WANG SHA

发布者:唐子夏发布时间:2024-05-13浏览次数:10

教便[2014] 号

WANG Sha

Associate Professor

Institute of Energy and Power Engineering

Office Phone: 021-67791385

Address: Training Building Room 4205

Email: wangsha@sues.edu.com






EducationalBackgroud

2009-2014,Shanghai Jiao Tong University/Thermal Engineering, Doctor

2006-2009,Southeast University/Power Engineering and Engineering Thermophysics,Master

2002-2006,Kunming University of Science and Technology/Thermal and PowerEngineering, Bachelor

ProfessionalExperience

2014-Present,Instituteof Energyand Power Engineering, School of Mechanical and AutomotiveEngineering, Shanghai University of Engineering Science, AssociateProfessor

ResearchInterests

  1. Performance optimization of combined cycle power generation system using clean energy as fuel.

  2. Efficient and high-value conversion and utilization of carbon-based energy sources.

  3. Chemical looping combustion technology for solid fuels.

ResearchProjects

  1. 2021.05-2024.05, Research team for efficient and high-value conversion and utilization of carbon-based energy sources, Youth Scientific Research Team Training Project of Shanghai University of Engineering Science, No. QNTD202101, Principal Investigator.

  2. 2018.01-2020.12, Regularities and mechanisms of shale oil formation in the integrated process of oil shale retorting with carbon dioxide reforming of methane by cold plasma assisted catalysis, National Natural Science Foundation of China, No. 51704194, Principal Investigator.

  3. 2016.01-2017.12, Investigation on catalytic conversion and low-temperature retorting characteristics of oil shale by a fixed bed reactor, Young Teacher Training Scheme of Shanghai Universities, No. ZZGCD15062, Principal Investigator.

  4. 2019.05-2022.04, Investigation on reaction mechanism and process regulation of oil shale macromolecule and biomass free radical co-pyrolysis, Shanghai Sailing Plan for the Young Scientific Talents, No. 19YF1418000, Main Researcher.

  5. 2014.01-2017.12, Fundamental study on mechanochemistry modification and O2/CO2 combustion of pulverized coal, National Natural Science Foundation of China, No. 51376131, Main Researcher.

  6. 2013.09-2014.06, Quantum chemical principles of thermochemical conversion of kerogen in oil shale, Shanghai Natural Science Foundation Project, No. 13ZR1420300, Participant.

  7. 2010.03-2012.06, Quantum chemical principles of nitrogen and sulfur migration processes during oil shale retorting/incineration integrated comprehensive utilization system, National Natural Science Foundation of China, No. 50906051, Participant.

  8. 2009.09-2010.09, Study on the key technology of efficient, clean and comprehensive utilization system of oil shale, National High-Tech Research and Development Program (863 program), No. 2007AA05Z333, Participant.

  9. 2008.01-2009.04, Basic research on hydrogen production and decarbonization in chemical chain reactor for carbon containing energy sources, National Natural Science Foundation of China, No. 50776018, Participant.

  10. 2008.01-2009.04, Sub-project of scientific and technical research problems on high performance heat-work conversion for gas turbine: preparation of hydrogen-rich syngas, The State Key Fundamental Research Programs (973 Program), No. 2007CB210101, Participant.

  11. 2011.01-2013.12, Construction of "National Oil Shale Comprehensive Utilization Demonstration Base", "Resource conservation and comprehensive utilization" project of the Ministry of Land and Resources, Participant.

  12. 2010.07-2013.09, R&D of high-efficiency and clean fluidized suspension combustion boiler of coal water slurry, Main researcher of air preheater and hot air duct.

  13. 2011.07-2013.09, R&D of high-efficiency and clean pulverized coal boiler, Main researcher of air preheater and hot air duct.

  14. 2013.07-2013.09, R&D of high-efficiency and clean composite circulating boiler of coal washing sludge, Main researcher of air preheater and hot air duct.

SelectedPublications

  1. XS Liu, J Shen, Y Guo, S Wang, et al. Technical progress and perspective on the thermochemical conversion of kitchen waste and relevant applications: A comprehensive review. Fuel, 2023, 331(1):125803. (SCI&EI)

  2. HR Zhang, S Wang(Corresponding Author), C Shi, et al. Evolution characteristics of products retorted from Gonghe oil shale based on TG-FTIR and Py-GC/MS. Thermochimica Acta, 2022, 716:179325. (SCI&EI)

  3. B Chen, YL Li, MX Yuan, J Shen, S Wang, et al. Study of the co-pyrolysis characteristics of oil shale with wheat straw based on the hierarchical collection. Energy, 2022, 239(Part B):122144. (SCI&EI)

  4. C Shi, S Wang(Corresponding Author), X Ge, et al. A review of different catalytic systems for dry reforming of methane: Conventional catalysis-alone and plasma-catalytic system. Journal of CO2 Utilization, 2021, 46:101462. (SCI&EI)

  5. J Shen, JX Liu, SX Deng, S Wang(Corresponding Author), et al. Detailed in-furnace measurements with reburning of superfine pulverized coal in high CO2 concentration, Journal of Environmental Sciences, 2021, 104:326-334. (SCI&EI)

  6. B Chen, MX Yuan, YL You, S Wang, et al. Simulation analysis of Co-Pyrolysis of oil shale and wheat straw based on the combination of chain reaction kinetics and improved CPD models. Energy Conversion and Management, 2021, 243:114405. (SCI&EI)

  7. B Chen, X Ye, J Shen, S Wang, et al. Investigations on the energy efficiency limits for industrial boiler operation and technical requirements-taking China’s Hunan province as an example. Energy, 2021, 220:119672. (SCI&EI)

  8. X Ye, AY Jiao, H Zhang, B Chen, S Wang, et al. Quantum chemical calculations for the H free radical chemisorption with different chain models during oil shale pyrolysis. Fuel, 2021, 290:119999. (SCI&EI)

  9. YY Zhou, S Wang(Corresponding Author), CY Hu, et al. Research Status of Oil Shale Pyrolysis Mechanism. International Core Journal of Engineering, 2021, 7(7):292-299.

  10. YM Xia, S Wang(Corresponding Author), C Shi, et al. Research progress of thermodynamic simulation for methane dry reforming, Academic Journal of Engineering and Technology Science, 2020, 3(1):101-109.

  11. J Shen, H Zhang, JX Liu, L Luo, S Wang, et al. Density functional and experimental study of NO/O2 on zigzag char. Journal of Environmental Sciences, 2020, 88:283-291. (SCI&EI)

  12. B Chen, XX Han, JH Tong, M Mu, X Jiang, S Wang, et al. Studies of fast co-pyrolysis of oil shale and wood in a bubbling fluidized bed. Energy Conversion and Management, 2020, 205:112356. (SCI&EI)

  13. X Ge, S Wang(Corresponding Author), XM Jiang. Catalytic effects of shale ash with different particle sizes on characteristics of gas evolution from retorting oil shale. Journal of Thermal Analysis and Calorimetry, 2019, 138(2):1527-1540. (SCI&EI)

  14. S Wang(Corresponding Author), LZ Song, XM Jiang. Catalytic effects of Fe-and Ca-based additives on gas evolution during pyrolysis of dachengzi oil shale of China. Oil Shale, 2018, 35(1):39-55. (SCI&EI)

  15. S Wang(Corresponding Author), LZ Song, XM Jiang. Prediction of gaseous products from Dachengzi oil shale pyrolysis through combined kinetic and thermodynamic simulations. Journal of Thermal Analysis and Calorimetry, 2018, 134(2):1129-1144. (SCI&EI)

  16. Y Ma, JG Liu, C Fan, S Wang, et al. The experimental study on the incineration of the acrylonitrile effluent in the CFB boiler burning oil shale. Oil Shale, 2016, 33(1):58-68. (SCI&EI)

  17. S Wang, XM Jiang, XX Han, et al. Effect of retorting temperature on product yield and characteristics of non-condensable gases and shale oil obtained by retorting Huadian oil shales. Fuel Processing Technology, 2014, 121:9-15. (SCI&EI)

  18. S Wang, JX Liu, XM Jiang, et al. Effect of heating rate on products yield and characteristics of non-condensable gases and shale oil obtained by retorting Dachengzi oil shale. Oil Shale, 2013, 30(1):27-47. (SCI&EI)

  19. S Wang, XM Jiang, XX Han, et al. Effect of residence time on products yield and characteristics of shale oil and gases produced by low-temperature retorting of Dachengzi oil shale. Oil Shale, 2013, 30(4):501-516. (SCI&EI)

  20. MT Niu, S Wang, XX Han, et al. Yield and characteristic of shale oil from the retorting of oil shale and fine oil-shale ash mixture. Applied Energy, 2013, 111:234-239. (SCI&EI)

  21. JH Tong, JG Liu, XX Han, S Wang, et al. Characterization of nitrogen-containing species in Huadian shale oil by electrospray ionization Fourier transform ion cyclotron resonance mass spectrometry. Fuel, 2013, 104:365-371. (SCI&EI)

  22. S Wang, XM Jiang, XX Han, et al. Investigation of Chinese oil shale resources comprehensive utilization performance. Energy, 2012, 42(1):224-232. (SCI&EI)

  23. JH Tong, XX Han, S Wang, et al. Evaluation of structural characteristics of Huadian oil shale kerogen using direct techniques (Soild-State13C NMR, XPS, FT-IR, and XRD). Energy & Fuel, 2011, 25(9):4006-4013. (SCI&EI)

  24. XY Sun, WG Xiang, S Wang, et al. Investigation of coal fueled chemical looping combustion using Fe3O4 as oxygen carrier: influence of variables. Journal of Thermal Science, 2010, 19(3):266-275. (SCI)

  25. WG Xiang, S Wang, et al. Investigation of Gasification Chemical Looping Combustion Combined Cycle Performance. Energy & Fuels, 2008, 22(2):961–966. (SCI&EI)

Teaching

2017-2022Energy Power Machinery Foundation, Graduate students

2019-2022Principlesof SteamTurbine,Undergraduate students

2014-2022Air Pollution Control, Undergraduate students

Patentsand Applications

  1. Jiang XM, Liu JG, Han XX, Wang S, et al. Combined rotary kiln retorting and circulating fluidized bed combustion process of oil shale, Patent Number: ZL 201110443734.3, Issued date: 2013-12-1.

  2. Song LZ, Ge X, Wang S, et al. Method and system of oil shale retorting in circulating fluidized bed based on methane-rich mixture, Patent Number: ZL 201811061572.5, Issued date: 2020-7-17.

  3. Chen B, Zhang YR, Ye X, Yan ZR, Deng SX, Wang S, et al. A comprehensive utilization system and technology of straw waste and oil shale blends, Patent Number: ZL202010775914.0, Issued date: 2021-10-8.

  4. Chen B, Tao TH, Ye X, Yan ZR, Deng SX, Wang S, et al. A comprehensive utilization system and process of polymorphism cogeneration by coupling biomass waste with wet waste, Patent Number: ZL202010781209.1, Issued date: 2021-9-10.

  5. Chen B, Xu GX, Ye X, Yan ZR, Deng SX, Shen J, Wang S, et al. A coupling system and method for oil shale retorting catalyzed by biomass waste volatile, Patent Number: ZL202010966222.4, Issued date: 2021-10-8.

  6. Ye X, Chen B, Huang XH, Wang S, et al. A kind of oil-supply lubrication device for transmission bearing, Patent Number: ZL201911282226.4, Issued date: 2021-3-2.

  7. Ye X, Chen B, Huang XH, Wang S, et al. A kind of oil-supply lubrication device for reduction gearbox, Patent Number: ZL201911281431.9, Issued date: 2021-5-14.

  8. Chen B, Yan ZR, Shen J, Wang S, et al. A coupling system and method for oil shale retorting catalyzed by biomass waste volatile, Patent Number: ZL201911131900.9, Issued date: 2022-6-3.

  9. Wang S, Zhang HR, Shen J, et al. An environmental protection device using solar energy to recover oil and gas, Patent Number: ZL202121728941.9, Issued date: 2021-12-31.

  10. Shi C, Wang S, Deng SX, et al. Method and equipment for coupling oil shale pyrolysis with methane activation by low temperature plasma, Patent Number: ZL202011047386.3, Issued date:2022-8-26.

Honorsand Awards

  1. 2017, The honorary title of "Outstanding Individual in Undergraduate Teaching Audit and Evaluation" awarded by Shanghai University of Engineering Science.

  2. 2017, The title of "Excellent Coordinator" in the semester of cooperative education awarded by Shanghai University of Engineering Science.

  3. 2018, The honorary title of "Excellent Communist Party Member" of Shanghai University of Engineering Science in 2016-2017.

  4. 2018, The title of "Outstanding Individual of Pioneer Post of Party Members" awarded by the School of Mechanical and Automotive Engineering in Shanghai University of Engineering Science in 2018.

  5. 2021, The Excellent Master's Thesis of Shanghai Society of Engineering Thermophysics in 2021 (Instructor).

  6. 2021, the second prize of the Teaching Achievement Award of Shanghai University of Engineering Science.

  7. 2021, The second prize in the course ideological and political teaching design competition of the School of Mechanical and Automotive Engineering in Shanghai University of Engineering Science.

  8. 2022, The honorary title of Excellent Head Teacher (Tutor) of Shanghai University of Engineering Science from 2021 to 2022.

  9. 2022, The second prize of Science and Technology Industrialization in the third China Association for Promotion of Science and Technology Industrialization in 2022.