段伦博 - 东南大学 - 能源与环境学院

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段伦博博士教授博导收藏完善纠错
东南大学能源与环境学院
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个人简介

段伦博能源工程系教授、博导个人简介教学课程科研、教改项目论文&专著专利申请荣誉、奖励指导学生个人简介段伦博，男，1982年4月生，山东莱芜人，国家优青、青年拔尖。2005年毕业于南京师范大学，2010年毕业于东南大学，获工学博士，后留校任教。2014年2月—2015年9月，英国Cranfield大学Research Fellow。发表SCI收录论文70余篇，截至2019年6月，被引用2300次，H因子26；授权发明专利15项。教学课程本科生课程: 《工程热力学》、《能源与环境纵横》; 研究生全英文课《Advanced Fuel Coversion Technology》; 博士生课程《循环流化床理论与运行》科研教改项目 1. 国家自然科学基金优秀青年基金项目（51922027）“煤富氧燃烧”，主持，2020.1-2022.12。 2. 国家自然科学基金面上项目（ 51776039 ）“高压、高H2O浓度对流化床内煤/生物质燃烧特性的影响”，主持，2018.1-2021.12。 3. 国家重大专项课题（2018YFB0605301）“常压/加压煤富氧分级燃烧、传热及污染物协调控制机理”，主持，2018.07-2021.06。 4. 国家自然科学基金青年基金项目（ 51206023 ）“循环流化床 O2/CO2 燃烧 S 迁移规律研究”，主持，2013.1-2015.12。 5. 国家自然科学基金中美合作基金子课题（51661125011）“生物质及生物质-煤富氧燃烧过程中灰的沉积及其对传热的影响”，主持，2016.1-2019.12。 6. 国家重大研发计划中美清洁能源联合研究中心项目课题（2016YFE0102500-06）“增压流化床富氧燃烧机理及污染物排放规律”，主持，2016.12-2019.11。 7. 国家973项目专题（2011CB707301-3）“低碳捕集成本的循环流化床富氧燃烧的理论与技术研究”，主持，2011.1 - 2015.12。 8. 国家自然科学基金国际会议项目（51410305075）“第四届国际流化床富氧燃烧会议”，主持，2014.7-2015.12。 9. 美国能源部（ DOE ）项目（ DE-FE0029162 ）“干煤粉增压富氧燃烧特性研究”，主持，2016.10-2019.09。 10. 韩国科技部项目（ KIER-20160046 ）“超临界流化床富氧燃烧电站可行性研究”，主持，2016.08-2017.08。 11.外资单位出资的国际合作项目（8603000012）“2.5MWth床内换热器（IBHX）中试装置-3”，主持，2013.12-2017.12。 12.外资单位出资的国际合作项目（8603000015）“2.5MWth床内换热器（IBHX）中试装置-4”，主持，2015.12-2017.12。专利申请 [1] 段伦博，陈健，石田，周琳绯，赵长遂，一种低能耗实现燃气机组热电冷三联产零碳排放的方法，2016.9，中国，ZL 201610825258.4 [2] 段伦博，余志健，段元强，赵长遂，一种颗粒机械强度的测试装置及方法，2015.4，中国，201510154252.4 [3] 段伦博，段元强，陈惠超，赵长遂，一种Cu/Ca基化合物联合循环捕捉CO2的方法及装置，2014.6，中国，ZL 201410295360.9 [4] 段伦博，段元强，陈晓平，吴新，赵长遂，一种可双向控制返料的密封返料阀，中国，2013 1 0393754.3 [5] 段伦博，段元强，陈惠超，赵长遂，带水合反应器的钙基吸收剂循环捕捉CO2的装置和方法，中国，ZL2014 1 0409410.1 [6] 段伦博，韩冬，段钰锋，向文国，一种富氧燃烧机组热量梯级利用的方法及装置，2013.4，中国，ZL 2013 1 0154346.2 [7] 段伦博，韩冬，段钰锋，向文国，一种富氧燃烧热量利用的方法及装置，2013.4，中国，ZL 2013 1 0154024.8 [8] 段伦博，韩冬，段钰锋，向文国，一种富氧燃烧热量梯级利用的方法及装置，2013.4，中国，ZL 2013 1 0154154.1 [9] 段伦博，段钰锋，赵长遂，陈晓平，桑圣欢，王卉，一种燃煤烟气中SOx测试方法，2012.7，中国，ZL 2012 1 0248424.0 荣誉奖励 “循环流化床富氧燃烧基础研究”教育部自然科学二等奖（排名1），教育部，2018年。 “钙基载体循环煅烧/碳酸化反应捕集CO2的基础研究”教育部科技进步二等奖（排名4），教育部。奖教金二等奖，东南大学，2012年。东南大学最受欢迎老师之能源环境学院最受欢迎老师，2016年。江苏省高校“青蓝工程”优秀青年骨干教师，2014年。江苏省“六大人才高峰”，2015年。东南大学青年教师授课竞赛一等奖，2017年。国家万人计划青年拔尖人才，2018年。中国能源学会优秀青年工作者奖，2018年。指导学生 1、孙海程，《循环流化床煤燃烧痕量元素迁移特性实验研究》，硕士研究生，2012.9—2015.6，指导 2、段元强，《待定》，博士研究生，2015.3—至今，指导 3、李林，《待定》，博士研究生，2016.3—至今，指导 4、陈健，《待定》，博士研究生，2017.09—至今，指导 5、李小乐，《蜈蚣草热处理过程中砷迁移规律研究》，硕士研究生，2014.09—2017.05，指导 6、余志健，《成型钙基吸收剂钙循环反应活性及强度研究》，硕士研究生，2014.09—2017.05，指导 7、苏成林，《耦合水泥生产成型钙基吸收剂循环吸收CO2的性能研究》，硕士研究生，2014.09—2018.05今，指导 8、崔健，《煤与石油焦混燃的循环流化床锅炉重金属、SOx和Cl排放特性》，硕士研究生，2014.09—201805，指导 9、姜中孝，《水蒸气对O2/CO2燃煤特性的影响机理》，硕士研究生，2010年9月-2013年5月，协助指导 10、胡海华，《增压流化床O2/CO2燃煤特性及SO2/NO排放特性试验研究》，硕士研究生，2011年9月-2014年5月，协助指导 11、韩冬，《O2/CO2燃烧全流程建模及系统优化》，硕士研究生，2011年9月-2014年5月，协助指导 12、潘玄，《生物质混煤O2/CO2燃烧与污染物排放特性实验研究》，硕士研究生，2011年9月-2014年5月，协助指导

研究领域

1、洁净煤技术 2、大气污染控制和固体废弃物处理 3、二氧化碳减排 4、先进能源材料

近期论文

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[1] Jian Chen, Lunbo Duan*, Tian Shi, et al. A Facile One-Pot Synthesis of CaO/CuO Hollow Microspheres Featuring Highly Porous Shells for Enhanced CO2 Capture in Combined Ca-Cu Looping Process via a Template-Free Synthesis Approach[J]. Journal of Materials Chemistry A, 2019. [2] Y Wu, D Liu, D Zheng, et al. Numerical simulation of circulating fluidized bed oxy-fuel combustion with Dense Discrete Phase Model[J]. Fuel Processing Technology, 2019, 195: 106129. [3] Duan L*, Li L, Liu D, et al. Fundamental study on fuel-staged oxy-fuel fluidized bed combustion[J]. Combustion and Flame, 2019, 206: 227-238. [4] Duan Y, Duan L*, Wang J, et al. Observation of simultaneously low CO, NOx and SO2 emission during oxy-coal combustion in a pressurized fluidized bed[J]. Fuel, 2019, 242: 374-381. [5] Li L, Duan L*, Tong S, et al. Combustion characteristics of lignite char in a fluidized bed under O2/N2, O2/CO2 and O2/H2O atmospheres[J]. Fuel Processing Technology, 2019, 186: 8-17. [6] Zhou Linfei, Lunbo Duan*, and Edward John Anthony. A calcium looping process for simultaneous CO2 capture and peak shaving in a coal-fired power plant[J]. Applied energy, 2019, 235: 480-486. [7] S Tong, L Li, L Duan*, et al. A kinetic study on lignite char gasification with CO2 and H2O in a fluidized bed reactor[J]. Applied Thermal Engineering, 2019, 147: 602-609. [8] Jian Chen, Lunbo Duan*, and Zhao Sun. Accurate control of cage-like CaO hollow microspheres for enhanced CO2 capture in calcium looping via a template-assisted synthesis approach[J]. Environmental science & technology, 2019, 53: 2249-2259. [9] Z Sun, X Wu, CK Russell, et al. Synergistic enhancement of chemical looping-based CO2 splitting with biomass cascade utilization using cyclic stabilized Ca2Fe2O5 aerogel[J]. Journal of Materials Chemistry A, 2019, 7: 1216-1226. [10] Li L, Duan L*, Zeng D, et al. Ignition and volatile combustion behaviors of a single lignite particle in a fluidized bed under O2/H2O condition[J]. Proceedings of the Combustion Institute, 2019, 37(4): 4451-4459. [11] Sun Z, Zeng L, Russell C K, et al. Solar–Wind–Bio Ecosystem for Biomass Cascade Utilization with Multigeneration of Formic Acid, Hydrogen, and Graphene[J]. ACS Sustainable Chemistry & Engineering, 2018, 7(2): 2558-2568. [12] Wang J, Duan Y, Duan L*, et al. Sulfur Enrichment in Particulate Matter Generated from a Lab-Scale Pressurized Fluidized Bed Combustor[J]. Energy & Fuels, 2018, 33(1): 603-611. [13] Su C, Duan L*, Anthony E J. CO2 capture and attrition performance of competitive eco‐friendly calcium‐based pellets in fluidized bed[J]. Greenhouse Gases: Science and Technology, 2018, 8(6): 1124-1133. [14] Yang P, Duan L*, Tang H, et al. Explaining steam‐enhanced carbonation of CaO based on first principles[J]. Greenhouse Gases: Science and Technology, 2018, 8(6): 1110-1123. [15] Chen J, Duan L*, Donat F, Müller C, Anthony E, Fan M. Self-activated, nanostructured composite for improved CaL-CLC technology[J]. Chemical Engineering Journal, 2018, 351: 1038-1046. [16] Li L, Duan Y, Duan L*, et al. Flow characteristics in pressurized oxy-fuel fluidized bed under hot condition[J]. International Journal of Multiphase Flow, 2018, 108: 1-10. [17] Yuan Y, Li Y, Duan L, Liu H, Zhao J, Wang Z. CaO/Ca (OH)2 thermochemical heat storage of carbide slag from calcium looping cycles for CO2 capture[J]. Energy Conversion and Management, 2018, 174: 8-19. [18] Ma X, Li Y, Duan L, Anthony E, Liu H. CO2 capture performance of calcium-based synthetic sorbent with hollow core-shell structure under calcium looping conditions[J]. Applied Energy, 2018, 225: 402-412. [19] Sarbassov Y, Duan L, Manovic V, Anthony E. Sulfur trioxide formation/emissions in coal-fired air-and oxy-fuel combustion processes: a review[J]. Greenhouse Gases: Science and Technology, 2018, 8(3): 402-428. [20] Chen H, Wang F, Zhao C, Duan L. Carbonation kinetics of fly-ash-modified calcium-based sorbents for CO2 capture[J]. Greenhouse Gases: Science and Technology, 2018, 8(2): 292-308. [21] Wu Y, Liu D, Duan L, Ma J, Xiong J, Chen X. Three-dimensional CFD simulation of oxy-fuel combustion in a circulating fluidized bed with warm flue gas recycle[J]. Fuel, 2018, 216: 596-611. [22] Cui J, Duan L*, Jiang Y, Zhao C, Anthony E. Migration and emission of mercury from circulating fluidized bed boilers co-firing petroleum coke and coal[J]. Fuel, 2018, 215: 638-646. [23] Sun Z, Chen S, Russell C K, Hu J, Rony A, Tan G, Chen A, Duan L, Boman J, Tang J, Chien T, Fan M, Xiang W. Improvement of H2-rich gas production with tar abatement from pine wood conversion over bi-functional Ca2Fe2O5 catalyst: Investigation of inner-looping redox reaction and promoting mechanisms[J]. Applied Energy, 2018, 212: 931-943. [24] Su C, Duan L*, Donat F, Anthony E. From waste to high value utilization of spent bleaching clay in synthesizing high-performance calcium-based sorbent for CO2 capture[J]. Applied Energy, 2018, 210: 117-126. [25] C Liu, Y Huang, L Dong, et al. Combustion Characteristics and Pollutants in the Flue Gas During Shoe Manufacturing Waste Combustion in a 2.5 MWth Pilot-Scale Circulating Fluidized Bed[J]. Waste and Biomass Valorization, 2018, 1-12. [26] Cui J, Duan L*, hou L, Zhao C. Effects of air pollution control devices on the chlorine emission from 410 t/h circulating fluidized bed boilers co-firing petroleum coke and coal[J]. Energy & Fuels, 2018, 32(4): 4410-4416. [27] Sarbassov Y, Duan L, Jeremias M, Manovic V, Anthony E. SO3 formation and the effect of fly ash in a bubbling fluidised bed under oxy-fuel combustion conditions[J]. Fuel Processing Technology, 2017, 167: 314-321. [28] Zhao W, Zhang B, Xu C, Duan L, Wang S. Optical Sectioning Tomographic Reconstruction of Three-dimensional Flame Temperature Distribution Using Single Light Field Camera[J]. IEEE Sensors Journal, 2018, 18(2): 528-539. [29] Duan L*, Cui J, Jiang Y, Zhao C, Anthony E. Partitioning behavior of Arsenic in circulating fluidized bed boilers co-firing petroleum coke and coal[J]. Fuel Processing Technology, 2017, 166: 107-114. [30] Chi C, Li Y, Ma X, Duan L. CO2 capture performance of CaO modified with by-product of biodiesel at calcium looping conditions[J]. Chemical Engineering Journal, 2017, 326: 378-388. [31] Shi J, Li Y, Zhang Q, Ma X, Duan L, Zhou X. CO2 capture performance of a novel synthetic CaO/sepiolite sorbent at calcium looping conditions[J]. Applied Energy, 2017, 203: 412-421. [32] Yu Z, Duan L*, Su C, Li Y, Anthony E. Effect of steam hydration on reactivity and strength of cement-supported calcium sorbents for CO2 capture[J]. Greenhouse Gases: Science and Technology, 2017, 7(5): 915-926. [33] He Z, Li Y, Zhang W, Ma X, Duan L, Song H. Effect of re-carbonation on CO2 capture by carbide slag and energy consumption in the calciner[J]. Energy Conversion and Management, 2017, 148: 1468-1477. [34] Haider S, Erans M, Donat F, Duan L, Scott S, Manovic V, Anthony E. Copper-based oxygen carriers supported with alumina/lime for the chemical looping conversion of gaseous fuels[J]. Journal of Energy Chemistry, 2017, 26(5): 891-901. [35] Ma X, Li Y, Chi C, Zhang W, Shi J, Duan L. CO2 capture performance of mesoporous synthetic sorbent fabricated using carbide slag under realistic calcium looping conditions[J]. Energy & Fuels, 2017, 31(7): 7299-7308. [36] Li Y, Ma X, Wang W, Chi C, Shi J, Duan L. Enhanced CO2 capture capacity of limestone by discontinuous addition of hydrogen chloride in carbonation at calcium looping conditions[J]. Chemical Engineering Journal, 2017, 316: 438-448. [37] Duan L*, Chen J, Jiang Y, Li X, Longhurst P, Lei M. Experimental and kinetic study of thermal decomposition behaviour of phytoremediation derived Pteris vittata[J].Journal of Thermal Analysis and Calorimetry, 2017, 128(2): 1207-1216. [38] Duan L*, Li X, Jiang Y, Lei M, Dong Z, Longhurst P. Arsenic transformation behaviour during thermal decomposition of P. vittata, an arsenic hyperaccumulator[J]. Journal of Analytical and Applied Pyrolysis, 2017, 124: 584-591. [39] Duan Y, Duan L*, Anthony E, Zhao C. Nitrogen and sulfur conversion during pressurized pyrolysis under CO2 atmosphere in fluidized bed[J]. Fuel, 2017, 189: 98-106. [40] Li X, Duan L*, Zhao C. As transformation behavior in thermal treatment of P. vittata in different atmospheres[J]. China Environmental Science, 2017, 37(4): 1418-1425. [41] Erans M, Beisheim T, Manovic V, Jeremias M, Patchigolla K, Dieter H, Duan L, Anthony E. Effect of SO2 and steam on CO2 capture performance of biomass-templated calcium aluminate pellets[J]. Faraday Discussions, 2016, 192: 97-111. [42] Haider S, Duan L, Patchigolla K, Anthony E. A Hydrodynamic Study of a Fast-Bed Dual Circulating Fluidized Bed for Chemical Looping Combustion[J]. Energy Technology, 2016, 4(10): 1254-1262. [43] Duan L*, Godino D, Manovic V, Montagnaro F, Anthony E. Cyclic Oxygen Release Characteristics of Bifunctional Copper Oxide/Calcium Oxide Composites[J]. Energy Technology, 2016, 4(10): 1171-1178. [44] Duan L*, Su C, Erans M, Li Y, Anthony E, Chen H. CO2 capture performance using biomass-templated cement-supported limestone pellets[J]. Industrial & Engineering Chemistry Research, 2016, 55(39): 10294-10300. [45] Jiang Y, Ameh A, Lei M, Duan L, Longhurst P. Solid–gaseous phase transformation of elemental contaminants during the gasification of biomass[J]. Science of The Total Environment, 2016, 563: 724-730. [46] Duan L*, Yu Z, Erans M, Li Y, Manovic V, Anthony E. Attrition Study of Cement-Supported Biomass-Activated Calcium Sorbents for CO2 Capture[J]. Industrial & Engineering Chemistry Research, 2016, 55(35): 9476-9484. [47] Duan L*, Sun H, Jiang Y, Anthony E, Zhao C. Partitioning of trace elements, As, Ba, Cd, Cr, Cu, Mn and Pb, in a 2.5 MW th pilot-scale circulating fluidised bed combustor burning an anthracite and a bituminous coal[J]. Fuel Processing Technology, 2016, 146: 1-8. [48] Zhang W, Li Y, Duan L, Ma X, Wang Z, Lu C. Attrition behavior of calcium-based waste during CO2 capture cycles using calcium looping in a fluidized bed reactor[J]. Chemical Engineering Research and Design, 2016, 109: 806-815. [49] Haider S, Azimi G, Duan L, Anthony E, Patchigolla K, Oakey J, Leion H, Mattissonc T, Lyngfeltc A. Enhancing properties of iron and manganese ores as oxygen carriers for chemical looping processes by dry impregnation[J]. Applied Energy, 2016, 163: 41-50. [50] Chi C, Li Y, Sun R, Ma X, Duan L, Wang Z. HCl removal performance of Mg-stabilized carbide slag from carbonation/calcination cycles for CO2 capture[J]. RSC Advances, 2016, 6(106): 104303-104310.

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