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基本信息
辦公電話：010-51688542 電子郵件： hebs@bjtu.edu.cn
通訊地址：北京市海淀區(qū)上園村3號(hào)北京交通大學(xué)機(jī)械與電子控制工程學(xué)院 郵編：100044 

教育背景
1996-1999：西安交通大學(xué)攻讀博士學(xué)位；
1985-1988：重慶大學(xué)攻讀碩士學(xué)位；
1981-1985：華北電力學(xué)院攻讀學(xué)士學(xué)位。

工作經(jīng)歷
2002-今：北京交通大學(xué)；
2000-2002：清華大學(xué)從事博士后研究；
2004-2005：美國(guó)西肯塔基大學(xué)訪問(wèn)研究；
1988-1996：西北第二民族學(xué)院教師。

研究方向（順序不分先后）
潔凈能源熱利用理論與技術(shù)
流動(dòng)、換熱及燃燒過(guò)程的基礎(chǔ)理論研究
動(dòng)力機(jī)械與熱能工程
微機(jī)電系統(tǒng)流動(dòng)傳熱與能源技術(shù)裝備
燃燒設(shè)備與污染控制技術(shù)

招生專業(yè)
熱能工程碩士
機(jī)械工程(專業(yè)學(xué)位)碩士
機(jī)械工程博士

科研項(xiàng)目

國(guó)家自然科學(xué)基金“面上”：煤粉富氧燃燒時(shí)的煙氣輻射特性及輻射流動(dòng)燃燒耦合特性研究，2016-2019，75萬(wàn)元，主持
北京交大創(chuàng)新科技中心：一期循環(huán)水冷卻塔節(jié)水方案研究，2013-07-01--2014-02-28，48.0萬(wàn)元，主持
北京交通大學(xué)：燃燒室試驗(yàn)件污染物排放測(cè)試，2013-02-01--2013-04-30，1.0萬(wàn)元，主持
科技部“科技支撐”：基于Mesh網(wǎng)絡(luò)井下可視化無(wú)線救災(zāi)通訊技術(shù)與裝備，2013-01-01--2017-12-31，892.0萬(wàn)元，參加
基本科研業(yè)務(wù)費(fèi)：ZEC系統(tǒng)火用分析及煤加氫氣化爐的實(shí)驗(yàn)與模擬研究，2013-01-09--2014-01-09，5.0萬(wàn)元，參加
基本科研業(yè)務(wù)費(fèi)：低品位能量提質(zhì)利用的可行性研究，2013-01-01--2013-12-31，1.0萬(wàn)元，參加
北京交通大學(xué)：1號(hào)、2號(hào)鍋爐低氮燃燒器改造可行性，2012-03-30--2013-03-30，25.0萬(wàn)元，主持
北京交大創(chuàng)新科技中心：一期脫硫煙道腐蝕機(jī)理及治理對(duì)策研究，2012-07-01--2012-12-31，47.0萬(wàn)元，主持
北京交大創(chuàng)新科技中心：一期鍋爐輻射過(guò)熱器吊掛管泄漏對(duì)策研究，2012-07-10--2012-07-30，44.5萬(wàn)元，主持
北京交通大學(xué)：4號(hào)鍋爐煙氣余熱利用可行性研究，2011-09-20--2012-04-30，10.0萬(wàn)元，主持

基本科研業(yè)務(wù)費(fèi)：ZEC系統(tǒng)及煤粉高溫高壓加氫氣化特性研究，2012-03-16--2013-03-16，3.0萬(wàn)元，參加
國(guó)家自然科學(xué)基金“面上”：加壓富氧條件下煤粉燃燒燃盡特性及CO2 分離流程研究，2012-01-01--2015-12-31，60.0萬(wàn)元，主持
北京交大創(chuàng)新科技中心：1號(hào)鍋爐尾部對(duì)流受熱面改造的方案設(shè)計(jì)項(xiàng)目合同，2011-03-01--2011-11-30，15.0萬(wàn)元，主持
北京交大創(chuàng)新科技中心：二期3號(hào)鍋爐受熱面改造可行性研究，2010-12-17--2011-03-15，35.0萬(wàn)元，主持
北京交大創(chuàng)新科技中心：2號(hào)鍋爐尾部對(duì)流受熱面改造方案設(shè)計(jì)，2010-05-05--2010-12-20，7.0萬(wàn)元，主持
北京交大創(chuàng)新科技中心：5號(hào)爐主汽溫度偏差治理方案研究，2010-08-25--2010-12-20，15.0萬(wàn)元，主持
基本科研業(yè)務(wù)費(fèi)：低碳電力技術(shù)的基礎(chǔ)研究，2009-12-31--2011-12-31，9.0萬(wàn)元，參加
北京交大創(chuàng)新科技中心：1號(hào)鍋爐尾部對(duì)流受熱面改造方案設(shè)計(jì)，2009-10-20--2010-11-20，25.0萬(wàn)元，主持
北京交通大學(xué)：北京市軌道交通節(jié)能技術(shù)綜合分析研究，2009-09-01--2010-12-31，40.0萬(wàn)元，參加

科技部“863”：華晨中華單一燃料LNG轎車產(chǎn)品開(kāi)發(fā)，2008-11-10--2010-12-31，50.0萬(wàn)元，參加
北京交大創(chuàng)新科技中心：1號(hào)鍋爐二次汽欠溫治理改造方案研究，2008-10-10--2009-10-30，25.0萬(wàn)元，主持
北京交大創(chuàng)新科技中心：6號(hào)鍋爐受熱面改造方案研究，2008-04-01--2008-08-30，35.0萬(wàn)元，主持
北京交通大學(xué)：SCR催化劑小樣加工，2008-11-18--2009-06-01，2.0萬(wàn)元，主持
國(guó)家自然科學(xué)基金“面上”：噴硫加氫氣化床中煤的氣化特性與其汞形態(tài)演化機(jī)理研究，2009-01-01--2011-12-31，28.0萬(wàn)元，主持
北京交大創(chuàng)新科技中心：1號(hào)鍋爐受熱面改造校核計(jì)算項(xiàng)目合同，2008-01-01--2008-06-01，30.0萬(wàn)元，主持
北京交大創(chuàng)新科技中心：3號(hào)鍋爐受熱面改造校核計(jì)算項(xiàng)目合同，2008-01-01--2008-10-30，47.448萬(wàn)元，主持
科技部“863”：煤礦井下災(zāi)害一體化檢測(cè)技術(shù)研究與實(shí)現(xiàn)-1，2008-01-01--2008-12-31，40.0萬(wàn)元，主持

北京交大創(chuàng)新科技中心：燃燒器及燃燒組織校核計(jì)算，2007-03-01--2007-10-31，8.6552萬(wàn)元，主持
北京交大創(chuàng)新科技中心：對(duì)流受熱面熱力校核計(jì)算，2007-03-01--2007-10-31，18.6488萬(wàn)元，主持
科技部“863”：CNG/LNG發(fā)動(dòng)機(jī)電控單元開(kāi)發(fā)及匹配研究，2007-04-14--2008-12-31，30.0萬(wàn)元，參加
留學(xué)回國(guó)人員基金：分流活性炭對(duì)燃煤污染物聯(lián)合脫除的機(jī)理研究，2007-01-01--2008-12-31，3.0萬(wàn)元，主持
北京交大科技發(fā)展中心：＃3鍋爐再熱器管屏超溫?cái)?shù)值分析，2004-01-01--2004-05-01，10.0萬(wàn)元，主持
北京交大科技發(fā)展中心：#3鍋爐再熱器管屏超溫?cái)?shù)值診斷，2003-10-01--2004-03-31，10.0萬(wàn)元，主持

�？萍蓟�金：煤制氫關(guān)鍵技術(shù)的基礎(chǔ)研究，2002-09-30--2003-08-30，7.0萬(wàn)元，主持
氨法脫硫的理論及試驗(yàn)研究，2002-05-12--2003-06-12，2.0萬(wàn)元，主持煤粉富氧燃燒時(shí)的煙氣輻射特性及輻射流動(dòng)燃燒耦合特性研究

教學(xué)工作
本科教學(xué)：承擔(dān)工程熱力學(xué)、能源與氣候變化等課程教學(xué)。
研究生教學(xué)：承擔(dān)高等燃燒學(xué)、清潔煤燃燒技術(shù)、大氣污染控制原理等課程教學(xué)。
學(xué)術(shù)成果
期刊論文

已發(fā)表的主要英文論文 

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

[2]. 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

[3]. 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 

[4]. 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. 

[5]. 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. 

[6]. 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.

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

[8]. 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)，56：25-30. 

[9]. 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.

[10].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).

[11].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.

[12].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. 

[13].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. 

[14].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. 

[15].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. 

[16].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.

[17].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.

[18].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.

[19].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. 

[20].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. 

[21].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.

[22].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.

[23].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. 

[24].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), 48：196-202.

[25].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.

[26].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.

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

[28].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 Communications（2007), 194: 12, 1596–1607. 

[29].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.

[30].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.

[31].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. ISSN：1573-4196 

[32].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. ISSN：1573-4196

[33].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. 

[34].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.

[35].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.  

[36].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. 

[37].HE Boshu，CHEN Changhe，The energy ecological efficiency of coal-fired plant in China，Energy Conversion and Management, 43(2002), 2553-2567.

[38].HE Boshu, Diao Yongfa, XU Jingyuan, CHEN Changhe，Vorticity measurements in complex 3-D flow in tangentially-fired furnaces，F(xiàn)low Measurement and Instrumentation, 13(2002), 173-181. 

[39].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).

[40].HE Boshu，ZHENG Xianyu，WANG Shujuan，CHEN Changhe，On the energy ecological efficiency of power generating systems，1st  U.S.- China Symposium on CO2 Emission Control Science & Technology，Hangzhou, China，August 22-24, 2001. 

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

[42].Zheng, Xianyu; Diao, Yongfa; Feng, Wen; Chen, Changhe; Xu, Xuchang; He, Boshu，Recovery of carbon dioxide by ammonia scrubbing in power plants，Energy and the Environment - Proceedings of the International Conference on Energy and the Environment，Shanghai, China，V2，1244-1247，2003. 

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

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

著作譯著

呂太，何伯述,鄭建祥,樊保國(guó),沈祥智,武衛(wèi)東.熱能與動(dòng)力工程概論[M]。國(guó)內(nèi):機(jī)械工業(yè)出版社，2013-01
楊昭，楊勇平,張旭,史琳,安青松,趙亮,趙軍,朱家玲,陳冠益,何伯述.能源環(huán)境技術(shù)[M]。國(guó)內(nèi):機(jī)械工業(yè)出版社，2012-07
何伯述，盧太金,宋涇舸,陳琪.熱能與動(dòng)力機(jī)械基礎(chǔ)[M]。國(guó)內(nèi):清華大學(xué)出版社，北京交通大學(xué)出版社，2010-04
專利

1、授權(quán)發(fā)明專利：一種三段式氣流床煤加氫氣化爐及聯(lián)合運(yùn)行系統(tǒng)，專利號(hào)：201410110834.8，發(fā)文序號(hào)：2015081700652710。

2、申請(qǐng)中的發(fā)明專利：一種垃圾無(wú)害化處理系統(tǒng)及利用該系統(tǒng)處理垃圾的方法。