基本情况

何伯述

职称:教授

学历:研究生

学位:博士

电话:010-51688542

邮箱:hebs@bjtu.edu.cn

教育背景

  • 1996-1999:西安交通大学攻读博士学位;
  • 1985-1988:重庆大学攻读硕士学位;
  • 1981-1985:华北电力学院攻读学士学位。
  • 工作经历

    • 2002-今:北京交通大学;
    • 2000-2002:清华大学从事博士后研究;
    • 2004-2005:美国西肯塔基大学访问研究;
    • 1988-1996:西北第二民族学院教师。

    研究方向

    • 微机电系统与能源技术装备
    • 机械工程
    • 热能工程

    招生专业

    • 机械工程硕士
    • 动力工程及工程热物理硕士
    • 机械工程博士

    科研项目

    1. 国家自然科学基金“面上”:煤粉富氧燃烧时的烟气辐射特性及辐射流动燃烧耦合特性研究,2016-2019,75万元,主持
    2. 北京交大创新科技中心:一期循环水冷却塔节水方案研究,2013-07-01--2014-02-28,48.0万元,主持
    3. 北京交通大学:燃烧室试验件污染物排放测试,2013-02-01--2013-04-30,1.0万元,主持
    4. 科技部“科技支撑”:基于Mesh网络井下可视化无线救灾通讯技术与装备,2013-01-01--2017-12-31,892.0万元,参加
    5. 基本科研业务费:ZEC系统火用分析及煤加氢气化炉的实验与模拟研究,2013-01-09--2014-01-09,5.0万元,参加
    6. 基本科研业务费:低品位能量提质利用的可行性研究,2013-01-01--2013-12-31,1.0万元,参加
    7. 北京交通大学:1号、2号锅炉低氮燃烧器改造可行性,2012-03-30--2013-03-30,25.0万元,主持
    8. 北京交大创新科技中心:一期脱硫烟道腐蚀机理及治理对策研究,2012-07-01--2012-12-31,47.0万元,主持
    9. 北京交大创新科技中心:一期锅炉辐射过热器吊挂管泄漏对策研究,2012-07-10--2012-07-30,44.5万元,主持
    10. 北京交通大学:4号锅炉烟气余热利用可行性研究,2011-09-20--2012-04-30,10.0万元,主持
    11. 基本科研业务费:ZEC系统及煤粉高温高压加氢气化特性研究,2012-03-16--2013-03-16,3.0万元,参加
    12. 国家自然科学基金“面上”:加压富氧条件下煤粉燃烧燃尽特性及CO2 分离流程研究,2012-01-01--2015-12-31,60.0万元,主持
    13. 北京交大创新科技中心:1号锅炉尾部对流受热面改造的方案设计项目合同,2011-03-01--2011-11-30,15.0万元,主持
    14. 北京交大创新科技中心:二期3号锅炉受热面改造可行性研究,2010-12-17--2011-03-15,35.0万元,主持
    15. 北京交大创新科技中心:2号锅炉尾部对流受热面改造方案设计,2010-05-05--2010-12-20,7.0万元,主持
    16. 北京交大创新科技中心:5号炉主汽温度偏差治理方案研究,2010-08-25--2010-12-20,15.0万元,主持
    17. 基本科研业务费:低碳电力技术的基础研究,2009-12-31--2011-12-31,9.0万元,参加
    18. 北京交大创新科技中心:1号锅炉尾部对流受热面改造方案设计,2009-10-20--2010-11-20,25.0万元,主持
    19. 北京交通大学:北京市轨道交通节能技术综合分析研究,2009-09-01--2010-12-31,40.0万元,参加
    20. 科技部“863”:华晨中华单一燃料LNG轿车产品开发,2008-11-10--2010-12-31,50.0万元,参加
    21. 北京交大创新科技中心:1号锅炉二次汽欠温治理改造方案研究,2008-10-10--2009-10-30,25.0万元,主持
    22. 北京交大创新科技中心:6号锅炉受热面改造方案研究,2008-04-01--2008-08-30,35.0万元,主持
    23. 北京交通大学:SCR催化剂小样加工,2008-11-18--2009-06-01,2.0万元,主持
    24. 国家自然科学基金“面上”:喷硫加氢气化床中煤的气化特性与其汞形态演化机理研究,2009-01-01--2011-12-31,28.0万元,主持
    25. 北京交大创新科技中心:1号锅炉受热面改造校核计算项目合同,2008-01-01--2008-06-01,30.0万元,主持
    26. 北京交大创新科技中心:3号锅炉受热面改造校核计算项目合同,2008-01-01--2008-10-30,47.448万元,主持
    27. 科技部“863”:煤矿井下灾害一体化检测技术研究与实现-1,2008-01-01--2008-12-31,40.0万元,主持
    28. 北京交大创新科技中心:燃烧器及燃烧组织校核计算,2007-03-01--2007-10-31,8.6552万元,主持
    29. 北京交大创新科技中心:对流受热面热力校核计算,2007-03-01--2007-10-31,18.6488万元,主持
    30. 科技部“863”:CNG/LNG发动机电控单元开发及匹配研究,2007-04-14--2008-12-31,30.0万元,参加
    31. 留学回国人员基金:分流活性炭对燃煤污染物联合脱除的机理研究,2007-01-01--2008-12-31,3.0万元,主持
    32. 北京交大科技发展中心:#3锅炉再热器管屏超温数值分析,2004-01-01--2004-05-01,10.0万元,主持
    33. 北京交大科技发展中心:#3锅炉再热器管屏超温数值诊断,2003-10-01--2004-03-31,10.0万元,主持
    34. 校科技基金:煤制氢关键技术的基础研究,2002-09-30--2003-08-30,7.0万元,主持
    35. 氨法脱硫的理论及试验研究,2002-05-12--2003-06-12,2.0万元,主持煤粉富氧燃烧时的烟气辐射特性及辐射流动燃烧耦合特性研究

    教学工作

  • 本科教学: 承担工程热力学、燃烧理论与设备、锅炉原理、能源与气候变化等课程教学。
  • 研究生教学: 承担高等燃烧学、清洁燃烧理论与技术、清洁煤燃烧技术、大气污染控制原理等课程教学。
  • 承担开放课程情况:
  • 1,工程热力学:https://www.icourse163.org/course/NJTU-1002532011
  • 2,燃烧理论与设备:https://www.icourse163.org/course/NJTU-1205723811
  • 论文/期刊


    已发表的主要论文


    [1]             Yucheng Kuang, Boshu He*, Wenxiao Tong, Chaojun Wang. Flow and Reaction Characteristics at Different Oxygen Concentrations and Inlet Velocities in Pulverized Coal MILD Combustion. Journal of the Energy Institute 2021, 94: 163-72.


    [2]             Guangchao Ding, Boshu He*, Huifeng Yao, Yucheng Kuang, Jingge Song, Liangbin Su. Synergistic effect, kinetic and thermodynamics parameters analyses of co-gasification of municipal solid waste and bituminous coal with CO2. Waste Management 2021, 342-355.


    [3]             Yang Cao, Boshu He, Linbo Yan. Cyclic reactivity of the sol-gel and graphite impregnation-derived Cu-based oxygen carriers for chemical looping with oxygen uncoupling. Journal of Thermal Analysis and Calorimetry 2020. (In press) https://doi.org/10.1007/s10973-020-10163-6


    [4]             Boshu He, Zhaoping Ying. Numerical investigation of laminar molten-salt based nanofluid heat transfer in a circular tube using Euler-Lagrangian method. Thermal Science 2020. (In press). https://doi.org/10.2298/TSCI191101199H


    [5]             何伯述, 应兆平, 苏良彬, 丁广超, 何頔, 段志鹏. 熔盐基纳米流体管内流动换热特性模拟. 华南理工大学学报(自然科学版) 2020, 录用。(In press).


    [6]             应兆平, 何伯述*. 塔式光热电站吸热器的壁面热流分布. 哈尔滨工业大学学报 2020, 录用。(in press)


    [7]             Zhaoping Ying, Boshu He*, Liangbin Su, Yucheng Kuang, Di He, Cheng Lin. Convective heat transfer of molten salt-based nanofluid in a receiver tube with non-uniform heat flux. Applied Thermal Engineering 2020, 181: 115922


    [8]               Zhaoping Ying, Boshu He*, Di He, Yucheng Kuang, Jie Ren, Bo Song. Comparisons of single-phase and two-phase models for numerical predictions of Al2O3/water nanofluids convective heat transfer. Advanced Powder Technology 2020, 31(7): 3050-3061.


    [9]               Linbo Yan*, Yang Cao, Ziliang Wang, Boshu He. On a novel carbon-negative IGCC system with cascade CO2 combined cycle. Energy Conversion and Management 2020, 221: 113202.


    [10]         Liangbin Su, Zhipeng Duan*, Boshu He*, Hao Ma, Xiaoru Ning, Guangchao Ding, Yang Cao. Heat transfer characteristics of thermally developing flow in rectangular microchannels with constant wall temperature. International Journal of Thermal Sciences 2020, 155: 106412.


    [11]         Yucheng Kuang, Boshu He*, Wenxiao Tong, Chaojun Wang, Zhaoping Ying. Effects of Oxygen Concentration and Inlet Velocity on Pulverized Coal MILD Combustion. Energy 2020, 198: 117376.


    [12]         Yucheng Kuang, Boshu He*, Wenxiao Tong, Chaojun Wang, Jingge Song, Zhaoping Ying. Numerical Simulation of Pulverized Coal MILD-oxy Combustion under Different Oxygen Concentrations. Journal of the Energy Institute 2020, 93(4): 1713-1725


    [13]         Guangchao Ding, Boshu He*. Process Simulation of Co-Gasification of Raw Municipal Solid Waste and Bituminous Coal in CO2/O2 Atmosphere. Applied Sciences 2020, 10(6), 1921; doi:10.3390/app10061921


    [14]         Guangchao Ding, Boshu He*, Huifeng Yao, Yang Cao, Liangbin Su, Zhipeng Duan. Co-combustion behaviors of municipal solid waste and low-rank coal semi-coke in air or oxygen/carbon dioxide atmospheres. Journal of Thermal Analysis and Calorimetry, 2020. (in press)


    [15]         Jie Ren, Ziliang Wang, Boshu He*, Linbo Yan, Ziqi Wang, Zhaoping Ying, Hydrodynamic characteristics in a cold flow model of quadruple fluidized bed gasifier. Industrial & Engineering Chemistry Research 2020, 59(10): 4775-4784.


    [16]         Linbo Yan*, Ziqi Wang, Yang Cao, Boshu He*. Comparative evaluation of two biomass direct-fired power plants with carbon capture and sequestration. Renewable Energy 2020, 147: 1188-1198.


    [17]         Liangbin Su, Zhipeng Duan*, Boshu He*, Hao Ma, Zairan Xu. Thermally developing flow and heat transfer in elliptical minichannels with constant wall temperature. Micromachines 2019, 10, 713: 1-15.


    [18]         苏良彬, 段志鹏何伯述, 马浩, 宁晓茹. 恒壁温下矩形微通道层流热入口段的换热特性研究. 北京交通大学学报, 2019, 43(06): 118-123.


    [19]         Liangbin Su, Zhipeng Duan*, Boshu He*, Hao Ma, Guangchao Ding. Laminar flow and heat transfer in the entrance region of elliptical minichannels. International Journal of Heat and Mass Transfer 2019, 145: 118717.


    [20]         Linbo Yan*, Yang Cao, Boshu He. Energy, exergy and economic analyses of a novel biomass fueled power plant with carbon capture and sequestration. Science of the Total Environment 2019, 690: 812-820.


    [21]         Hai Yang, Jingge Song⁎, Boshu He⁎, Guangchao Ding. Numerical study on charging characteristics of heat pipe-assisted cylindrical capsule for enhancing latent thermal energy storage. Solar Energy 2019, 190: 147-155.


    [22]         Yang Cao, Boshu He*, Linbo Yan. Process simulation of a dual fluidized bed chemical looping air separation with Mn-based oxygen carrier. Energy Conversion and Management 2019, 196: 286-295.


    [23]         Huifeng Yao, Boshu He*, Guangchao Ding, Wenxiao Tong, Yucheng Kuang. Thermogravimetric analyses of oxy-fuel co-combustion of semi-coke and bituminous coal. Applied Thermal Engineering 2019, 156: 708-721.


    [24]         Chaojun Wang, Boshu He*, Michael F. Modest. Full-Spectrum Correlated-k-Distribution Look-Up Table for Radiative Transfer in Nonhomogeneous Participating Media with Gas-Particle Mixtures. International Journal of Heat and Mass Transfer 2019, 137: 1053-1063.


    [25]         Yang Cao, Boshu He⁎, Wenxiao Tong, Huifeng Yao, Zhipeng Duan. On the kinetics of Mn2O3/ZrO2 oxygen carrier for chemical looping air Separation. Chemical Engineering & Processing: Process Intensification 2019, 136: 82-91.


    [26]         Zhipeng Duan, Hao Ma, Boshu He, Liangbin Su, Xin Zhang. Pressure Drop of Microchannel Plate Fin Heat Sinks. Micromachines 2019, 10, 80.


    [27]         Chaojun Wang, Michael F. Modest*, Boshu He. Full-spectrum correlated-k-distribution look-up table for use with radiative Monte Carlo solvers. International Journal of Heat and Mass Transfer (2019), 131: 167-175.


    [28]         Linbo Yan*, Yang Cao, Hongzhiyuan Zhou, Boshu He*. Investigation on biomass steam gasification in a dual fluidized bed reactor with the granular kinetic theory, Bioresource Technology (2018), 269: 384-392.


    [29]         Chaojun Wang, Boshu He, Michael F. Modest, Tao Ren. Efficient Full-Spectrum Correlated-k-distribution Look-Up Table, Journal of Quantitative Spectroscopy and Radiative Transfer (2018), 219: 108-116.


    [30]         Linbo Yan, Yang Cao, Boshu He, Xuezheng Li. Calcium Looping Enhanced Biomass Steam Gasification in a Two-Stage Fluidized Bed Gasifier. Energy & Fuels (2018), 32: 8462-8473.


    [31]         Linbo Yan, Yang Cao, Xuezheng Li, Boshu He. On a carbon-negative energy production scheme via a quadruple fluidized bed gasifier. Energy Conversion and Management (2018), 171: 326-338.


    [32]         Linbo Yan, Yang Cao, Xuezheng Li, Boshu He*. A Modified Exponential Wide Band Model for Gas Emissivity Prediction in Pressurized Combustion and Gasification Processes. Energy & Fuels (2018), 32: 1634-1643


    [33]         Niya Ma, Zhipeng Duan, Hao Ma, Liangbin Su, Peng Liang, Xiaoru Ning, Boshu He, Xin Zhang. Lattice Boltzmann Simulation of the Hydrodynamic Entrance Region of Rectangular Microchannels in the Slip Regime, Micromachines (2018), 9, 87: 1-25.


    [34]         Linbo Yan, Yang Cao, Xuezheng Li, Boshu He. Characterization of a dual fluidized bed gasifier with blended biomass/coal as feedstock, Bioresource Technology (2018), 254: 97-106.


    [35]         Guangchao Ding, Boshu He, Yang Cao, Chaojun Wang, Liangbin Su, Zhipeng Duan*, Jingge Song, Wenxiao Tong and Xuezheng Li. Process simulation and optimization of municipal solid waste fired power plant with oxygen/carbon dioxide combustion for near zero carbon dioxide emission, Energy Conversion and Management (2018), 157(1): 157-168.


    [36]         Zhipeng Duan, Boshu He. Further Study on Second-Order Slip Flow Models in Channels of Various Cross Sections. Heat Transfer Engineering 2018, 39(11): 933-945.


    [37]         Linbo Yan, Yang Cao, Boshu He. On the kinetic modeling of biomass/coal char co-gasification with steam, Chemical Engineering Journal (2018), 331: 435-442.


    [38]         Yang Cao, Boshu He, Guangchao Ding, Liangbin Su, Zhipeng Duan. Energy and exergy investigation on two improved IGCC power plants with different CO2 capture schemes, Energy (2017), 140: 47-57.


    [39]         Linbo Yan, Boshu He*. On a clean power generation system with the co-gasification of biomass and coal in a quadruple fluidized bed gasifier, Bioresource Technology (2017), 235: 113-121.


    [40]         Shinan Chen, Boshu He*, Di He, Yang Cao, Guangchao Ding, Xuan Liu, Zhipeng Duan*, Xin Zhang, Jingge Song, Xuezheng Li. Numerical Investigations on Different Tangential Arrangements of Burners for a 600 MW Utility Boiler. Energy, 2017, 122, 287-300.


    [41]         Linbo Yan, C. Jim Lim, Guangxi Yue, Baizeng Fang, Boshu He*, John R. Grace. Insights into the redox reactivity of an inexpensive Fe-based oxygen carrier. Thermochimica Acta, 2017, 648, 52-61.


    [42]         Jingge Song, Carlos E. Romero, Zheng Yao*, Boshu He. A Globally Enhanced General Regression Neural Network for On-Line Multiple Emissions Prediction of Utility Boiler. Knowledge-Based Systems, 2017, 118, 4-14.


    [43]         Yang Cao, Boshu He, Guangchao Ding, Liangbin Su, Zhipeng Duan. Performance modeling of integrated chemical looping air separation and IGCC with CO2 capture. Energy and Fuels, 2016, 30(11), 9953–9961.


    [44]         Linbo Yan, C. Jim Lim, Guangxi Yue, Boshu He*, John R. Grace. Simulation of biomass-steam gasification in fluidized bed reactors: Model setup, comparisons and preliminary predictions. Bioresource Technology (2016), 221: 625-635.


    [45]         Linbo Yan, C. Jim Lim, Guangxi Yue, Boshu He*, John R. Grace*. One-dimensional modeling of a dual fluidized bed for biomass steam gasification. Energy Conversion and Management (2016), 127: 612-622.


    [46]         Chaojun Wang, Michael F. Modest, Boshu He*. Improvement of Full-Spectrum k-Distribution Method Using Quadrature Transformation. International Journal of Thermal Sciences (2016), 108: 100-107.


    [47]         Chaojun Wang, Michael F. Modest*, Boshu He. Full-spectrum k-distribution look-up table for nonhomogeneous gas-soot mixtures, Journal of Quantitative Spectroscopy and Radiative Transfer (2016), 176: 129-136.


    [48]         Linbo Yan, Guangxi Yue, Boshu He*. Thermodynamic analyses of a biomass-coal co-gasification power generation system, Bioresource Technology (2016), 205: 133-141.


    [49]         Jingge Song, Carlos E. Romero, Zheng Yao*, Boshu He. Improved artificial bee colony-based optimization of boiler combustion considering NOX emissions, heat rate and fly ash recycling for on-line applications, Fuel (2016), 172: 20-28.


    [50]         Chaojun Wang, Wenjun Ge, Michael F. Modest*, Boshu He. A full-spectrum k-distribution look-up table for radiative transfer in nonhomogeneous gaseous media, Journal of Quantitative Spectroscopy & Radiative Transfer (2016), 168, 46-56.


    [51]         Linbo Yan, Guangxi Yue, Boshu He*. Application of an efficient exponential wide band model for the natural gas combustion simulation in a 300 kW BERL burner furnace, Applied Thermal Engineering (2016), 94, 209–220.


    [52]         王超俊、何頔、裴晓辉、严林博、段志鹏、何伯述*, 高斯型求积方法对全光谱K分布模型精度的影响,中国电机工程学报,20153524):6421-6430


    [53]         Linbo Yan, Guangxi Yue, Boshu He*. Exergy analysis of a coal/biomass co-hydrogasification based chemical looping power generation system, Energy (2015), 93, 1778–1787.


    [54]         Linbo Yan, Guangxi Yue, Boshu He*. Development of an absorption coefficient calculation method potential for combustion and gasification simulations, International Journal of Heat and Mass Transfer (2015), 91, 1069–1077.


    [55]         Zhipeng Duan*, Boshu He, Yuanyuan Duan. Sphere Drag and Heat Transfer, Scientific Reports 5, 12304; doi: 10.1038/srep12304 (2015).


    [56]         贠念增, 高如云, 钱云山, 孟宪禹, 何伯述. 脱硫塔烟气流场优化数值模拟. 神华科技(2015)13(1): 55-57.


    [57]         Zhipeng Duan*, Boshu He. Extended Reynolds analogy for slip and transition flow heat transfer in microchannels and nanochannels, International Communications in Heat and Mass Transfer (2014)5625-30.


    [58]         高如云, 贠念增, 郭小兵, 严林博, 何伯述. 500MW 塔式锅炉辐射过热器悬吊管泄漏对策研究. 神华科技 (2014)12(6): 55-59.


    [59]         Linbo Yan, Boshu He*, Xiaohui Pei, Chaojun Wang, Zhipeng Duan, Jingge Song, Xuezheng Li. Design and comparisons of three biomass based hydrogen generation systems with chemical looping process, International Journal of Hydrogen Energy (2014), 39(31), 17540-17553.


    [60]         Zhipeng Duan*, Boshu He. Discussion: Slip-flow in microchannels of non-circular cross sections. J Fluids Eng Trans ASME (2014), 136(5), Article Number 055501 (2 pages).


    [61]         Linbo Yan, Boshu He*, Tianyi Hao, Xiaohui Pei, Xusheng Li, Chaojun Wang, Zhipeng Duan. Pressurized Thermogravimetric Study on the Hydropyrolysis and Hydrogasification Kinetics of a Bituminous Coal. Energy and Fuels (2014), 28 (5), 2993–3001.


    [62]         Linbo Yan, Boshu He*, Tianyi Hao, Xiaohui Pei, Xusheng Li, Chaojun Wang, Zhipeng Duan. Thermogravimetric study on the pressurized hydropyrolysis kinetics of a lignite coal, International Journal of Hydrogen Energy (2014), 39(15), 7826-7833.


    [63]         Linbo Yan; Boshu He*Lele Ma; Xiaohui Pei; Chaojun Wang. Chemical equilibrium model and prediction for coal hydrogasification, International Journal of Chemical Reactor Engineering (2014), 12(1), 1-10.


    [64]         Chaojun Wang, Boshu He*, Linbo Yan, Xiaohui Pei, Shinan Chen. Thermodynamic analysis of a low-pressure economizer based waste heat recovery system for a coal-fired power plant, Energy (2014), 65: 80-90.


    [65]         Linbo Yan, Boshu He*, Xiaohui Pei, Chaojun Wang, Huaxin Liang, Zhipeng Duan. Computational-fluid-dynamics-based evaluation and optimization of an entrained-flow gasifier potential for coal hydrogasification, Energy and Fuels (2013), 27(11): 6397-6407.


    [66]         Linbo Yan, Boshu He*, Xiaohui Pei, Chaojun Wang, Xusheng Li, Zhipeng Duan. Kinetic models for coal hydrogasification and analyses of hydrogasification characteristics in entrained-flow gasifiers, Energy and Fuels (2013), 27(11): 6388-6396.


    [67]         Xiaohui Pei, Boshu He*, Linbo Yan, Chaojun Wang, Weining Song, Jingge Song. Process simulation of oxy-fuel combustion for a 300 MW pulverized coal-fired power plant using Aspen Plus, Energy Conversion and Management (2013), 76: 581-587.


    [68]         Linbo Yan, Boshu He*, Xiaohui Pei, Xusheng Li, Chaojun Wang. Energy and Exergy Analyses of a Zero Emission Coal System, Energy (2013), 55: 1094-1103.


    [69]         Linbo Yan, Boshu He*, Xiaohui Pei, Xusheng Li, Chaojun Wang, Huaxin Liang. Kinetic model and prediction for coal hydrogasification, International Journal of Hydrogen Energy (2013), 38(11): 4513-4523.


    [70]         Linbo Yan, Boshu He*, Lele Ma, Xiaohui Pei, Chaojun Wang, Mingyang Li and Jingge Song. Numerical study with ChemKin for hydrogasification mechanism of pulverized coal and Hg speciation transformation inside a hydrogasifier. Strojarstvo: Journal for Theory and Application in Mechanical Engineering (2013), 55(1): 73-85.


    [71]         Linbo Yan, Boshu He*, Fang Yao, Rui Yang, Xiaohui Pei, Chaojun Wang, and Jingge Song. Numerical Simulation of a 600 MW Utility Boiler with Different Tangential Arrangements of Burners. Energy & Fuels (2012), 26(9): 5491-5502.


    [72]         Linbo Yan, Boshu He*, Xiaohui Pei, Chaojun Wang, Min Yang, and Jingge Song. Research on Retrofit Schemes for Reheat Steam Underheating and Excessive Desuperheater Spray for a 600 MW Tangentially Coal-Fired Boiler. Energy & Fuels (2012), 26(9): 5804-5820.


    [73]         Linbo Yan, Boshu He*, Lele Ma, Xiaohui Pei, Chaojun Wang, Xusheng Li. Integrated characteristics and performance of zero emission coal system, International Journal of Hydrogen Energy (2012), 37(12): 9669-9676.


    [74]         Chaojun WANG; Boshu HE*; Shaoyang SUN; Ying WU; Na YAN; Linbo YAN; Xiaohui PEI. Application of a low pressure economizer for waste heat recovery from the exhaust flue gas in a 600 MW power plant, Energy (2012), 48196-202.


    [75]         Boshu HE; Linbo YAN; Liqiang ZHAO; Lele MA; Xiaohui PEI; Chaojun WANG; Mingyang LI. Numerical study with ChemKin for hydrogasification mechanism of pulverized coal and Hg speciation transformation inside a hydrogasifier. UNESCO Surported VIth DUBROVNIK CONFERENCE ON SUSTAINABLE DEVELOPMENT OF ENERGY WATER AND ENVIRONMENT SYSTEM, (SDWS2011.0520) September 25 - 29, 2011, Dubrovnik, Croatia.


    [76]         Boshu HE; Chaojun WANG; Shaoyang SUN; Ying WU; Na YAN; Linbo YAN; Xiaohui PEI. Feasibility, economy and implementation of waste heat recovering from the exhausted flue gas with low-pressure economizer for a 600MW power plant. UNESCO Surported VIth DUBROVNIK CONFERENCE ON SUSTAINABLE DEVELOPMENT OF ENERGY WATER AND ENVIRONMENT SYSTEM, (SDWS2011.0544) September 25 - 29, 2011, Dubrovnik, Croatia.


    [77]         He Boshu, Li Mingyang, Wang Xin, Zhu Ling, Wang Lili, Xue Jiwei, Chen ZhenxingChemical kinetics-based analysis for utilities of ZEC power generation systemInternational Journal of Hydrogen Energy, 33(2008): 4673–4680.


    [78]         Boshu He, Yan Cao, Carlos E. Romero, Harun Bilirgen, Nenad Sarunac, Hans Agarwal, Wei-Ping Pan. Comparison and validation of OHM and SCEM measurements for a full-scale coal-fired power plant, Chemical Engineering Communications2007), 194: 12, 1596–1607.


    [79]         HE Boshu, ZHU Laiyu, WANG Jianmin, LIU Shumin, LIU Baolin, CUI Yanting, WANG Lili, WEI Guoqiang, Computational fluid dynamics based retrofits to reheater panel overheating of No. 3 boiler of Dagang Power Plant, Computers and Fluids, 36 (2007) 435–444.


    [80]         HE Boshu, CHEN Meiqian, LIU Shumin, FAN Lijuan, XU Jinyuan,  PAN Wei-ping, Measured vorticity distributions in a model of tangentially fired furnace, Exp. Therm. Fluid Sci, 29(2005), 537-554.


    [81]         Boshu He, Meiqian Chen, Laiyu Zhu, Jianmin Wang, Shumin Liu, Lijuan Fan, Qiumei Yu, Numerical Solutions to the Reheater Panel Overheating of a Practical Power Plant, International Conference of Computational Methods in Sciences and Engineering 2004 (ICCMSE 2004), Attica, Greece, November 19-23, 2004, 200-203. ISSN1573-4196


    [82]         Zhigen Zhao, Boshu He, Wei -ping Pan, Multiple Regression Analysis of Coal's Calorific Value Using Data of Proximate Analysis, International Conference of Computational Methods in Sciences and Engineering 2004 (ICCMSE 2004), Attica, Greece, November 19-23, 2004, 620-623. ISSN1573-4196


    [83]         HE Boshu, CHEN Meiqian, YU Qiumei, LIU Shumin, FAN Lijuan, SUN Shouguang, XU Jinyuan, PAN Wei-Ping, Numerical study of the optimum counter-flow mode of air jets in a large utility furnace, Computers and fluids, 33 (2004) 1201–1223.


    [84]         HE Boshu, ZHENG Xianyu, WEN Yan, TONG Huiling, CHEN Meiqian, CHEN Changhe, The temperature impacts on the SO2 removal efficiency by ammonia gas scrubbing, Energy Conversion and Management, 44(2003), 2175-2188.


    [85]         HE Boshu, Diao Yongfa, XU Jingyuan, CHEN Changhe, Vorticity Measurements using a 6-Sensor Hot-Wire Probe in a Tangentially Fired Furnace, Tsinghua Science and Technology, 8(2003), 215-223.


    [86]         Yong-Fa Diao, Xian-Yu Zheng, Bo-Shu He, Chang-He Chen and Xu-Chang Xu, Experimental study on capturing CO2 greenhouse gas by ammonia scrubbing, Energy Conversion and Management, 45(2004), 2283-2296.


    [87]         HE BoshuCHEN ChangheThe energy ecological efficiency of coal-fired plant in ChinaEnergy Conversion and Management, 43(2002), 2553-2567.


    [88]         HE Boshu, Diao Yongfa, XU Jingyuan, CHEN ChangheVorticity measurements in complex 3-D flow in tangentially-fired furnacesFlow Measurement and Instrumentation, 13(2002), 173-181.


    [89]         Zheng Xianyu, Diao Yongfa, He Boshu, Chen Changhe, Xu Xuchang, Feng Wen, Carbon dioxide recovery from flue gases by ammonia scrubbing, Presented at GHGT-6, Kyoto, 2002; Source: GREENHOUSE GAS CONTROL TECHNOLOGIES, VOLS I AND II, PROCEEDINGS. Editors: Gale J; Kaya Y.  p.193-197(2003).


    [90]         HE BoshuZHENG XianyuWANG ShujuanCHEN ChangheOn the energy ecological efficiency of power generating systems1st  U.S.- China Symposium on CO2 Emission Control Science & TechnologyHangzhou, ChinaAugust 22-24, 2001.


    [91]         Diao, YongfaChen, Changhe; Jin, Weiwei; He, Boshu; Xu, Jinyuan Mathematical model on flow around multi-platen in the tangentially fired furnaceSource: Proceedings of the 2003 - 5th International Symposium on Coal Combustion, 2003, p 99-103.


    [92]         Zheng, Xianyu; Diao, Yongfa; Feng, Wen; Chen, Changhe; Xu, Xuchang; He, BoshuRecovery of carbon dioxide by ammonia scrubbing in power plantsEnergy and the Environment - Proceedings of the International Conference on Energy and the EnvironmentShanghai, ChinaV21244-12472003.


    [93]         王兴无, 严林博, 杨敏, 何伯述. 四角切圆煤粉锅炉截屏改造的流动与燃烧数值模拟研究. 神华科技, 2013, 11(2): 51-55.


    [94]         宋泾舸, 何伯述, 严林博, 裴晓辉, 王超俊. 基于本体论的电站锅炉燃烧系统优化调整知识建模. 北京交通大学学报, 2012, 36(6): 122-127


    [95]         严林博,何伯述,裴晓辉,宋卫宁,陈琪, 宋泾舸. 煤基近零排放系统中燃料电池本体的模拟. 中国电机工程学报,2012, 32(29): 94-103.


    [96]         严林博, 何伯述, 孟建国, 曹建臣. 600MW燃煤锅炉二次汽欠温改造及实施效果. 热能动力工程, 2011, 26(3): 328-332.


    [97]         严林博, 何伯述, 裴晓辉, 杨敏. 截短过热器分隔屏治理再热汽欠温的数值模拟研究. 热能动力工程, 2011, 26(1): 67-72.


    [98]         何伯述, 王欣, 朱玲, 李鸣扬, 薛纪纬, 陈振兴, 严林博. 燃煤电厂活性炭喷射脱汞的试验研究. 应用基础与工程科学学报. 2010, 18(5): 823-831.


    [99]         许尧,孟建国,元怀全,何伯述. 再热器、过热器减温水过量的分析与改造. 电站系统工程,201026(6)33-36


    [100]     孟建国, 曹建臣, 严林博, 李鸣扬, 何伯述. 通过受热面改造解决再热汽温低问题. 华北电力技术,2010, 4: 27-31.


    [101]     严林博,何伯述,孟建国,元怀全,许尧,张爱军. 过热器减温水过量的治理改造与实施效果,动力工程学报,2010302):83-90.


    [102]     何伯述,冯戈,王蕾,王欣,朱玲,李鸣扬. 燃煤电厂汞排放对比试验研究. 应用基础与工程科学学报. 2009, 17(5): 765-773.


    [103]     孟建国,元怀全,卢存河,李建辉,何伯述,许尧. 600 MW 电站锅炉过热器减温水治理策略及效果,华北电力技术,2008630-34.


    [104]     魏国强,何伯述,王丽俐,王蕾,冯戈燃煤电厂低成本活性炭除汞技术电力环境保护. 2008242):50-53 


    [105]     王丽俐,何伯述,魏国强, 煤加氢气化的化学热力学模型预测,洁净煤技术,2007136):45-48


    [106]     魏国强,何伯述,王丽俐,燃煤电厂烟气汞排放控制技术,环境保护,2007,4A: 61-68.


    [107]     何伯述,王丽俐,魏国强,王蕾,冯戈,大港电厂3号锅炉再热器管屏超温的数值诊断,北京交通大学学报,2007311),31-36.


    [108]     崔彦亭,刘保林,何伯述,燃煤电厂污染控制技术进展与展望,电力环境保护,2006224):50-53


    [109]     刘保林,崔彦亭,何伯述,加氢气化炉内化学反应的热力学研究,洁净煤技术,2006, 12(2): 67-71.


    [110]     陈梅倩,何伯述,陈广华,范丽娟,刘淑敏,氨法脱硫反应特性的化学动力学分析,环境科学学报,257),886-8902005


    [111]     范莉娟,刘淑敏,何小明,陈梅倩,何伯述, 零排放煤基发电系统关键设备的化学动力学分析, 发电设备,20054214-218.


    [112]     刘淑敏,国文学,范莉娟,居芳,陈梅倩,何伯述,零排放煤基发电及其技术发展,东北电力学院学报,200424(6): 56-61.


    [113]     陈梅倩,林江,何伯述,陈广华,范丽娟,刘淑敏,燃煤电站生态效率评价方法的应用研究,应用基础与工程科学学报,124):392-4002004.


    [114]     何伯述,陈梅倩,林  江,陈昌和,污染物的脱除率对燃煤电站生态效率的影响。北方交通大学学报, 27(1),1-5(2003).


    [115]     何伯述,郑显玉,常东武,陈昌和,温度对氨法脱硫率影响的实验研究,环境科学学报, 200222(3), 412-416.


    [116]     何伯述,刁永发,许晋源,陈昌和,切向炉内小分隔屏后涡量分布的实验研究。热能动力工程,17(2), 154-158(2002).


    [117]     何伯述,郑显玉,陈昌和,NH3脱除烟气中气态污染物的应用前景,中国工程热物理学会燃烧学学术会议论文集,2001.10(青岛), 353-357.


    [118]     何伯述,郑显玉,常东武,陈昌和,氨法脱硫时温度对SO2脱除率影响的实验研究, 环境与资源--2001年中国博士后学术研讨会论文集,187-192 (优秀论文).


    [119]     何伯述,郑显玉,侯清濯,张  彬,陈昌和,我国燃煤电站的生态效率。环境科学学报, 21(4), 435-438(2001).


    [120]     何伯述,丁士发,刁永发,许晋源,陈昌和,大型电站锅炉二次风反切方式的数值研究。中国电机工程学报, 21(11), 60~64(2001).


    [121]     何伯述,刁永发,许晋源,陈昌和,切向炉内炉膛及燃烧器区涡量分布的实验研究。热能动力工程,16(3), 239-242(2001).


    [122]     何伯述,刁永发,许晋源,陈昌和,切向炉小分隔屏后涡量场的实验研究,工程热物理学报, 22(增刊),209-212(2001).


    [123]     何伯述,刁永发,许晋源,陈昌和,切向炉小分隔屏后涡量分布的实验研究。中国工程热物理学会燃烧学学术会议论文集(2000.10,武汉),75~80


    [124]     何伯述,刁永发,许晋源,陈昌和,小分隔屏后涡量分布的实验研究。上海理工大学学报,2001,23(3),255-259.


    [125]     何伯述,丁士发,刁永发,许晋源,陈昌和,二次风反切方式的数值研究。中国工程热物理学会传热传质学学术会议论文集(2000.9,济南),268~270


    [126]     何伯述,刁永发,许晋源,陈昌和,切圆煤粉炉内燃烧器区域的涡量分布。中国博士后学术年会,科学出版社,材料与能源分册,2001367-370


    [127]     何伯述,张文宏,许晋源,着火稳定性及其有关技术发展。中国电力,199932(8)4~7


    [128]     何伯述,李彦鹏,许晋源,对CELS 算法在多重网格下的数值试验。工程热物理学报,199920(5)613~617.


    [129]     何伯述,李彦鹏,许晋源,用直接解法计算外掠后台阶层流流动。西安交通大学学报。199933(5)38~41.


    [130]     何伯述,许晋源,阎维平,用多重网格技术加速CELS算法的收敛。华北电力大学学报,199926(2)60~65


    [131]     何伯述,张  强,许晋源,折焰角收缩率对炉内三维流场影响的数值研究。华北电力大学学报,199926(3)41~45


    [132]     何伯述,张  强,许晋源,大型电站锅炉的燃烧方式。热力发电, 2000(1): 8~11


    [133]     何伯述,许晋源,刁永发,切向炉燃烧器区涡量分布的实验研究,电站及工业锅炉燃烧技术学术会议论文集,中国动力工程学会,1999.915~19 (优秀论文)


    [134]     何柏树,FHR-CPC集热器性能的理论研究。太阳能学报,199112(1)75~88


    [135]     陈梅倩, 何伯述,氨法脱除烟气中气态污染物的应用分析,北方交通大学学报,27(4),69-74(2003).


    [136]     刁永发, 何伯述, 金巍巍, 许晋源, 陈昌和,大型电站锅炉多组小屏绕流的数学模型,中国电机工程学报,236),179-1842003.


    [137]     刁永发,何伯述,许晋源,陈昌和,四角燃烧器射流向火侧相干结构涡的研究,中国电机工程学报,233),150-1552003.


    [138]     刁永发,何伯述,许晋源,陈昌和, 大型电站锅炉屏区三维涡运动的研究, 中国电机工程学报,23(5)170-175(2003).


    [139]     刁永发,何伯述,许晋源,陈昌和, 大型电站锅炉燃烧器区向火侧剪切大涡的尺度及其旋转速度,热能动力工程,18(1)20-23(2003).


    [140]     刁永发,何伯述,许晋源,陈昌和, 切向炉内多组小屏尾部分离涡的研究, 热能动力工程,18(2)151-154(2003)


    [141]     刁永发,金巍巍,何伯述,陈昌和,许晋源, 相干结构涡中NOX的初生形态, 环境科学学报, 23(2), 257-261(2003)


    [142]     刁永发,何伯述,许晋源,陈昌和,引进型切向炉燃烧器区剪切大涡的尺度及其旋转速度,中国工程热物理学会燃烧学学术会议论文集,20029月,(南京),55-59.


    [143]     刁永发,何伯述,许晋源,陈昌和,螺旋上升流与薄板翼复合作用形成分离涡的试验研究,中国工程热物理学会燃烧学学术会议论文集,20029月,(南京),60-64.


    [144]     张文宏,何伯述,许晋源,切向燃烧煤粉炉后屏过热器对水平烟道入口烟速分布的影响。热能动力工程,199712(6)405~407.


    [145]       强,何伯述,许晋源,煤炭低NOX燃烧及其技术进展。煤碳科学技术,199826(6)45~46


    [146]       强,何伯述,许晋源,天然气再燃烧还原NOX数值模拟。西安石油学院学报,199914(6): 44-46


    [147]     李彦鹏,何伯述,许晋源,大型锅炉二次风反切系统的数值研究。华北电力大学学报,199926(3)30~35


    [148]     张文宏,沈  滨,何伯述,许晋源,涡量修正方法在切向炉内空气动力场数值模拟中的应用。应用力学学报,199815(4)91~95


    [149]     张文宏,刘泰生,何伯述,王金枝,许晋源,引进型切向燃烧煤粉炉残余旋转的试验研究。动力工程,199818(1)34~37.


    [150]     何伯述,许晋源,张  强,着火稳定性及其有关技术发展。第二届大型火电机组运行技术学术会议论文集,83~891996,武汉


    [151]     何伯述,李彦鹏,许晋源,对CELS 算法在多重网格下的计算实践。中国工程热物理学会传热传质学术会议论文集,8.126~8.1311998,合肥


    [152]     HE Boshu, LI Yanpeng, and XU Jinyuan, On the Fuel-Burning Systems of Large Utility Boilers, Proc. 1st GSISC, 1997, 105~108


    [153]     LI Yanpeng, HE Boshu, Problems in Developing Large-Capacity and High-Parameter Boilers, Proc. 1st GSISC, 1997, 114~117


     


    专著/译著

    1. 何伯述,段志鹏,严林博,王超俊,何頔. 工程热力学[M]. 国内:清华大学出版社,北京交通大学出版社,2020-07
    2. 吕太,何伯述,郑建祥,樊保国,沈祥智,武卫东. 热能与动力工程概论[M]。国内:机械工业出版社,2013-01
    3. 杨昭,杨勇平,张旭,史琳,安青松,赵亮,赵军,朱家玲,陈冠益,何伯述. 能源环境技术[M]。国内:机械工业出版社,2012-07
    4. 何伯述,卢太金,宋泾舸,陈琪. 热能与动力机械基础[M]。国内:清华大学出版社,北京交通大学出版社,2010-04

    专利

    1、授权发明专利:一种三段式气流床煤加氢气化炉及联合运行系统,专利号:201410110834.8,发文序号:2015081700652710

    2、申请中的发明专利:一种垃圾无害化处理系统及利用该系统处理垃圾的方法。