王莎

发布者:唐子夏发布时间:2024-04-03浏览次数:4810

个人信息


姓名:王莎         职称副教授

专业:能源与动力工程    学历层次:博士研究生

办公室地点:实训4205  办公电话:021-67791385

电子邮箱:wangsha_84@163.com

研究方向洁净能源联合循环发电热力系统优化等;

 含碳能源高效高值转化低碳化利用

主讲课程:研究生课程《能源动力机械基础》等;

 本科生课程《汽轮机原理》、《大气污染控制》等。


个人简介(教育背景、工作经历)

2014.09-至今:上海工程技术大学,机械与汽车工程学院,副教授

2009.09-2014.06:上海交通大学,热能工程专业,博士

2006.09-2009.06:东南大学,动力工程及工程热物理专业,硕士


主要科研成果(代表性论文、专利、著作等)

代表性科研项目:

  1.  基于化学链燃烧原理的汽车尾气多污染物协同脱除研究,2023年机械与汽车工程学院青年博士培育专项,负责人,2023.4-2023.11.

  2. 碳基能源高效高值转化及利用团队,上海工程技术大学青年科研团队培育计划项目,批准号:QNTD202101负责人2021.05-2024.05.

  3. 冷等离子体催化CH4/CO2重整与油页岩干馏耦合制油规律及机理研究,国家自然科学基金青年科学基金项目,批准号:51704194,主持,2018.01-2020.12.

  4. 油页岩固定床低温干馏特性及催化转化研究,上海高校青年教师培养资助计划项目,批准号:ZZGCD15062,主持,2016.01-2017.12.

  5. 油页岩大分子耦合生物质自由基共热解机理研究与反应过程调控,上海市扬帆科技人才计划项目,批准号:19YF1418000,第3组成成员,2019.05-2022.04.

  6. 煤粉机械力化学改性及O2/CO2燃烧的基础研究,国家自然科学基金面上项目,批准号:51376131,第6组成成员,2014.01-2017.12.

  7. 油页岩内油母质热化学转化过程的量子化学原理,上海市自然科学基金项目,批准号:13ZR1420300,参与时间:2013.09-2014.06.

  8. 氮、硫元素在油页岩干馏/焚烧一体化综合利用系统中迁移过程的量子化学原理,国家自然科学基金青年科学基金项目,批准号:50906051,参与时间:2010.03-2012.06.

  9. 油页岩高效清洁综合利用系统关键技术的研究,国家高技术研究发展计划(863计划)资助项目,批准号:2007AA05Z333,参与时间:2009.09-2010.09.

  10. 含碳能源化学链式反应器制氢脱碳基础研究,国家自然科学基金项目,批准号:50776018参与时间:2008.01-2009.04.

  11. 燃气轮机的高性能热-功转换科学技术问题研究子课题:富氢合成气制备,国家重点基础研究973项目,批准号:2007CB210101参与时间:2008.01-2009.04.

  12. 国家油页岩综合利用示范基地”的建设工作,国土资源部“资源节约与综合利用”项目,参与时间:2011.01-2013.12.

  13. 洗煤泥复合循环高效洁净燃烧锅炉的研发,负责空预器和热风管道部分,参与时间:2013.07-2013.09.

  14. 高效洁净燃烧工业煤粉锅炉的研发,负责空预器和热风管道部分,参与时间:2011.07-2013.09.

  15. 水煤浆流化悬浮高效洁净燃烧锅炉的研发,负责空预器和热风管道部分,参与时间:2010.07-2013.09.

代表性著作

  1. 陈煜,王莎,傅允准.城市能源供应系统.哈尔滨:哈尔滨工业大学出版社,2023.

  2. 沈骏,郭韵,刘雪松,陈斌,王莎.碳基能源高效转化及洁净利用技术. 哈尔滨:哈尔滨工业大学出版社,2022.

代表性论文:

  1. JB Yan,S Wang(通讯),BHu, et al. Review of chemical looping technology for energy conservation and utilization: CO2 capture and energy cascade utilization. Journal of Environmental Chemical Engineering, 2024, 12(3):112602. (二区)

  2. B Hu, S Wang(通讯), JB Yan, et al. Review of waste plastics treatment and utilization: Efficient conversion and high value utilization. Process Safety and Environmental Protection, 2024, 183:378-398. (二区)

  3. ZQ Wang, J Shen, XS Liu,Y Guo, S Wang, et al. Formation mechanism of NOx precursors during the pyrolysis of glutarimide and succinimide. Journal of Environmental Chemical Engineering, 2024, 12:112094. (二区)

  4. XS Liu, J Shen, SX Deng, SWang, et al. Unveiling the role of sodium ion in the conversion of amino acid intermediates and the formation mechanism of NOx precursors during kitchen waste pyrolysis. Journal of Analytical and Applied Pyrolysis. 2023, 173:106085. (二区)

  5. J Shen, XS Liu, S Wang, et al. Theoretical study on nitrogen migration mechanism during the pyrolysis of 2-pyrrolidone. Fuel, 2023, 345:128260. (一区)

  6. ZQ Wang, J Shen, XS Liu, Y Guo, S Wang, et al. A review on nitrogen migration mechanism during the pyrolysis of organic solid waste: DFT, ReaxFF MD and experimental study. Journal of Analytical and Applied Pyrolysis, 2023, 176:106250. (二区)

  7. ZQ Wang, J Shen, XS Liu, Y Guo, S Wang, et al. Theoretical Study on the Formation Mechanism of NOx Precursors During the Pyrolysis of 2,4-Imidazolinediketone. Combustion Science and Technology, 2023, 1-19. (四区)

  8. 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, 331:125803. (一区)

  9. TH Zeng, J Shen, Y Guo, S Wang, et al. Theoretical Study on CO Participated N2O Reduction. Combustion Science and Technology, 2022, 1-17. (四区)

  10. HR Zhang, S Wang(通讯),C Shi,JB Yan, et al. Evolution characteristics of products retorted from Gonghe oil shale based on TG-FTIR and Py-GC/MS. Thermochimica Acta, 2022, 716:179325. (二区)

  11. 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. (一区)

  12. C Shi, S Wang(通讯), 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. (二区)

  13. JShen, JX Liu, SX Deng, S Wang(通讯), et al. Detailed in-furnace measurements with reburning of superfine pulverized coal in high CO2 concentration. Journal of Environmental Sciences, 2021, 104:326-334. (二区)

  14. 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. (一区)

  15. B Chen, X Ye, J Shen, S Wang, SX Deng, JB Yang. 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. (一区)

  16. X Ye, AY Jiao, H Zhang, B Chen, S Wang, J Shen, ZR Yan, SX Deng, XX Han, XM Jiang, MX Yuan. Quantum chemical calculations for the H free radical chemisorption with different chain models during oil shale pyrolysis. Fuel, 2021, 290:119999. (一区)

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

  18. YM Xia, S Wang(通讯), 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.

  19. 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. (二区)

  20. 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. (一区)

  21. XGe, S Wang(通讯), 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. (三区)

  22. S Wang(通讯), 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. (四区)

  23. S Wang(通讯), 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. (三区)

  24. 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. (四区)

  25. 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. (二区)

  26. 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. (四区)

  27. 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. (四区)

  28. 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. (一区)

  29. 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. (一区)

  30. S Wang, XM Jiang, XX Han, et al. Investigation of Chinese oil shale resources comprehensive utilization performance. Energy, 2012, 42(1):224-232. (一区)

  31. 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 & Fuels, 2011, 25(9):4006-4013. (三区)

  32. 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. (三区)

  33. WG Xiang, S Wang, et al. Investigation of Gasification Chemical Looping Combustion Combined Cycle Performance. Energy & Fuels, 2008, 22(2):961-966. (三区)

代表性专利

  1.  沈骏,陈斌,严祯荣,郭韵,王莎. 一种用于处理厨余垃圾的低氮燃烧循环流化床系统及其应用,2023-5-30,中国,ZL202111439445.6.

  2.  石聪,王莎,邓胜祥,陈斌,沈骏. 低温等离子体甲烷活化与油页岩热解耦合的方法及装置,2022-8-2,中国,ZL202011047386.3.

  3. 陈斌,严祯荣,沈骏,王莎,等. 一种生物质废弃物挥发分催化油页岩干馏耦合系统及方法,2022-6-3,中国,ZL201911131900.9.

  4. 王莎,张华荣,沈骏,陈斌,等. 一种利用太阳能回收油气的环保装置,2021-12-31,中国,ZL202121728941.9.

  5. 陈斌,陶天华,叶筱,严祯荣,邓胜祥,王莎,等. 一种生物质废弃物耦合湿垃圾多态化联产综合利用系统及工艺,2021-9-10,中国,ZL202010781209.1.

  6. 陈斌,张言睿,叶筱,严祯荣,邓胜祥,王莎,等. 一种秸秆废弃物耦合油页岩综合利用系统及工艺,2021-10-8,中国,ZL202010775914.0.

  7. 宋立志,葛翔,王莎,汪鸣杰. 基于富甲烷混合气的油页岩循环流化床干馏方法及系统,2020-7-17,中国,ZL 201811061572.5.

  8. 姜秀民,刘建国,韩向新,王莎,等. 油页岩回转窑干馏与循环流化床燃烧工艺,2013-12-11,中国,ZL201110443734.3.


主要荣誉奖励:

  1. 20234月“功能化伊利石可控制备及其用于热塑弹性体的关键技术”获上海科学技术奖三等奖。

  2. 20227月获2021-2022年度上海工程技术大学优秀班主任(导师)荣誉称号。

  3. 2022年获第三届中国科技产业化促进会科技产业化二等奖。

  4. 202112月获上海工程技术大学教学成果奖二等奖。

  5. 202112月获上海工程技术大学机械与汽车工程学院课程思政教学设计竞赛二等奖。

  6. 202111月获2021年度上海市工程热物理学会优秀硕士学位论文(指导老师)。

  7. 2018年获上海工程技术大学2016-2017年度优秀共产党员荣誉称号。

  8. 2018年获上海工程技术大学机械与汽车工程学院2018年度党员先锋岗优秀个人称号。

  9. 2017年获上海工程技术大学本科教学工作审核评估优秀个人荣誉称号。

  10. 2017年产学合作教育工作学期中被评为优秀协调员