jun; Sun, Chen; Huang, Qunxing*; Chi, Yong; Yan, Jianhua. Adsorption and thermal degradation of microplastics from aqueous solutions by Mg/Zn modified magnetic biochars. Journal of Hazardous Materials, 419(2021), 126486.

4)         Song, Jiaxing; Sima, Jingyuan; Pan, Yuhan; Lou, Fangfang; Du, Xudong; Zhu, Chenxi; Huang, Qunxing*. Dielectric Barrier Discharge Plasma Synergistic Catalytic Pyrolysis of Waste Polyethylene into Aromatics-Enriched Oil. ACS Sustainable Chemistry and Engineering, 9 (2021), 11448–11457.

5)         Xie, Haoyuan; Lin, Xiaoqing; Wang, Shoukang; Li, Lianming; Feng, Hong; Zhang, Pingheng; Huang, Qunxing*. Real-time diagnosis of circulation stability for CFB combustion optimization using a novel image trajectory method. Fuel, 305 (2021),121554.

6)         Song, Jiaxing; Sun, Kai; Huang, Qunxing*. The effect of thermal aging on the composition of pyrolysis oil fuel derived from typical waste plastics. Fuel Processing Technology, 218 (2021), 106862.

7)         Meng, Xiangdong, Wang, Qian, Wan, Biao, Xu, Jie, Huang, Qunxing*, Yan, Jianhua, Tang, Yuanzhi*. Transformation of Phosphorus during Low-Temperature Co-Combustion of Sewage Sludge with Biowastes. ACS Sustainable Chemistry & Engineering, 9 (2021),3661-3669.

8)         Sun, Kai; Wang, Wanli; Themelis, Nickolas J.; Bourtsalas, A. C. Thanos; Huang, Qunxing*. Catalytic co-pyrolysis of polycarbonate and polyethylene/polypropylene mixtures: Promotion of oil deoxygenation and aromatic hydrocarbon formation. Fuel, 285 (2021), 119143.

9)         Yang, Yuxuan; Lin, Bingcheng; Sun, Chen; Tang, Minghui; Lu, Shengyong; Huang, Qunxing*; Yan, Jianhua. Facile synthesis of tailored mesopore-enriched hierarchical porous carbon from food waste for rapid removal of aromatic VOCs. Science of the Total Environment, 773 (2021), 145453.

10)       He, Junjie; Hu, Qinxuan; Jiang, Mingnan; Huang, Qunxing*. Nanostructure and reactivity of soot particles from open burning of household solid waste. Chemosphere, 269 (2021), 129395.

2020

1)         Pan, Yuhan; Yang, Diancai; Sun, Kai; Wang, Xinwen; Zhou, Yonggang; Huang, Qunxing*. Pyrolytic transformation behavior of hydrocarbons and heteroatom compounds of scrap tire volatiles. Fuel, 276 (2020), 118095.

2)         Sun, Kai; Themelis, Nickolas J.; Bourtsalas, A. C.(Thanos); Huang, Qunxing*. Selective production of aromatics from waste plastic pyrolysis by using sewage sludge derived char catalyst. Journal of Cleaner Production, 268 (2020), 122038.

3)         Yang, Yuxuan; Sun, Chen; Lin, Bingcheng; Huang, Qunxing*. Surface modified and activated waste bone char for rapid and efficient VOCs adsorption. Chemosphere, 256 (2020), 127054.

4)         Wang, Aiyue; Sun, Kai; Wu, Liping; Wu, Ping; Zeng, Wenchao; Tian, Zhongmin; Huang, Qunxing*, Co-carbonization of biomass and oily sludge to prepare sulfamethoxazole super-adsorbent materials. Science of the Total Environment, 698 (2020), 134238.

5)         Ali, Mujahid; Huang, Qunxing*; Wang, Yafei; Lin, Bingcheng; Sun, Kai; Chi, Yong; Wang, Fei. Waste and Biomass Valorization, 11 (2020), 3433-3442.

2019

1)         Lu, Peng; Huang, Qunxing*; Chi, Yong; Wang, Fei; Yan, Jianhua. Catalytic cracking of tar derived from the pyrolysis of municipal solid waste fractions over biochar. Proceedings of the Combustion Institute, 37 (2019), 2673-2680.

2)         Lin, Bingcheng; Huang, Qunxing*; Ali, Mujahid; Wang, Fei; Chi, Yong; Yan, Jianhua. Continuous catalytic pyrolysis of oily sludge using U-shape reactor for producing saturates-enriched light oil. Proceedings of the Combustion Institute, 37 (2019), 3101–3108.

3)         Meng, Xiangdong; Liu, Xiaoji; Huang, Qunxing*; Gao, Huaping; Tay, Kangrou; Yan, Jianhua. Recovery of phosphate as struvite from low-temperature combustion sewage sludge ash (LTCA) by cation exchange. Waste Management, 90 (2019), 84-93.

4)         Wang, Wanli; Sun, Kai; Ali, Mujahid; Liu, Xiaoji; Huang, Qunxing*. Copyrolysis Behavior of Xylan and Polyvinyl Chloride Plastic. Energy & Fuels, 33 (2019), 8727−8734.

5)         Lin, Bingcheng; Huang, Qunxing*; Yang, Yuxuan; Chi, Yong. Preparation of Fe-char catalyst from tank cleaning oily sludge for the catalytic cracking of oily sludge. Journal of Analytical and Applied Pyrolysis, 139 (2019), 308-318.

6)         Hu, Binhang; Huang, Qunxing*; Chi, Yong; Yan, Jianhua, Polychlorinated dibenzo-p-dioxins and dibenzofurans in a three-stage municipal solid waste gasifier. Journal of Cleaner Production, 218 (2019), 920-929.

7)         Wang, Yafei; Huang, Qunxing*; Wang, Fei; Chi, Yong; Yan, Jianhua. Brownian dynamics simulation of soot primary particle aggregation in laminar ethylene diffusion flames. Physica A-Statistical Mechanics and its Applications, 514 (2019), 936-947.

8)         Wang, Yafei; Huang, Qunxing*; Wang, Fei; Chi, Yong; Yan, Jianhua. A feasible and accurate method for calculating the radiative properties of soot particle ensembles in flames. Journal of quantitative spectroscopy & radiative transfer, 224 (2019) 222-232.

9)         Lu, Peng; Huang, Qunxing*; Bourtsalas, A. C.(Thanos); Themelis, Nickolas J.; Chi, Yong; Yan, Jianhua. Review on fate of chlorine during thermal processing of solid wastes. Journal of Environmental Sciences, 78(2019), 13-28.

10)       Lu, Peng; Huang, Qunxing*; Bourtsalas, Athanasios C.; Chi, Yong; Yan, Jianhua. Effect of Operating Conditions on the Coke Formation and Nickel Catalyst Performance During Cracking of Tar. Waste and Biomass Valorization, 10 (2019), 155-165.

  • 2017, Second Prize of the National Science and Technology Progress Award, pyrolysis and incineration system for hazardous waste treatment, 8/13
  • 2016, Team Prize of the National Science and Technology Progress Award, Clean Energy Utilization innovation team, 12/15
  • 2015, Frist Prize of the Science and Technology Progress Award of Zhejiang Province, Combustion diagnosis and optimizing technology, 3/10
  • 2014, Second Prize of the National Science and Technology Progress Award, sewage sludge drying and incineration technology using fluidized bed as reactor, 7/10
  • 2012, First Prize of the Science and Technology Award of Zhejiang Province, Integrated disposal technology for the rotary multi-stage pyrolysis and incineration of hazardous waste, 9/13
  • 2012, First Prize of the Science and Technology Award of China Construction, Integration and application of the thermal drying and co-combustion in coal-fired boilers technology of sludge, 6/15

1)         2024.01.12 A method for evalation GHG emission factors from sludge treatment based on carbon migration, CN 202211333496.5

2)         2023.10.03 A device and method for rapid pyrolysis, quality enhancement and value addition of waste rubber and plastic pellets, CN 202011448542.7

3)         2023.09.01 A waste organic polymer particle pyrolysis system for improving pyrolysis oil quality, CN 202211623045.5

4)         2023.07.11 An anti-clogging self-cleaning device at the outlet of dusty pyrolysis oil and gas, CN 202211658320.7

5)         2023.06.23 A device and method for the remediation of microplastic contaminated soil based on coaxial DBD plasma technology, CN 202210492185.7

6)         2023.05.26 A measurement system and method for the feeding rate and heat of material on a conveyor belt based on LiDAR, CN 202210450291.9

7)         2023.02.14 Recyclable preparation method of hydrogen-rich gas from microwave in situ catalytic pyrolysis of tires, CN 202210540717.X

8)         2023.02.10 A three-stage reaction system for the plasma-assisted catalytic pyrolysis recycling of plastics, CN 202210486763.6

9)         2022.11.25 A high-temperature self-sealing system for pyrolysis of waste tires, CN 202210591211.1

10)       2022.09.13 A calculation method and system for internal circulation ratio of a circulating fluidized bed, CN 202110163236.7

11)       2022.07.15 A device and method for the production of eco-friendly carbon black through pyrolysis of waste tire rubber granules, CN 202110979194.4

12)       2022.05.17 A real-time detection device and method for domestic waste components in an incinerator, US 11333609 B2

13)       2022.05.03 A method for producing combustible gas by reducing red mud with organic solid waste pyrolysis gas, CN 202110640314.8

14)       2022.04.19 Real-time calculation method of heat value of waste into the incinerator based on thermal imagery, CN 202110611275.9

15)       2022.03.25 A method of preparing mesopore-rich graded porous carbon from biogenic materials, CN202011191426.1

16)       2021.06.29 Method and system for measuring slag falling in the pulverized coal boiler based on slag block trajectory, CN 201710534668.8

17)       2020.08.04 A gasification method of domestic waste in a staggered grate incinerator, CN 201810949302.1

18)       2020.04.21 Monitoring and control method of boiler slag based on cold ash hopper vibration signals, CN 201811573979.6

19)       2020.03.20 A method for preparing multi-stage porous activated carbon from oil sludge and biomass composite, CN 201710499400.5

20)       2019.11.29 Device and method for synergistic pyrolysis and gasification of domestic waste and high alkali coal in a three-stage process, CN 201710056568.9

21)       2019.09.20 A real-time detection device and method for domestic waste components in an incinerator, CN 201810147535.X

22)       2019.03.29 A method for preparation of high aromatic hydrocarbon content  products from oily sludge, CN 201710499399.6

23)       2018.09.28 A device and method for catalytic gasification in a combined furnace, CN 201510755817.4

24)       2017.11.28 A high specific surface microporous activated carbon prepared from storage and transportation oil sludge and its preparation method, CN 201610200890.X

25)       2017.06.30 A waste gasification gas upgrading device  and method based on heating iron-based catalyst through electromagnetic induction , CN 201510186100.2

26)       2017.05.03 A low fly ash emission granular sludge incinerator with flue gas recirculation, CN 201510409452.X

27)       2017.01.04 A U-shaped fixed bed gasification catalytic reaction device with tar degradation function, CN 201510129319.9

1)         2021.05.07 A prediction software for the operating parameter of domestic waste incinerator grate V1.0, 2021SR0638737

2)         2021.04.19 A monitoring software for high temperature combustion flame image and spectrum in the large boiler V1.0, 2021SR0556701

3)         2021.04.14 A prediction software for the main steam temperature trend of biomass circulating fluidized bed V1.0, 2021SR0539926

4)         2020.05.13 A monitoring and analysis software for slag of the large coal-fired power plants based on trajectory V1.0, 2020SR0443185

5)         2013.01.15 Rapid reconstruction system for flame temperature distribution based on Image V1.0, 2013SR004767