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姜秀民    
教授    
    
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021-34205681
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上海交通大学机械与动力工程学院A楼319室
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教育背景
时间
毕业院校
学历
1994-1999
哈尔滨工业大学 热能工程
博士
1978-1982
东北电力大学 热能工程
学士
工作经历
2012年- 国家油页岩综合利用示范基地技术研发中心 主任
2010年- 燃煤污染物减排国家工程实验室(上海) 主任
2001年- 哈尔滨工业大学 兼职教授,博导
2010年-2016年  上海交通大学 热能工程研究所 所长,教授
2010年-2015年  上海交通大学 动力与能源工程系主任,教授
2004年-2010年  上海交通大学 热能工程研究所 副所长,教授
2003年-2004年  上海交通大学 热能工程研究所 教授 
2000年-2003年  华中科技大学煤燃烧国家重点实验室 博士后,教授 
1995年-2000年  东北电力大学 动力工程系 教授 
1982年-1995年  东北电力大学 动力工程系 助教,讲师,副教授 
1975年-1978年  国家干部,知识青年
出访及挂职经历
研究方向
循环流化床与超细煤粉清洁高效燃烧理论与技术及水煤浆燃烧新技术 
油页岩与生物质能热化学转换理论与技术
科研项目
2014-2017 国家自然科学基金项目"煤粉机械力化学改性及 O2/CO2 燃烧的基础研究"负责人
2008-2011 国家自然科学基金项目"煤粉颗粒的表面化学与微观结构对燃烧过程影响的机理研究"负责人
2004-2007 国家自然科学基金项目"油页岩循环流化床燃烧N2O生成机理与排放特性研究",负责人
2009-2012 国家自然科学基金项目"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" 第二完成人
2014-2017 国家自然科学基金项目"超细煤粉基于自由基反应路径的氮转化通道竞争机制研究"第二参加人
2007-2010 国家863项目(目标导向课题)"油页岩高效洁净综合利用系统关键技术的研究"负责人
2007-2010 国家863项目(目标导向课题)"整体煤气化联合循环(IGCC)合成气回热设备的传热研究与校核计算"负责人(子课题)
2005-2006 国家863项目“超细煤粉再燃NOx排放控制机理研究”负责人(子课题)
2002-2005 国家863项目“超细煤粉燃烧特性实验研究”负责人(子课题)
2012-2015 国家油页岩综合利用示范基地技术研发中心 负责人
2010-2012 国家教育部博士点基金项目"超细煤粉O2/CO2燃烧及污染物生成与脱除机理"负责人
2002-2010 中国石化集团胜利石油管理局“水煤浆流化—悬浮高效洁净燃烧技术开发及系列锅炉设计”负责人
2007-2008 中国石化集团胜利石油管理局“SHF20-1.3/350-YN油泥沙循环流化高效洁净燃烧锅炉研究与设计”负责人
2006-2007 中国石化集团广东茂名石油公司“35吨船用燃油锅炉改装为水煤浆专用锅炉设计”负责人
2009-2019 应用研究课题“水煤浆流化悬浮高效洁净燃烧技术成果应用”负责人
2011-2021 应用研究课题“DHF70-1.6/130/70-SM水煤浆流化悬浮高效洁净燃烧锅炉”负责人
2013-2023 应用研究课题“洗煤泥、油泥砂及工业与城市生活污泥焚烧技术开发与应用”负责人

代表性论文专著
在国内外公开发表学术论文200余篇,其中收录SCI 80余篇,EI 120余篇:
1.Progress and recent utilization trends in combustion of Chinese oil shale. X.M. Jiang, X.X. Han,
Z.G. Cui. Progress in Energy and Combustion Science.2007, 33(6):552-575. N.A.Chigier,ENGLAND.
2.Effects of retorting factors on combustion properties of shale char: 1. Pyrolysis characteristics.
Han Xiangxin,Jiang Xiumin. Energy & Fuels. 2009, 23, 677–682. Michael T. Klein, UNITED STATES.
3.New technology for the comprehensive utilization of Chinese oil shale resources. X. M. Jiang, X. X. Han, Z. G. Cui. Energy, 2007, 32(5):772-777. H. Lind, ENGLAND.
4.Studies of the effect of retorting factors on the yield of shale oil for a new comprehensive utilization technology of oil shale. X.X. Han, X.M. Jiang, Z.G. Cui. Applied Energy, 2009, 86:2381–2385. J. Yan, ENGLAND.
5.Mechanism and mathematical model of Huandian oil shale pyrolysis. X. M. Jiang, X. X. Han and Z. G. Cui. Journal of Thermal Analysis and Calorimetry, 2006, 86(2):257-262. Judit Simon, HUNGARY.
6.Study of the combustion mechanism of oil shale semicoke in a thermogravimetric analyzer. X. X. Han, X. M. Jiang, Z. G. Cui. Journal Thermal Analysis and Calorimetry, 2008, 92(2): 595-600. Judit Simon, HUNGARY.
7.Effects of retorting factors on combustion properties of shale char. 3. Distribution of residual organic matters. Xiangxin Han, Xiumin Jiang, Zhigang Cui, Jianguo Liu, Junwei Yan. Journal of Hazardous Materials, DOI:10.1016/j.jhazmat.2009.10.026. W. Choi, NETHERLANDS.
8.Change of pore structure of oil shale particles during combustion. Part 1. Evolution mechanism. Xiangxin Han, Xiumin Jiang, Lijun Yu, and Zhigang Cui. Energy & Fuels 2006, 20, 2408-2412. Michael T. Klein, UNITED STATES.
9.Change of pore structure of oil shale particles during combustion. Part 2. Pore structure of oil-shale ash. Xiangxin Han, Xiumin Jiang, and Zhigang Cui. Energy & fuels. 2008, 22(2): 972-975. Michael T. Klein, UNITED STATES.
10.Mathematical model of oil shale particle combustion. X. X. Han, X. M. Jiang and Z. G. Cui. Combustion Theory and Modelling, 2006, 10(1): 145–154, Moshe Matalon, ENGLAND.
11.Thermal analysis studies on combustion mechanism of oil shale. X. X. Han, X. M. Jiang and Z. G. Cui. Journal of Thermal analysis and Calorimetry. 2006, 84(3): 631-636. Judit Simon, HUNGARY
12.Thermogravimetric investigation on combustion characteristics of oil shale and high sulphur coal. X. M. Jiang, Z. G Cui, X. X Han and H. L.Yu. Journal of Thermal Analysis and Calorimetry, 2006, 85(3):761-764. Judit Simon, HUNGARY.
13.Experiment and neural networks model of the primary fragmentation on oil shale in a fluidized bed. Zhigang Cui, Xiangxin Han, Xiumin Jiang, Jianguo Liu. Oil Shale, 2009 26(2):114-124. Juri Kann, ESTONIA.
14.Thermal stress-induced fragmentation of quartzite particles in a hot fluidized bed. Jianguo Liu, Xiumin Jiang, Lingsheng Zhou, HuiWang, Xiangxin Han. Chemical Engineering and Processing, 2009, 48(1): 507–514. A. Stankiewicz, SWITZERLAND.
15.Thermal expansion characteristics of quartzite particles up to 1600 degrees C. Jianguo Liu, Xiangxin Han, Xiumin Jiang, HuiWang, Zhigang Cui. Chemical Engineering and Processing. 2009, 48(4):885-891. A. Stankiewicz, SWITZERLAND.
16.A population model of quartzite particles in a lab-scale fluidized bed due to the thermal fragmentation. Lingsheng Zhou, Xiumin Jiang, Jianguo Liu. Powder Technology 2009, 188(3): 277–282. J.P.K. Seville, SWITZERLAND.
17.A model on attrition of quartzite particles as a bed material in fluidized beds. Xiumin Jiang, Lingsheng Zhou, Jianguo Liu, Xiangxin Han. Powder technology, 2009, 195(1):44-49. J.P.K. Seville, SWITZERLAND.
18.Grey relational analysis of N2O emission from oil shale-fired circulating fluidized bed. Xiangxin Han, Xiumin Jiang, Jianguo Liu, Hui Wang. Oil Shale, 2006, 23(2): 99-109. Juri Kann, ESTONIA.
19.Experimental investigation of SO2 and NOx emissions from Huadian oil shale during circulating fluidized-bed combustion. J. Xiumin, Y. Lijun, Y. Che,H. Xiangxin, Y. Hailong, Oil Shale, 2004,21(3):249-257. Juri Kann, ESTONIA.
20.Flow structure and combustion characteristic of 65 t/h circulating fluidized bed riser. 1. Dense phase. Xiumin Jiang, Xiangxin Han, Zhigang Cui, and Lijun Yu. Industrial & Engineering Chemistry Research. 2006, 4(12): 4329-4334. Donald R. Paul, UNITED STATES.
21.Flow structure and combustion characteristic of 65t/h oil shale-fired circulating fluidized bed riser: 2. dilute phase. Xiangxin Han, Xiumin Jiang, Zhigang Cui. Chemical Engineering Science, 2006, 61:253-259. A.T.Bell, UNITED STATES.
22.Experimental investigation on oil shale circulating fluidized bed boiler. Jiang Xiumin, Liu Dechang, Chen Hanping, Zheng Chuguang, Qin yukun. Oil Shale, 2001, 18 (1):73-83, Juri Kann, ESTONIA.
23.Study on design of Huadian oil shale-fired circulating fluidized bed boiler. Xiangxin Han, Xiumin Jiang, Hui Wang, Zhigang Cui. Fuel Processing Technology, 2006, 87:289-295. A.Boehman, ETHERLANDS.
24.Regulating characteristics of loop seal in a 65t/h oil shale-fired circulating fluidized bed boiler. Xiangxin Han, Zhigang Cui, Xiumin Jiang and Jianguo Liu. Powder Technology. 2007, 178:114-118. J.P.K. Seville, SWITZERLAND.
25.Research on pyrolysis characteristics and kinetics of super fine and conventional pulverized coal. Chaoqun Zhang, Xiumin Jiang, Lihong Wei, Hui Wang. Energy Conversion and Management, 2007, 48 (1) 797–802. J. Denton, ENGLAND.
26.Combustion characteristics of fine- and micro-pulverized coal in the mixture of O2/CO2. Xiangyong Huang, Xiumin Jiang, Xiangxin Han, and Hui Wang. Energy & Fuels, 2008, 22 (6): 3756-3762. Michael T. Klein, UNITED STATES.
27.Physical structure and combustion properties of super fine pulverized coal particle. Jiang Xiumin, Zheng Chuguang, Yan Che, Liu Dechang, Qiu Jianrong, Li Jubin. Fuel, 2002, 81 (6):793-797. I. Mochida,ENGLAND.
28.Combustion characteristics of super fine pulverized coal particle. Jiang Xiumin, Li Jubin, Liu Dechang, Zheng Chuguang. Energy & Fuels, 2001, 15 (5):1100-1102. Michael T. Klein, UNITED STATES.
29.Pyrolysis treatment of oil sludge and model-free kinetics analysis. Jianguo Liu, Xiumin Jiang, Lingsheng Zhou, Xiangxin Han, Zhigang Cui. Journal of Hazardous Materials, 2009,161 (2-3): 1208-1215. W. Choi, NETHERLANDS.
30.Co-firing of oil sludge with coal–water slurry in an industrial internal circulating fluidized bed boiler. Jianguo Liu, Xiumin Jiang, Lingsheng Zhou, HuiWang, Xiangxin Han. Journal of Hazardous Materials, 2009, 167(1-3):817-823. W. Choi, NETHERLANDS.
31.Experiment and grey relational analysis of CWS spheres combustion in a fluidized bed. Wang Hui, Jiang Xiumin, Liu Jianguo, Lin Weigang. Energy & Fuels. 2007, 21(4):1924-1930. Michael T. Klein, UNITED STATES.
32.Fast pyrolysis comparison of coal–water slurry with its parent coal in Curie-point pyrolyser. Hui Wang, Xiumin Jiang, Lingling Shen. Energy Conversion and Management, 2009, 50 (8): 1976-1980. J. Denton, ENGLAND.
33.Characteristics of oily sludge combustion in circulating fluidized beds. Lingsheng Zhou, Xiumin Jiang, Jianguo Liu. Journal of Hazardous Materials, 2009,170 (1): 175–179. W. Choi, NETHERLANDS.
34.X.M. Jiang, X.Y. Huang, J.X. Liu and X.X. Han. NOx emission of fine- and superfine-pulverized coal combustion in O2/CO2 atmosphere. Energy & Fuels, 2010, 24(12): 6307–6313.
35.Yan Li, Xiumin Jiang, Xiangyong Huang, Jigang Jia, Jianhui Tong. Optimization of high-pressure shell-and-tube heat exchanger for syngas cooling in an IGCC. International Journal of Heat and Mass Transfer, 2010,53 (21,22) 4543–4551.
36.Jun Shen, Xiumin Jiang, Jiaxun Liu, Xiangyong Huang, and Hai Zhang. Investigation of NOx Emissions for Superfine Pulverized Coal Air-Staging Combustion[J]. Energy & Fueles, 2011, 11(25):4999-5006.
37.Tong, Jianhui; Han, Xiangxin; Wang, Sha; Jiang, Xiumin. Evaluation of Structural Characteristics of Huadian Oil Shale Kerogen Using Direct Techniques (Solid-State 13C NMR, XPS, FT-IR, and XRD) [J]. Energy & Fueles,2011, 25(9): 4006-4013.
38.Yan Li,Xiumin Jiang, Xiangyong Huang, Jigang Jia. Analysis of Heat Exchangers Used in the Integrated Gasification Combined Cycle Process[J]. Journal of Thermophysics and Heat Transfer, 2011, 25(4): 586-594.

教学工作
课程名称:Circulating Fluidized Bed Combustion
授课对象:博士研究生
学时:36(英文授课)
学分:2
课程名称:热能工程学科前沿
授课对象:研究生(合作授课)
学时:36
学分:2
课程名称:机械工程导轮
授课对象:本科生(合作授课)
学时:36
学分:2

软件版权登记及专利
1. 水煤浆流化悬浮高效洁净燃烧工艺,ZL02109852.2
2. 组合式高温旋涡分离器,ZL96121228.4
3. 水煤浆流化悬浮高效洁净燃烧装置,ZL02273489.9
4. 油污泥的异密度循环流化床燃烧处理方法,ZL200410089304.6
5. 一种新型U型回料阀,ZL96242310.6
6. 径向大粒度差旋流煤粉燃烧器,专利号ZL96122344.8
7. 油页岩半焦废弃物在循环流化床锅炉中燃烧取得热能的方法,ZL03127040.9
9. 油页岩综合优化利用的方法,200510024417.2
10.用于污泥焚烧炉的回转式污泥干化给料机构,200620049454.9
11.污泥干化焚烧一体化处理装置,200620049453.4
12.以湿油页岩半焦为燃料的循环流化床焚烧系统,ZL200710047696.3
13.油页岩的气热电三联供应用系统,ZL200510025253.5.
14.气固两相热交换器,ZL200510023293.6.
15.海藻生物质的异密度循环流化床燃烧处理方法,ZL200710172603.X.
16.油页岩鼓泡床干馏及半焦循环流化床燃烧组合系统,201110217501.1.
17.油页岩干馏、半焦焚烧一体化系统,201010179437.8.
18.一种大型海藻生物质干馏能量自平衡制油系统及其方法,103194246 A. 
19.超细煤粉富氧燃烧工艺及系统,103234198 A. 
20.洁净煤粉燃烧工业锅炉装置,103388820 A. 
21.洗煤泥复合循环流化床优化洁净燃烧工艺及系统,103216823 A. 
22.油页岩回转窑干馏与循环流化床燃烧工艺,102533296 A. 
23.油页岩流化床干馏系统,810204396.6. 
24.海藻生物质综合利用的方法,200910045965.1. 

学术兼职
1994- Fellow of the International Energy Foundation 
1994- Members of International Advisory Committee of the International Energy Foundation 
2010- Members of Editorial Board of a International Journal “Global Journal of Environmental Science   
      and Technology”
2011- Members of Editorial Board of a International Journal “Frontiers in Energy”
2012- Members of Editorial Board of a International Journal “Journal of Energy”
2011- 智能电网编委
2012- 国家油页岩综合利用示范基地技术研发中心 主任
2009- 燃煤污染物减排国家工程实验室理事;燃煤污染物减排国家工程实验室(上海)主任
2000- 哈尔滨工业大学 兼职教授, 博士生导师
荣誉奖励
2014年 上海市自然科学二等奖(第1完成人);
2011年 第六届上海市发明创造专利二等奖(第1完成人);
2009年 上海市技术发明二等奖(第1完成人);
2005年 山东省科技进步二等奖(第2完成人);
2001年 四川省优秀新产品二等奖(第2完成人);
2000年 吉林省科技进步二等奖(第2完成人);
1999年 四川省机械工业科技进步二等奖(第2完成人);
1998年 内蒙古自治区冶金机械工业科技进步二等奖(第1完成人);
1993年 吉林省优秀教学成果二等奖(第5完成人);
1988年 物资部科技进步三等奖(第7完成人);

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Email:sjtume@sjtu.edu.cn
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