人才队伍

教学科研人员

王勤辉
王勤辉 教授|博士生导师

电话: 057187952802

邮箱: qhwang@zju.edu.cn

地址: 浙江大学玉泉校区热能工程研究所407室

简介

浙江大学热能工程研究所暨能源清洁利用国家重点实验室教授、博导生导师,国家能源煤炭清洁转换利用技术研发(实验)中心副主任,中国颗粒学会常务理事,流态化专业委员会副主任,中国化工学会工程热化学专委会副主任,中国电机工程学会热电专业委员会委员,中国煤炭学会煤化工专业委员会委员,浙江省电力学会锅炉专业委员会委员。入选教育部新世纪人才计划,浙江省“新世纪151人才工程”计划第一层次。

主要从事煤及生物质循环流化床热解、燃烧及气化技术、煤及生物质的热解气化燃烧分级转化多联产技术、煤及生物质利用过程的碳捕集技术、煤/生物质化学链气化制氢、污染物控制以及气固多相流等方向的研究。主持负责国家自然科学基金、863、973、支撑计划以及国际合作等国家级项目或课题近20项以及50多项与国内外企业的合作科研项目,是国家十二五"863"项目首席专家,国家十三五重点研发计划项目负责人。已获省部级科技进步奖6项,发表论文200余篇,著作4本,国家发明专利50余项。


主要研究方向

  • 煤及生物质流化床燃烧及气化技术

  • 煤及生物质的热解气化燃烧分级转化多联产技术

  • 二氧化碳碳捕技术

  • 气固多相流测试


教学与课程

 1. 能源转化(含锅炉原理),教学对象:能源与环境系统工程专业三年级学生

 2. 课程设计,教学对象:能源与环境系统工程专业三年级学生

 3. 燃气蒸汽联合循环,教学对象:硕士研究生


科研

主要研究项目:

  1. 用于CO2捕集的高性能吸收剂/吸附材料及技术(2017YFB0603300),国家重点研发计划项目负责人,2017.7-2021.7

  2. 煤炭热解气化燃烧分级转化低碳利用技术,国家重点研发计划项目课题,2017.1-2019.12

  3. 低阶煤直接转化与综合利用关键技术开发(2013AA051200),国家十二五“863”项目,2013.3-2015.3

  4. 煤炭循环流化床热解燃烧分级转化热电气多联产技术方案研究

  5. 农林废弃物类生物质流化床气化技术及装置开发

  6. 2x20t/h级生物质双流化床分级气化装置开发

  7. 流化床热解煤炭清洁高效利用研究


研究与成果

主要论文:

  1. Ye, C., Qinhui Wang, Zhongyang Luo, Mengxiang Fang, Kefa Cen. Characteristics of Coal Partial Gasification on a Circulating Fluidized Bed Reactor. Energy & Fuels, 2017. 31(3): p. 2557-2564.

  2. Jia Xin, Wang Qinhui, Han Long, Cheng Leming, Fang Mengxiang, Luo Zhongyang, Cen Kefa. Sulfur transformation during the pyrolysis of coal with the addition of CaSO4 in a fixed-bed reactor. Journal of Analytical and Applied Pyrolysis.2017;124:319-326.

  3. Jia Xin, Wang Qinhui, Cen Kefa, Chen Leming. An experimental study of CaSO4 decomposition during coal pyrolysis. Fuel 2016; 163:157-165

  4. Jia Xin, Wang Qinhui, Cen Kefa, Chen Leming. Sulfur transformation during the pyrolysis of coal mixed with coal ash in a fixed bed reactor. Fuel 2016;177: 26—267.

  5. Jia Xin, Wang Qinhui, Han Long, Cheng Leming, Fang Mengxiang, Luo Zhongyang, Cen Kefa. Sulfur behavior of the char and the ash during pyrolysis combined with combustion. Energy& Fuel 2016;30:9589-9595.

  6. Long Han, Guangyi Deng, Zheng Li, Qinhui Wang, Klein E. Ileleji. Integration optimisation of elevated pressure air separation unit with gas turbine in an IGCC power plant. Applied Thermal Engineering, 110(2017)1525-1532

  7. Qinhui Wang, Rui Zhang, Zhongyang Luo, Mengxiang Fang, Kefa Cen. Effects of Pyrolysis Atmosphere and Temperature on Coal Char Characteristics and Gasification Reactivity, Energy Technology. 4(4),2016: 543–550

  8. Chao Ye, Qinhui Wang, Zhongyang Luo, Mengxiang Fang, Kefa Cen. Influence of reactant atmospheres and temperature on mechanism of gasification of coal char derived from lignite,Energy Technology. 4(6),2016: 722-728.

  9. Zhihang Guo, Qinhui Wang, Mengxiang Fang, Zhongyang Luo, Kefa Cen, Simulation Study of A Novel Lignite-Based Polygeneration System Co-Producing Electricity and Tar with Carbon Capture, Chemical Engineering & Technology, 38 (2015) 463–472.

  10. Leming Cheng, Yunfei Xia, Chunjiang Yu, QinhuiWang,Weiguo Zhang, Mengxiang Fang. Experimental study of gas–solid flow over a novel heating surface in a CFB furnace. Powder Technology, 277(2015)74-81

  11. Rui Zhang, Dong Liu, Qinhui Wang, Zhongyang Luo, Mengxiang Fang, Kefa Cen. Coal Char Gasification on a Circulating Fluidized Bed For Hydrogen Generation: Experiments and Simulation, Energy Technology. 3(10), 2015: 1059-1067

  12. Wang Q*, Nai Rong, Hongtao Fan, Yongjie Meng, Mengxiang Fang,Leming Cheng, Kefa Cen. Enhanced hydrogen-rich gas production from steam gasification of coal in a pressurized fluidized bed with CaO as a CO2 sorbent, International Journal of Hydrogen Energy (2014), 2014; 39(11):5781-5792

  13. Nai Rong, Qinhui Wang*, Mengxiang Fang, Leming Cheng, Zhongyang Luo, Kefa Cen. Steam Hydration Reactivation of CaO-Based Sorbent in Cyclic Carbonation/Calcination for CO2 Capture. Energy & Fuels. 2013;27:5332-40

  14. Rui Zhang, Qin H. Wang*, Zhong Y. Luo, Meng X. Fang, Ke F. Cen. Coal char gasification in the mixture of H2O, CO2, H2 and CO under pressured conditions. Energy & Fuels, 2014, 28(2): 832-839

  15. Rui Zhang, Qin H. Wang,* Zhong Y. Luo, Meng X. Fang, and Ke F. Cen. Competition and Inhibition Effects during Coal Char Gasification in the Mixture of H2O and CO2. Energy & Fuel, 2013, 27, 5107−5115

  16. Zhihang Guo, Qinhui Wang, Mengxiang Fang, Zhongyang Luo, Kefa Cen. Thermodynamic and economic analysis of polygeneration system integrating atmospheric pressure coal pyrolysis technology with circulating fluidized bed power plant. Applied Energy, 113(2014) 1301-1314.

  17. Han Long, Wang Qinhui*, Luo Zhongyang, Rong Nai, Deng Guangyi. H2 rich gas production via pressurized fluidized bed gasification of sawdust with in situ CO2 capture. Applied Energy 109 (2013): 36–43

  18. Nijie Jing, Qinhui Wang*, Leming Cheng, Zhongyang Luo, Kefa Cen, Dongke Zhang. Effect of temperature and pressure on the mineralogical and fusion characteristics of Jincheng coal ash in simulated combustion and gasification environments. Fuel, 104, February 2013:647-655

  19. Nijie Jing, Qinhui Wang*, Leming Cheng, Zhongyang Luo, Kefa Cen. The sintering behavior of coal ash under pressurized conditions. Fuel, 103, January 2013:87-93

  20. Zhao Liang Wang Qinhui*, Klein E. Ileleji, Yu Chunjiang, Luo Zhongyang. Modeling and simulation of inbound fuel logistics from regional collection stations to biomass power plant in China. Transactions of the Chinese Society of Agricultural Engineering, 29(1),2013:180-188 (In Chinese)

  21. Ni-jie JING, Qin-hui WANG*, Yu-kun YANG, Le-ming CHENG, Zhong-yang LUO, Ke-fa CEN. Influence of ash composition on the sintering behavior during pressurized combustion and gasification process. Journal of Zhejiang University-SCIENCE A, 2012 13(3):230-238

  22. Nijie Jing, Qinhui Wang*, Zhongyang Luo, Kefa Cen. Effect of the Chemical Composition on the Sintering Behavior of Jincheng Coal Ash under the Gasification Atmosphere. Chemical Engineering Communications. 2012, 199(2):189-202.

  23. Hongde Yu, Qinhui Wang,*, Klein E. Ileleji, Chunjiang Yu, Zhongyang Luo,Kefa Cen, Jay Gore. Design and analysis of geographic distribution of biomass power plant and satellite storages in China. Part 1: Straight-line delivery, biomass and bioenergy, 46(2012): 773-784

  24. Hongde Yu, Qinhui Wang,*, Klein E. Ileleji, Chunjiang Yu, Zhongyang Luo,Kefa Cen, Jay Gore. Design and analysis of geographic distribution of biomass power plant and satellite storages in China. Part 2: Road delivery,biomass and bioenergy, 46(2012):785-792

  25. Xinglong Zhou, Leming Cheng, Qinhui Wang, Zhongyang Luo, Kefa Cen. Non-uniform distribution of gas–solid flow through six parallel cyclones in a CFB system: An experimental study, Particuology, 10(2), April 2012: 170-175

  26. Lianming Li, Chunjiang Yu, Jisong Bai, Qinhui Wang, Zhongyang Luo. Heavy metal characterization of circulating fluidized bed derived biomass ash, Journal of Hazardous Materials, 233–234, 30 September 2012: 41-47

  27. WANG QInhui, XU Zhi, LIU Yanpeng, LUO Zhongyang, NI Mingjiang. Experiments on effects of coal particle ash content on ash formation during fluidized bed combustion, Journal of Zhejiang University (Engineering Science), 46(5),2012: 941-947 (In Chinese)

  28. Tian Chen, WANG Qinhui, CHENG Leming, LUO Zhongyang, NI Mingjiang. Experimental Investigation on local particle volume fractions distribution in offset-exit circulating fluidized bed, Journal of Zhejiang University (Engineering Science), 46(4),2012:577-583 (In Chinese)

  29. Zhou Xinglong, CHENG Leming, Wang Qinhui, NI Eli, Fang Mengxiang, LUO Zhongyang, Effect of etended rooms on gas-solids flow in a CFB with 6 cyclones, Journal of Engineering Thermalophysics, 33(3), 2012: 517-520 (In Chinese)

  30. BAI Jisong, YU Chunjiang, LI Lianming, LI Xingliang, WANG Qinhui, LUO Zhongyang. Experimental Investigation on Co-firing of Coal and Refuse-derived Fuel in a Pilot-scale Circulating Fluidized Bed Combustor, Proceedings of the CSEE, 32(14), 2012.5: 36-41 (In Chinese)

  31. ZHOU Xinglong, CHENG Leming, ZHANG Junchun, WANG Qinhui, LUO Zhongyang, CEN Kefa. Experimental Study on Solids Suspension Density and Solids Circulating Rate in a CFB With Six Circulating Loops, Proceedings of the CSEE, 32(5), 2012.2: 9-14 (In Chinese)

  32. Nijie Jing, Qinhui Wang*, Zhongyang Luo, Kefa Cen. Effect of different reaction atmospheres on the sintering temperature of Jincheng coal ash under pressurized conditions. Fuel 90 (2011) 2645–2651

  33. Long Han, Qinhui Wang*, Yukun Yang, Chunjiang Yu, Mengxiang Fang, Zhongyang Luo, Hydrogen production via CaO sorption enhanced anaerobic gasification of sawdust in a bubbling fluidized bed. International Journal of Hydrogen energy, 36 (2011), 4820-4829

  34.  HAN Long, WANG Qinhui* , YANG Yukun, YU Chunjiang, FANG Mengx iang , LUO Zho ngyang. TG FTIR Study on Pyrolysis of Wheat Straw with Abundant CaO Additives.  Spectro sco py and Spectr al Analysis, 31(4), 2011.4: 942-946 (In Chinese)

  35. WANG Qinhui, YANG Qiuhui, WU Xuecheng, LUO Zhongyang, CEN Kefa.Research progress of Particle rotation characteristics in multiphase flows. CIESC Journal, 62(9), 2011:2381-2390  (In Chinese)

  36. CHEN Xunyu, WANG QINHUI, CEN Jianmeng, GUO Zhihang, Fang Mengxiang, LUO Zhongyang, Effect of Temperature on Pyrolysis Products of Xiaolongtan Lignite in a Fluidized bed reactor, Journal of Chinese Socity of Power Engineering, 31(4), 2011:316-320  (In Chinese)

  37. XU Zhi, WANG Qinhui, LUO Zhongyang, NI Mingjiang. Modeling on the combustion System of Large-scale circulating Fluidized bed Boiler, Journal of Engineering Thermophysics, 32(4), 2011.4:711-714  (In Chinese)

  38. WANG QInhui, XU Zhi, LIU Yanpeng, LUO Zhongyang, NI Mingjiang. Test study on the influence of coal particle size upon ash-slag formation in CFB boiler. Thermal Power Generation,40(10),2011:17-20  (In Chinese)

  39. WANG QInhui, XU Zhi, LIU Yanpeng, LUO Zhongyang, NI Mingjiang. Test study on the influence of coal particle size upon ash-slag formation in CFB boiler. Thermal Power Generation,40(10),2011:17-20  (In Chinese)

  40. Yu, Chunjiang; Bai, Jisong; Nie, Hu, Li, Lianming; Wang, Qinhui; Luo, Zhongyang. Experimental Study on the Characteristics of Self-Desulfurization during Sugarcane Leaf Combustion in a Circulating Fluidized Bed, ENERGY & FUELS, 25(9), 2011.9: 3885-3891

  41. Long Han, QinHui Wang, Ma Qiang, Yu Chunjiang, Luo Zhongyang. Influence of CaO additives on wheat-straw pyrolysis as determined by TG-FTIR analysis. Journal of Analytical and Applied Pyrolysis 88 (2010), pp. 199-206

  42. WANG Qinhui, JING N ijie, LUO Zhongyang, LI X iaom in, JIE Tao. Experiments on the effect of chemical components of coal ash on the sintering temperature. JOURNAL OF CH INA COAL SOC IETY, 35(6),2010,6:1015-1019 (in Chinese)

  43. Wang Qinhui, Jie Tao, Li Xiaoming, Luo Zhongyang, Jing Nijie, Kefa Cen, Experiments of the effect of reaction atmosphere on the coal ash sintering temperature. Journal of Fuel Chemistry and Technology, 38(1),2010:17-22 (in Chinese)

  44. Yu Hongde, Wang Qinhui1※, Klein E. Ileleji, Yu Chunjiang, Luo Zhongyang, Cen Kefa. Optimization and analysis of bio-fuel logistics for biomass power plant, Transactions of the CSAE, 26(12),2010:293-297 (in Chinese)

  45. XU Yaobing ,WANG Qinhui ,YU Chunjiang ,SHI Zhenglun. Test for operation optimization of CFB boilers mixed burning high sulfur petroleum coke with coal, Thermal Power Generation, 39 (5), 2010: 72-76 (In Chinese)

  46. Xuecheng Wu, Qinhui Wang, Zhongyang Luo, Mengxiang Fang, Kefa Cen. Rotation speed measurement of moving particles in a CFB riser. Particuology, 7 (2009) 238–244

  47. Long Han, Qinhui Wang, Qiang Ma, Chunjiang Yu, Zhongyang Luo, Kefa Cen. Kinetics study on CaO carbonation reaction at pressurized conditions . Proceedings of the Chinese Society of Electrical Engineering. 2009 Vol. 29 (14): 41-46 (in Chinese)

  48. Wang Qinhui, Liu Chuanliang, Luo Zhongyang, Gaoxiang, Xu Jingjing, Cen Kefa. Experiment on humidification and desulphurization of calcium-based spent sorbent at low temperature with thermo gravimetric analyzer. Journal of Zhejiang University (Engineering Science), 42(10), 2008: 1779-1784  (In Chinese)

  49. Xuecheng Wu, Qinhui Wang*, Zhongyang Luo, Mengxiang Fang, Kefa Cen. Experimental investigation of interparticle collision in the upper dilute zone of a cold CFB riser. International Journal of Multiphase Flow 34 (2008) 924–930

  50. Xuecheng Wu, Qinhui Wang∗, Zhongyang Luo, Mengxiang Fang, Kefa Cen. Theoretical and experimental investigations on particle rotation speed in CFB riser. Chemical Engineering Science 63 (2008) 3979 – 3987

  51. Xue-cheng WU, Qin-hui WANG∗, Chen TIAN, Zhong-yang LUO, Meng-xiang FANG, Ke-fa CEN. Experimental study on the spatial distribution of particle rotation in the upper dilute zone of a cold CFB riser. J Zhejiang Univ Sci A 2008 9(7):922-931

  52. Wu, X.C., Wang, Q.H., Luo, Z.Y., Fang, M.X., Cen, K.F., 2007. Experimental study of particle rotation characteristics in CFB with high-speed digital imaging system. Powder Technology 2008,180, 21-30

  53. Jian Guan, Qinhui Wang, Xiaomin Li, Zhongyang Luo, Kefa Cen. Thermodynamic analysis of a biomass anaerobic gasification process for hydrogen production with sufficient CaO. Renewable Energy 32 (2007) 2502–2515

  54. GUAN Jian, WANG Qinhui, LUO Zhongyang, CEN Kefa. Transition rules of pollutant elements in a new near zero emission coal util ization system. Journal of Zhejiang University ( Engineering Science),2007,41(12):2063-2068 (in Chinese)

  55. Wang Zhihua, Zhou Junhu, Wang Qinhui,et al. Thermodynamic equilibrium analysis of hydrogen production by coal based on Coal/CaO/H2O gasification system. International Journal of Hydrogen Energy 31 (7), 2006: 945 – 952

  56. Wang Qinhui, Luo Zhongyang, Ni Mingjiang, Cen Kefa. Particle population balance model for a Circulating Fluidized bed boiler. Chemical Engineering Journal,93/2, 2003: 121-133

  57. WANG Qinhui  LUO Zhongyang Fang Mengxiang NI Mingjiang CEN Kefa. Development of a new external heat exchanger for a circulating fluidized bed boiler. Chemical Engineering and Processing, 42, 2003: 327-335

  58. M. Fang, C. Yu, Z. Shi, Q. Wang, Z. Luo, K. Cen. Experimental research on solid circulation in a twin fluidized bed system. Chemical Engineering Journal,94(3),2003:171-178

  59. Shi Hui-xian, Wang Qin-hui, Wang Can-xing, Luo Zhongyang, Cen Kefa. PIV measurement of the gas-solid flow pattern in a CFB riser. Journal of Hydrodynamics, Ser. B, 6 (2003), 39-44

  60. WANG Qinhui  LUO Zhongyang  NI Mingjiang CEN Kefa. Model Prediction of the Operating Behavior of A Circulating Fluidized Bed Boiler, Journal of Zhejiang University Science,vol. 3(2), 2002: 251-257

  61. He, Hong-ZhouLuo, Zhong-YangWang, Qin-HuiCen, Ke-Fa. Characterization of fly ash and unburned carbon from CFB boiler with burning Fujian anthracite. Journal of Fuel Chemistry and Technology, 34(3),2006: 285-291 (In Chinese)

  62. Guan Jian, Wang Qinhui, Luo Zhongyang, Kefa Cen. Optimization and performance prediction of a new near zero emissions coal utilization system with combined gasification and combustion. Proceedings of the Chinese Society of Electrical Engineering, 26(9),2006:  7-13 (In Chinese)

  63. Wang Qinhui, Gao Qiong, Shi Huixian, Wu Xuecheng, Luo Zhongyang, Cen Kefa. Formation, structure and motion of clusters in circulating fluidized bed. Journal of ZHejiang University (Engineering Science), 40(1), 2006: 118-122  (In Chinese)

  64. Wang Qinhui, Fang Mengxiang, Luo Zhongyang, Li Xuantian, Hu Guoxin, Ni Mingjiang, Cen Kefa. Research on steam gas co-generation technology. Journal of Zhejiang University, 31(2), 1997: 253-260 (In Chinese)

  65. Wang Qinhui, Fang Mengxiang, Li Xuantian, Hu Guoshan, Luo Zhongyang, Ni Mingjiang, Cen Kefa. Retrofit of a 75t/h pulverized-coal-fired boiler into a 100t/h circulating fluidized bed boiler, Journal of Zhejiang University, 31(5), 1997: 628-634 (In Chinese)

  66. Wang Qinhui, Luo Zhongyang, Fang Mengxiang, Li Xuantian, Cheng Leming, Ni Mingjiang, Cen Kefa. An overall mathematical model of CFB boiler and comparison of model predictions with test results. Journal of Engineering Thermophysics, 19(2), 1998: 251-255 (In Chinese)

  67. Wang Qinhui, Luo Zhongyang, Fang Mengxiang, Li Xuantian, Ni Mingjiang, Cen Kefa. Test on Cyclone and Solids Recycle of Circulating Fluidized Bed Boiler. Power Engineering, 18(1), 1998: 48-53 (In Chinese)

  68. Wang Qinhui, Luo Zhongyang, Li Xuantian, Fang Mengxiang, Cheng Leming, Ni Mingjiang, Cen Kefa. Modeling of NO and N2O formation and decomposition in circulating fluidized bed boiler. Journal of fuel chemistry and technology, 26(2), 1998: 108-113 (In Chinese)

  69. Wang Qinhui, Luo Zhongyang, Li Xuantian, Fang Mengxiang. Testing and model on sulfur retention of circulating fluidized bed boiler. Proceeding of the CSEE (Chinese society for electrical engineering), 19 (2), 1999: 5-9 (In Chinese)

  70. Wang Qinhui, Luo Zhongyang, Fang Mengxiang, Ni Mingjiang, Cen Kefa. Experimental research for characteristics of fluid dynamics and combustion in circulating fluidized bed boiler furnace. Power Engineering, 19(3), 1999: 11~17 (In Chinese)

  71. Wang Qinhui, Luo Zhongyang, Li Xuantian, Ni Mingjiang, Cen Kefa. Characteristics of fluid dynamics and combustion in a circulating fluidized bed boiler furnace-Theory and model. Power Engineering, 19(4), 1999: 269-274 (In Chinese)

  72. Cheng Leming, Wang Qinhui, Luo Zhongyang, Shi Zhenglun, Fang Mengxiang, Cen Kefa, Shan Ziliang. Developments and operation experiences of a novel ash cooler (fluidized-moving beds ash cooler). Power Engineering, 20(6), 2000: 974~979 (In Chinese)

  73. Wang Qinhui, Luo Zhongyang, Fang Mengxiang, Ni Mingjiang, Cen Kefa. Experimental investigation of factors affecting the thermal efficiency of circulating fluidized bed boiler. Boiler Technology, 32(2), 2001: 21-27 (In Chinese)

  74. Wang Qinhui, Luo Zhongyang, Ni Mingjiang, Cen Kefa. Particle residence time distribution on a circulating fluidized bed . Combustion Science and Technology, 7(4),2001: 221-225 (In Chinese)

  75. Shi Huixiang, Wang Qinhui, Luo Zhongyang, CEn KEfa. The application of PIV in gas-solid multiphase flow. Power Engineering, 22(1), 2002:1589-1593 (In Chinese)

  76. Wang QinHui, Shi Zhengzhan, Luo Zhongyang, Cheng Leming, Li Xuantian, Cen KEfa. Research on new ash cooler for fluidized bed boiler. Thermal Power Generation,31(3), 2002: 25-28 (In Chinese)

  77. Wang Qinhui, Luo Zhongyang, Fang Mengxiang, Ni Mingjiang, Cen Kefa. Development of a 12MW multi-generation of gas, steam and powerDevelopment of a 12MW multi-generation of gas, steam and power. Journal of Fuel Chemistry and Technology,30(2)2002:141-146 (In Chinese)

  78. Liu Jing, Wang Qinhui,Luoyang, Cen Kefa. Design and research on a 600MWe supercritical circulating fluidized bed boiler. Power Engineering,  23(1), 2003: 2179-2184 (In Chinese)

  79. Wang Qinhui, Sheng Xun, Luo Zhongyang, Cen Kefa. New near zero emissions coal utilization technology with combined gasification and combustion. Power Engineering, 23(5), 2003: 2711-2715 (In Chinese)

  80. Wang Qinhui, Zhao Xiaodong, Shi Huixian, Wang Canxing. JOURNAL OF ENGINEERING FOR THERMAL ENERGY AND POWER, 18(4),2003:378-381 (In Chinese)

  81. Wu Xuecheng, Wang Qinhui, Luo Zhongyang, Fang Mengxiang, Cen Kefa. Modeling on effects of operation parameters on entrained flow coal gasification (II): model prediction and analysis. Journal of Zhejiang university (Engineering Science), 38(11),2004.11:1483-1489 (In Chinese)

  82. Wu Xuecheng, Wang Qinhui, Luo Zhongyang, Fang Mengxiang, Cen Kefa. Modeling on effects of operation parameters on entrained flow coal gasification (I): (I): model established and validation. Journal of Zhejiang university (Engineering Science), 38(11),2004.11: 1361-1365 (In Chinese)

  83. Wu Xuecheng, Wang Qinhui, Luo Zhongyang, Fang Mengxiang, Cen Kefa. Kinetic model prediction for various coal gasification schemes in a fluidized bed I. model establishment and validation. Journal of fuel chemistry and technology, 32(3), 2004: 287-291 (In Chinese)

  84. Wu Xuecheng, Wang Qinhui, Luo Zhongyang, Fang Mengxiang, Cen Kefa. Kinetic model prediction for various coal gasification schemes in a fluidized bed II. Model prediction and analysis. Journal of fuel chemistry and technology, 32(3), 2004: 292-296 (In Chinese)

  85. Qin Hong, Wang Qinhui, Luo Zhongyang, Fang Mengxiang, Ni Mingjiang, Cen Kefa. Experimental on H2S removal by limestone in fluidized bed gaisifer. Journal of Zhejiang university (Engineering Science), 38(7), 2004.7: 882-887  (In Chinese)

  86. Qin Hong Wang Qinhui, Luo Zhongyang, Fang Mengxiang, Ni Mingjiang, Cen Kefa. Effect of calcinations parameters on removing H2S in fluidized bed by limestone. Power System Engineering. 20(4), 2004: 5-8 (In Chinese)

  87. Shi Huixian, Wang Qinhui, Luo Zhongyang, Cen Kefa. PIV measurement on the effect of clusters on the gas-solid flow pattern in a circulating fluidized bed riser. Chinese Journal of Scientific Instrument, 26(6), 2005: 582-586 (In Chinese)

  88. Wang Zhihua, Wang Qinhui, Luo Zhongyang, Zhou Junhu, Fan Jianren, Cen Kefa. Thermodynamic analysis of hydrogen production by new coal utilization technology with combined gasification and combustion. Proceedings of the CSEE, 25(12), 2005:91-97 (In Chinese)

  89. Pu Shiliang, Denis Lebrun, Wang Qinhui,Cen Kefa, Ren Kuanfang. Application of digital Holography to CFB measurement. Proceedings of the CSEE, 25(15), 2005:111-115 (In Chinese)

  90. Wu, Xue-Cheng Wang, Qin-Hui; Luo, Zhong-Yang; Gao, Qiong; Fang, Meng-Xiang; Cen, Ke-Fa. Measurement of particle rotation in CFB riser with high-speed digital video camera technique. Proceedings of the Chinese Society of Electrical Engineering, v 25, n 17, Sep 1, 2005, p 72-77

  91.  Wang Qinhui, Luo Zhongyang, Li Xuantian, Fang Mengxiang, Ni Mingjiang, Cen Kefa. A Mathematical Model for a Circulating Fluidized Bed (CFB) Boiler. Energy,Vol. 24, 1999, pp633~653

  92. Fang Mengxiang, Luo Zhongyang, Li Xuantian, Wang Qinhui, Cen Kefa. A Multi-product Cogeneration system Using Combined Coal Gasification and Combustion. Energy 35.(3)203,1998


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1.一种采用颗粒冲刷清灰的线板式高温静电除尘装置.实用新型专利,.2016:11/15

2.一种微波辅助再生SCR脱硝催化剂的方法及其装置.发明专利,.2016:14/14

3.双流化床燃烧气化物料循环系统.发明专利,.2011:1/14

4,烟气多种污染物协同脱除复合静电除尘器.发明专利,.2010:9/11

5.含钒石煤灰渣酸浸提取五氧化二钒过程中中间盐制备方法.发明专利,.2010:6/12

6.一种含钒石煤灰渣直接酸浸提取五氧化二钒的方法.发明专利,.2010:6/12

7.煤矸石和金属尾矿代粘土配料生产水泥熟料的方法.发明专利,.2012:4/7

8.一种生物质料仓的进料装置.发明专利,.2011:4/11

9. 复合载体烟气选择性催化还原法脱硝催化剂及制备方法.发明专利,.2012:11/14

10. 王勤辉.冲击式液柱烟气净化器.发明专利,.2003:7/9

11. 半干法烟气净化复合吸收剂的制备装置.发明专利,.2011:9/16

12.流化床裂解煤气净化和焦油回收系统.实用新型专利,.2009:6/10

13.用于含钒石煤钙化焙烧工艺的原料配制方法.发明专利,.2009:3/8

14.循环流化床中隔墙夹心多级二次风供风装置.发明专利,.2011:2/11

15 用于直流电晕放电烟气治理的分离式喷嘴电极系统.发明专利,.2011:15/15

16.石灰石-石膏湿法多种污染物同时脱除装置及方法.发明专利,.2012:14/14

17.循环流化床锅炉带二次风喷射的十字受热屏.发明专利,.2011:2/12

18.近零排放的固体燃料无氧气化制氢方法.发明专利,.2006:1/6

19.以半干法为基础的燃煤汞排放控制方法.发明专利,.2005:3/11

20.一种用于SCR烟气脱硝装置的V型喷氨混合系统.发明专利,.2014:15/15

21.基于流化床热解技术的煤气焦油半焦蒸汽多联产方法.发明专利,.2013:1/8

22.一种热解煤气除尘冷却及焦油回收工艺.发明专利,.2014:1/10

23.基于多孔介质燃烧和蓄热的高温气体发生装置.实用新型专利,.2013:3/15

24.流化床裂解煤气净化和焦油回收系统及方法.发明专利,.2012:6/10

25.可变气氛高温粉尘比电阻测试装置.发明专利,.2016:11/13

26.燃用生物质燃料的循环流化床燃烧装置及方法.发明专利,.2008:6/11

27.一种热泵式太阳能生物质锅炉系统及其方法.发明专利,.2015:10/13

28.焦油在线分馏除尘系统及方法.发明专利,.2016:4/7

29.一种焦油在线分馏除尘系统及方法.发明专利,.2015:4/7

30.脉动流化床燃烧装置.发明专利,.2008:3/7

31.循环流化床锅炉的风控式物料外循环装置.发明专利,.2004:2/5

32.流化床直接制取氮化硅的装置及其方法.发明专利,.2010:4/11


研究成果

主要可产业化应用成果:

1. 基于流化床热解的煤炭分级转化分质综合利用技术

所研究开发的煤热解燃烧分级转化综合利用技术是一项具有自主知识产权的新技术,该技术将循环流化床锅炉和热解炉紧密结合,将富含挥发分的烟煤或褐煤中容易热解、气化的部分在气化炉中转化为煤气和焦油,所产生的煤气作为后续合成工艺的原料生产具有高附加值的化工产品,所产生的焦油可作为燃料直接使用或先提取高附加值产品,然后通过加氢以制取燃料油;所产生的半焦用于燃烧发电,在一套系统内实现热、电、气和焦油的联合生产,大幅提高煤炭利用效益。在国内外率先实现烟煤处理量10t/h和褐煤处理量40t/h的双流化床热解燃烧分级转化工业试验装置的稳定运行,具备了工业化推广应用能力。

2.生物质循环流化床直接燃烧技术

针对我国农林废弃物类生物质特性,在所建生物质利用研究开发平台上,以农作物秸秆燃料为主要对象,对其高碱特性进行了针对性机理研究。在此基础上凭借多年来在流态化燃烧领域积累的丰富经验,结合借鉴了目前国际上已有的水冷振动炉排秸秆燃烧技术的特点,率先开发了流化床秸秆燃烧技术。目前已有100余台应用所开发的循环流化床生物质燃烧技术的35t/h~220t/h生物质锅炉应用于工业运行。其中与广东粤电合作的广东粤电湛江生物质能发电工程2×50MWe生物质发电项目是目前我国最大的生物质电厂,自2011年6月投入运行以来,运行状况良好。

3. 生物质流化床气化技术

 成功开发了基于流化床技术的生物质空气循环流化床气化技术,率先实现了10.8MWe秸秆循环流化床气化及耦合大规模煤粉锅炉发电的工业装置的运行。开发了生物质流化床炭汽联产技术,成功实现了3t/h处理量生物质流化床炭汽联产工业应用。开发了生物质双流化床气化技术,完成了20t/h处理量的工业装置设计,工业项目在建设中。

4.超低热值煤矸石燃烧利用技术

 针对我国每年在煤炭生产过程中产生了大量的低热值煤矸石,这些煤矸石由于热值低、含灰量低不能得到利用,而且作为废弃物堆放场地大,污染大。为了有效解决这些低热值煤矸石的综合利用,研究开发了超低热值煤矸石循环流化床燃烧技术,有效解决了超低热值煤矸石稳定燃烧、高灰分燃料引起的受热面磨损以及污染物排放等难题,成功开发了45t/h-220t/h燃用热值6000kJ/kg左右煤矸石的循环流化床锅炉。其中220t/h装置是目前国内外最大容量燃用超低热值煤矸石锅炉。该项目的投运将解决该公司长期存在的超低热值煤矸石堆放场地及环境问题,并产生较大的经济效益,同时为我国大量低热值煤矸石综合利用提供一条有效解决途径,具有很大的应用前景。



实验室介绍

  1. 能源与环境问题是世界关注的热点问题。能源清洁利用国家重点实验室(浙江大学)主要围绕能源科学技术领域中能源与环境问题开展应用基础研究,实验室结合我国国民经济建设所急需,主要以化石燃料的高效清洁利用,新能源及先进能源系统研究,低品位能源的高效清洁利用,能源利用过程中的污染物生成、迁移、测量及控制,复杂反应系统中的理论模拟及数值试验研究等为研究方向,并已形成了鲜明的研究特色。

  2. 实验室在动力工程及工程热物理国家一级重点学科中拥有工程热物理、热能工程、能源与环境工程、制冷及低温工程学科及博士、硕士学位授予点和动力工程及工程热物理博士后流动站,是国家“211”、“985”工程重点建设单位。

  3. 通过多年的建设,实验室已成为具有一支在国际学术界有较强竞争力的学术梯队、具有较先进的现代化仪器设备和国内外有重要影响的高水平科学研究、高新技术开发和人才培养的基地。

  4. 实验室学术委员会主任为黄其励院士,实验室主任为骆仲泱教授。

  5. 实验室一贯坚持“开放、流动、联合、竞争”的方针,本着“求是、团结、创新”的团队精神,在科学研究、人才培养、开放和管理等方面取得了显著的成绩。
    近年来,实验室共承担国家重点基础研究发展规划项目-“973”计划项目1项,“973”二级课题项目9项,“863”项目14项,国家杰出青年基金项目4项,国家自然科学基金重点项目6项,国家自然科学基金50项,国家支撑计划项目6项,国际合作项目28项,省部级项目48项,国家高技术产业化示范项目2项,国家经贸委重点技术创新项目2项,国家攻关计划项目7项,博士点基金项目6项,与国内企事业单位横向协作项目数百项等,总计实到经费近3.31亿元。
    研究所历年来共获国家自然科学奖二等奖1项,国家技术发明二等奖2项、三、四等奖各1项,国家科技进步二等奖3项、三、四等奖各1项,其它省部级科技进步一等奖7项、二等奖9项。公开发表学术论文1300余篇,其中国际期刊论文190余篇,SCI检索论文650余篇,ISTP检索论文50余篇。拥有发明专利100余项,实用新型专利100余项,软件登记11项,出版专著及教材8部。
    实验室具有良好的学术风气和培养人才的措施。在培养学术接班人和中青年人才方面成绩卓然,已建立了一支老中青结合的学术梯队,具有一批在国际学术界有竞争力的年轻学术带头人。实验室现有固定人员52人。其中中国工程院院士1名,教授、研究员25人,副教授高工12人,博士研究生导师20人。有博士学位者38人,占教师队伍的90.5%,45岁年轻研究人员39人,占75%。年青教师中,有长江学者奖励计划特聘教授3人,国家杰出青年基金获得者3人,中国青年科技奖2人、中国青年科学家提名奖1人,霍英东优秀青年教师奖2人、入选国家“百千万人才工程”4名,国家跨世纪及新世纪人才4人,浙江省“151”人才第一层次9人,全国优秀博士学位论文获得者4人。在这个学术群体的指导下培养了一大批高质量的博士后、博士、硕士。“瞄准学科前沿,构建一流导师群体,培养一流创新人才”的培养机制获2005年国家级教学成果奖二等奖。
    实验室积极开展国内外合作交流,2000年以来共主办和协办国际会议8次,有100多位国外高水平学者来实验室讲学,并吸引了17位来自欧美国家的学生到实验室短期进修。同时许多实验室固定人员赴国外进修、讲学和参加国际学术会议,并作大会特邀报告11次。与法国杜埃矿业大学、荷兰DELFT技术大学、韩国PUSAN大学、法国国家科学应用研究院、美国NEBRASKA大学、德国DUISBURG大学等国外知名大学和研究机构合作培养研究生、学术交流和科研合作。