严林博

博士 、副教授

基本信息

办公电话: 电子邮件: lbyan@bjtu.edu.cn
通讯地址: 邮编:

教育背景

清华大学,热能系, 博士后,2014年11月-2016年11月

University of British Columbia,Chemical and Biological Engineering, 博士后,2015年6月-2016年7月

北京交通大学, 机电学院, 博士,2009年9月-2014年9月

北京交通大学, 机电学院, 学士,2005年9月-2009年7月

工作经历

北京交通大学,副教授,博士研究生导师,2018年7月-至今
北京交通大学,讲师,2016年11月-2018年7月

研究方向

  • 热流科学与清洁能源利用
  • 清洁能源与储能工程

招生专业

  • 动力工程及工程热物理硕士
  • 能源动力硕士

科研项目

1)知识产权转让(M23ZH100010),2023.08-2032.11(第一发明人,主持),一种天然气热电联产系统专利权转让,20万

2)自然科学横向项目(M25L01110),2025.10-2026.7(主持),试验装置研发,202万

3)自然科学横向项目 (M24L02100),2024.12-2025.12(主持),基于Windows系统的试验管路数值模拟软件研发,84万

4)自然科学横向项目 (M24L01150),2024.7-2025.3(主持),滤砖结构对净化池内气泡分布及传质特性影响,20万

5)自然科学横向项目 (M24L01090),2024.5-2025.12(主持),试验台架项目管道分析,20.5万

6)自然科学横向项目 (M24L00820),2024.6-2027.7(主持),回转炉头解耦燃烧技术装备燃烧过程仿真模拟,25万

7)自然科学横向项目 (M25L00910),2025.9-2026.3(主持),破坏与修补气体性能模拟分析,63.5万

8)红果园,2026.4-2027.5(主持),反应堆样品热变形仿真,5万

9)红果园 ,2026.3-2028.3(主持),甲烷重整制氢仿真服务,24万


10)    国家自然科学基金"青年基金"(51706012),2018年1月-2020年12月(项目负责人),基于四流化床煤/生物质共水蒸气气化的清洁发电系统研究

11)    北京交通大学人才启动基金 (M17RC00030),2017年3月-2019年3月 (项目负责人),煤/生物质共水蒸气气化发电系统及内部气化工艺模拟研究
12)    中国博士后科学基金一等资助 (2015M570096),2014年11月-2016年11月 (项目负责人) ,基于化学链技术的煤/生物质共加氢气化发电系统研究
13)    中央高校基本科研业务费项目 (2013YJS078),2013年1月-2014年1月 (项目负责人) ,ZEC系统㶲分析及煤加氢气化炉的试验与模拟研究
14)    中央高校基本科研业务费项目(2012YJS102),2012年3月-2013年3月 (项目负责人) ,ZEC系统及煤粉高温高压加氢气化特性研究
15)    国家重点研发计划(M17B500200),2017年7月-2020年12月(参与人),炉内流动传热及化学反应等复杂作用对NOx生成的影响规律研究
16)    国家自然科学基金 (NSFC: 51176009),2012年1月-2015年12月 (参与人),加压富氧条件下煤粉燃烧燃尽特性及CO2 分离流程研究
17)    北京交通大学创新科技中心项目 (M12X00900),2012年7月-2013年5月(主要参与人,负责锅炉热力计算),神二一期锅炉辐射过热器吊挂管泄漏对策研究
18)    北京交通大学创新科技中心项目(M11X00400),2010年12月-2011年3月 (主要参与人,负责锅炉热力计算),二期3号锅炉受热面改造可行性研究
19)    北京交通大学创新科技中心项目(M10X00840),2010年5月-2010年10月 (主要参与人,负责锅炉热力计算),2号锅炉尾部对流受热面改造方案设计
20)    北京交通大学创新科技中心项目(M10X00370),2009年10月-2010年11月(主要参与人,负责锅炉热力计算),1号锅炉尾部对流受热面改造的方案设计


教学工作

《能源系统仿真》

《工程图学基础》

《工程经济》

论文/期刊

[1]     Linbo Yan, etc. Research on a New Drag Force Model for Cylindrical Particles in Fixed Bed Reactors, Catalyst, 2022; 12:1120.(免费邀稿)

[2]     Linbo Yan, etc. Numerical Research on Biomass Gasification in a Quadruple Fluidized Bed Gasifier, Processes, 2023; 10: 2526.(免费邀稿)

[3]     Linbo Yan, etc. Simulation of Sorption-Enhanced Steam Methane Reforming over Ni-Based Catalyst in a Pressurized Dual Fluidized Bed Reactor, Inorganics, 2023; 11:107.(免费邀稿)

[4]     Linbo Yan, etc. Thermodynamic and Economic Analyses of a Novel Cooling, Heating and Power Tri-Generation System with Carbon Capture, Atmosphere, 2024; 15: 836. (免费邀稿)

[5]     Linbo Yan, etc. On the Modeling of Continuous H2 Production by Sorption-Enhanced Steam Methane Reforming, Catalyst, 2025; 15:246.(免费邀稿)

[6]     Linbo Yan, etc. Insights into radiation property prediction for numerical simulation of pulverized coal/biomass, Clean Energy, 2025; 9: 111-123. (免费)     

[7]     Linbo Yan, Luchao Wang, Ziliang Wang, Yang Cao, Boshu He. Comparison of three biomass-based carbon-negative power generation systems. Journal of Cleaner Production, 2021; 285: 125424.

[8]     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; 113202.

[9]      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.

[10]  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.

[11]  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.

[12]  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.

[13]  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.

[14]  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.

[15]  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.

[16]  Linbo Yan, He Boshu. 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.

[17]  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.

[18]   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. (SCI)

[19]  Linbo Yan, Jim Choon 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. (SCI)

[20]  Linbo Yan, Jim Choon 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. (SCI)

[21]  Linbo Yan, Guangxi Yue, Boshu He. Exergy analysis of a coal/biomass co-hydrogasification based chemical looping power generation system. Energy 2015; 93(13): 1778-1787. (SCI)

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

[23]  Linbo Yan, Guangxi Yue, Boshu He. Development of an absorption coefficient calculation method potential for combustion and gasification simulations. International Journal of Heat & Mass Transfer 2015; 91: 1069-1077. (SCI)

[24]  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: 17540-17553. (SCI)

[25]  Linbo Yan, Boshu He, Tianyi Hao, Xiaohui Pei, Chaojun Wang, Zhipeng Duan. Pressurized Thermogravimetric Study on the Hydropyrolysis and Hydrogasification Kinetics of a Bituminous Coal. Energy&Fuels 2014; 28(5): 2993-3001. (SCI)

[26]  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. (SCI)

[27]  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. (SCI)

[28]  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&Fuels 2013; 27: 6388-6396. (SCI)

[29]  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&Fuels 2013; 27: 6397-6407. (SCI)

[30]  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. (SCI)

[31]  Linbo Yan, Boshu He, Xiaohui Pei, Xusheng Li, Chaojun Wang. Energy and exergy analyses of a zero emission coal system. Energy 2013; 55(15): 1094-1103. (SCI)

[32]  Linbo Yan, Boshu He, 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. STROJARSTVO 2013; 55(1):73-85. (EI)

[33]  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. (SCI)

[34]  Linbo Yan, Boshu He, Fang Yao, Rui Yang, Xiaohui Pei, Chaojun Wang, Jingge Song. Numerical simulation of a 600 MW utility boiler with different tangential arrangements of burners. Energy&fuels 2012; 26: 5491-5502. (SCI)

[35]  Linbo Yan, Boshu He, Xiaohui Pei, Chaojun Wang, Min Yang, 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: 5804-5820. (SCI)

[36]  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; 32:94-103.(EI)

[37]  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. 热能动力工程, 2011; 26(1): 67-72.

[38]  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.

[39]  严林博,何伯述, 孟建国. 过热器减温水过量的治理改造与实施效果. 动力工程学报2010; 30(2): 83-98.

[40]  严林博,何伯述,李鸣扬,赵立强. ZEC系统煤粉喷流加氢气化炉内化学反应热力学及动力学模拟研究. 中国工程热物理学会,104320. 2010.12, 广州.

[41]  严林博,何伯述,薛纪伟, 陈振兴, 赵立强. BERL燃烧器锅炉的数值模拟研究. 中国工程热物理学会燃烧学会议, 094098. 2009.10, 合肥.

[42]  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.

[43]  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 Conferenceon Sustainable Developmentof Energy, Waterand Environment System, 2011.9.25 - 29, SDWS2011.0520,Dubrovnik, Croatia,2011

[44]  Pei Xiaohui, He Boshu, Yan  Linbo, Wang  Chaojun, Song Weining, Song  Jingge. 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

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

[46]  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, 2013; 36(6): 122-127.

[47]  Wang Chaojun, He Boshu, Sun Shaoyang, Wu Ying, Yan Na, Yan Linbo, Pei Xiaohui. Application of a low pressure economizer for waste heat recovery from the exhaust flue gas in a 600 MW power plant. Energy, 2012; 48(1): 196-202.

[48]  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 Conferenceon Sustainable Developmentof Energy, Waterand Environment System, 2011.9.25 - 29, 2011, SDWS2011.0544,Dubrovnik, Croatia,2011.


专著/译著

副主编,工程热力学,2020,清华大学出版社;北京交通大学出版社

专利

1)    一种双流化床反应系统,CN108264937B,2020. 第一完成人
2)    一种新型煤制洁净天然气系统,  CN104449922A, 2015. 第二完成人
3)    一种三段式气流床煤加氢气化炉及联合运行系统, CN103937552A, 2014. 第二完成人
4)    一种煤粉加压富氧燃烧沉降炉实验装置, CN103076361A,2013. 第三完成人


软件著作权

锅炉热力计算软件 V1.0, 2009SRBJ5483, 2009. 第三完成人

获奖与荣誉

社会兼职

煤炭科学研究院化工分院,技术总监

中加能源中心委员

国际期刊审稿专家(含cell子刊)