王辉 - 哈尔滨工业大学 - 能源科学与工程学院

个人简介

王辉，男，汉族，1977年生，河北保定人。哈尔滨工业大学能源学院碳中和能源技术研究所，教授，博士生导师。主要从事催化燃烧及低NOx燃烧技术开发、储氢及赝电容超级电容器研发、液体燃料雾化与燃烧机理、固废提取白炭黑及综合利用等方面的研究。先后主持国家科技支撑计划项目子课题4项，主持国家重点研发计划项目子课题1项，主持国家自然科学基金青年/面上各1项，并参加重大研究计划项目1项，863计划项目6项。此外，还负责博士后科研启动基金、校基金项目各1项，横向合作项目及在研项目多项。教育及工作经历 1996.9-2000.7 东北电力大学热能工程专业学士 2000.9-2003.1 东北电力大学热能工程专业硕士 2003.3-2007.3 哈尔滨工业大学热能工程专业博士 2007.4-2009.2 上海交通大学动力工程与工程热物理博士后流动站博士后 2009.2-2010.6 哈尔滨工业大学燃烧工程研究所讲师 2010.6-2016.12 哈尔滨工业大学燃烧工程研究所副教授 2012.9-2013.9 美国普林斯顿大学机械与航天工程系C.K.Law课题组访问学者 2016.12-至今哈尔滨工业大学燃烧工程研究所教授获奖情况获山东省科技进步二等奖一项，项目名称为“水煤浆流化-悬浮高效洁净燃烧技术研究” 获上海市发明二等奖一项，项目名称为“新型油污泥循环流化床焚烧处理工艺” 获黑龙江省科学技术一等奖一项，项目名称为“超（超）临界煤粉锅炉墙式切圆水平燃料分级燃烧技术” 获锅炉科学技术奖一等奖一项，项目名称为“基于流态重构的循环流化床大比例掺烧技术与应用”

研究领域

1、催化燃烧、富氢燃料燃烧和低NOx燃烧技术开发催化燃烧常常用于气体燃料的热值很低或者浓度很低的情况。催化剂的引入，可以改变燃烧机理避免可见光部分的能量损失，在更低的燃料/空气范围内稳定燃烧，适当的催化剂条件下可以无需考虑有机燃料的燃烧浓度范围和爆炸极限，也可有效预防快速型NO。本研究包括对特定催化剂的开发、负载和燃烧器设计，开发适合不同燃气、低热值煤气的催化燃烧技术。例如针对表面式燃烧器、平面火焰等标准燃烧器，通过浸没燃烧、半浸没燃烧方式实现催化燃烧；以及与燃气轮机燃烧室相关的微混、烟气再循环和分级燃烧等低NOx燃烧技术开发。 2、燃油的雾化与燃烧机理及技术开发本研究包括基于航发、燃油燃烧器内的燃油、生物柴油、醇基燃料等的雾化、双股旋流燃烧方式等，结合纹影法、PIV测量、高速摄像机、激光照明系统、超声驻波悬浮等进行测量与机理分析。例如结合燃油驻车加热器开发的催化减排、烟气再循环、高原高寒条件下的燃烧等机理分析和技术研发。 3、储能技术、赝电容超级电容器机理及研发在前期飞灰沉积、烧结过程的机理实验及动网格、浸没边界法数值模拟与预测等研究的基础上，针对不同的固体燃料成灰条件下制取白炭黑、氧化铝等，结合材料的自身属性例如生物质的天然孔隙结构，结合回转炉、水热高压处理、等离子处理和预沉积等技术，对基于煤灰或生物质灰的赝电容超级电容器进行研发，不仅可实现煤灰的综合治理，更因为赝电容在理论上可以获得比双电层电容更高的电容量和能量密度而实现其在储能方面的高值化利用。

近期论文

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The introduction of oxygen vacancy defects in Al-doped transition metal silicates derived from fly ash for high-performance aqueous potassium ion capacitor. Electrochimica Acta, 2022, 434: 141310. (Q1, IF = 7.336) Numerical investigation into fuel–air mixing characteristics and cold flow field of single hydrogen-rich Micromix nozzle [J]. Fuel, 2023;332:126181 In situ generated iron silicate on porous carbon derived from rice husks for high-performance supercapacitor and full utilization of resource. Journal of Electroanalytical Chemistry, 2022, 905:115960 Preparation of fly ash-based cobalt-iron silicate as supercapacitor electrode material, Chemical Engineering Journal, 2022, 434:134661 https://doi.org/10.1016/j.cej.2022.134661. Combustion Characteristics of Spherical Particles Mixed with Coal Slime and Sawdust. Energy Sources, Part A: Recovery, Utilization ,and Environmental Effects. 录用 Co-combustion and Ash Characteristics of Zhundong Coal with Risk Husk Hydrochar Prepared by the Hydrothermal Carbonization Technology for Co-combustion. IET Renewable Power Generation. http://dx.doi.org/10.1049/rpg2.12324 Primary Fragmentation Characteristics in the Process of Coal Slime Combustion. Combustion Science and Technology. 网络首发 CO在不同氧缺陷Cu1/CeO2(110)表面的吸附：DFT%2BU. 燃料化学学报.2021.08.27录用，网络首发。 Predicting the growth of ash deposits in a drop tube furnace using dynamic mesh technique of FLUENT. Journal of Harbin Institute of Technology (New Series).网络首发 Effect of Moisture on Combustion Characteristics and Pore Structure Change of High-Moisture-Content Coal Slime. Journal of Harbin Institute of Technology (New Series).网络首发 Nickel silicate hydroxide on hierarchically porous carbon derived from rice husks as high-performance electrode material for supercapacitors. International Journal of Hydrogen Energy. 2021,46(71):35351-35364 (IF:5.816, SCI收录WG6ST，EI收录20213610854908) Effects of Process Parameters on the Physicochemical Properties of Corn Stalk Hydrochar and Removal of Alkali and Alkaline Earth Metals已发表，https://doi.org/10.1016/j.energy.2020.119699 Development of a mechanistic fouling model for predicting deposit formation in a woodchip fired grate boiler. Energy. 2021,220:119699. Effects of Process Parameters on the Physicochemical Properties of Corn Stalk Hydrochar and Removal of Alkali and Alkaline Earth Metals. IET Renewable Power Generation.2021,15(7):1397-1407(SCI收录RT0FB，EI收录20211710263202) 液滴/煤颗粒破碎过程分析及预测软件V1.0. 开发完成日期：2021.01.30，登记号2021SR0292235 An experimental study on the removal of submicron fly ash and black carbon in a gravitational wet scrubber with electrostatic enhancement. RSC Advances. 2020,10:5905-5912 准东煤灰提取氧化铝和白炭黑技术研究. 洁净煤技术. 2020,26（1）：194-206重点研发计划，已发表 Effect of steam on the transformation of sulfur during demineralized coal pyrolysis. Journal of Analytical and Applied Pyrolysis. 2019,140:161-169 O2/CO2条件下煤泥球团的燃烧特性实验研究. 哈尔滨工业大学学报. 2019,51(1):45-51（EI收录20191306701026）重点研发计划电厂燃用准东煤结焦原因分析与解决措施. 节能技术，2018,36（1，总207）：44-49,72 起动机驱动过程中微型燃气轮机燃烧室变工况燃烧特性.中国电机工程学报, 2018，38(8):2367-2375（EI收录20183305686971）幂律流体双股碰撞雾化特征的实验研究. 哈尔滨工业大学学报. 2018，50(7):52-58（EI收录20184506039216） Morphological and Structural Evolution of Bituminous Coal Slime Particles during the Process of Combustion. Fuel.2018, 218:49-58 (SCI收录GB9SY ，EI收录20180304650159) 重点研发计划 A novel method used to study growth and situ-measurement of effective thermal conductivity of ash deposit. Heat Transfer - Asian Research.2018,47(2):271-285 (SCI收录FV9LC，EI收录20180704808060) 不同成灰温度下准东煤灰沉积特性实验研究. 哈尔滨工业大学学报.2018,50(1):82-89（EI收录20181004877023）自然科学基金 Combustion performance of adjustable fuel feeding combustor under off-design conditions for a micro-gas turbine. Applied Energy. Ignition and Combustion Behaviors of Coal Slime in Air. Energy & Fuels. 2017, 31 (10): 11439–11447. (SCI收录FK7TO，EI收录20174304303057) 重点研发计划双股射流碰撞雾化特征实验. 哈尔滨工业大学学报.2017.49(01):93-100 （EI收录20171103434903） Impacts of Water Vapor and AAEMs on Limestone Desulfurization during Coal Combustion in a Bench-Scale Fluidized-Bed Combustor. Fuel Processing Technology.2017,155:134-143 (SCI收录ED8AT，EI收录20162102423955) Understanding the Impacts of Water Vapor on CaO Sulfurization in a Laboratory-Scale Fluidized Bed. Energy&fuels, 2016,30(9):7108-7117(SCI收录DW4VL，EI收录20163902833251) A dynamic study on the impacts of water vapor and impurities on limestone calcination and CaO sulfurization process in a microfluidized bed reactor analyzer. Energy & Fuels.2016,30(6):4625-4634(SCI收录DP0QZ，EI收录20162602535503) Influence of Water Vapor on Surface Morphology and Pore Structure during Limestone Calcination in a Laboratory-Scale Fluidized Bed. Energy & Fuels. 2016,30(5):3821-3830(SCI收录DM5VF，EI收录20162202451805) Understanding the Impacts of Impurities and Water Vapor on Limestone Calcination in a Laboratory-Scale Fluidized Bed. Energy & Fuels, 2015,29(11):7572–7583(SCI收录CX1NH，EI收录20154801614425) 锅炉飞灰沉积的数值模拟综述.节能技术.2015,33(6):495-502,508 Comparison of fly ash and deposition between air and oxy-fuel combustion in a bench scale fluidized bed with limestone addition. Journal of Harbin Institute of Technology. 2015,22(5):78-84(EI收录20154701563092) Comparative Study on SO2 Release and Removal under Air and Oxy-fuel Combustion in a Fluidized Bed Combustor. Journal of Southeast University (English Edition) 2015,31(2):232-237(EI收录20153101095150) Surface morphology and porosity evolution of CWS spheres from bench-scale fluidized bed. Energy & Fuels, 2015,29(5):3428-3437 (SCI收录CJ0IE，EI收录20152200893173) Experimental investigation on ash deposition of a bituminous coal during oxy-fuel combustion in a bench-scale fluidized bed. Fuel processing technology, 2015,132:24-30, 2015/4. (SCI收录CC1JK，EI收录20150600501242) Investigation of the Initial Stage of Ash Deposition during Oxy-Fuel Combustion in a Bench-Scale Fluidized Bed Combustor with Limestone Addition. Energy & Fuels, 2014,28(6):3623-3631. (SCI收录AJ6EZ，EI收录20142717880595) Pore development and combustion behavior of gasified semi-char in a drop tube furnace. Fuel Processing Technology. 2013, 111: 42-54(SCI收录130TO，EI收录20131116113897) Fly Ash Deposition during Oxy-fuel Combustion in a Bench-Scale Fluidized-Bed Combustor. Energy & Fuels,2013, 27(8): 4609-4616. (SCI收录203OA，EI收录20133516662532) A new fluidization–suspension combustion technology for coal water slurry. Chemical Engineering and Processing: Process Intensification. 2010,49(10):1017-1024 (SCI收录685ZI，EI收录20104313327820) 胜利油田含油污泥的燃烧特性分析. 上海交通大学学报. 2010，44(1):80-84 （EI收录20101312807886） IGCC示范工程净燃气加热器的选型与设计. 发电设备. 2009，（6）：407-412 水煤浆球在异密度热态流化床内的破碎规律. 煤炭学报. 2009，34（8）：1120-1124 （EI收录20093712302704） Co-firing of oil sludge with coal water slurry in an industrial internal circulating fluidized bed boiler. Journal of Hazardous Materials. 2009,167(1-3):817-823 (SCI收录461KX，EI收录20092712165007) Thermal stress- induced fragmentation of quartzite particles in a hot fluidized bed. Chemical Engineering and Processing. 2009,48:507-514 (SCI收录392CD，EI收录20093412266141) Thermal expansion characteristics of quartzite particles up to 1600℃. Chemical Engineering and Processing. 2009,48（4）:885-891(SCI收录442BB，EI收录20091612035218) Fast pyrolysis comparison of coal water slurry with its parent coal in Curie-point pyrolyser. Energy conversion and management. 2009,50(8):1976-1980 (SCI收录465LR，EI收录20092312115991) IGCC示范工程煤气化炉的数值模拟. 煤炭转化. 2009，32(01): 14-19 流化床内石英砂的热破碎及其灰色模型预测.化工学报. 2008, 59(02)328-334. (EI收录081111146821) 水煤浆流化悬浮燃烧技术及14MW卧式锅炉设计. 煤炭学报. 2008，33（7）:789-793(EI收录083411474589) 水煤浆流化－悬浮燃烧技术及14MW锅炉应用.煤炭学报，2008，33（3）：334-338(EI收录081911244480) 水煤浆球在异密度热态流化床内的破碎规律研究. 中国电机工程学报. 2008，28（29）:46-53(EI收录20084511687479) Combustion characteristics of fine- and micro-pulverized coal in the mixture of O2/CO2. Energy & Fuels. 2008, 22(6): 3756-3762(SCI收录374PV EI收录090111820689) Fusion Characteristic Study on Seaweed Biomass Ash. Energy & Fuels 2008,22(4):2229-2235(SCI收录3281X EI收录085011771684) 石英砂热形态和表面微观结构.化工学报.2007，58(3):765-770 (EI收录071610557895) 油污泥的循环流化床焚烧和资源化利用. 动力工程. 2007,27(01):50-53,98(EI收录071310514205) 石英砂流化床床料磨损的数学模型. 化工学报, 2007, 58(11): 2776-2781. (EI收录074910962352) 水煤浆球在流化床内的燃烧实验及灰色关联分析.中国电机工程学报.2007,27(5):61-66（EI收录071910593951）水煤浆和原煤粉居里点裂解仪对比实验研究. 化学工程. 2007,35(3):19-22（EI收录071910594856）不同升温速率下水煤浆的热解特性分析.动力工程.2007，27(2):263-266（EI收录071910595061） Research on Pyrolysis Characteristics and Kinetics of Super Fine and Conventional Pulverized Coal. Energy Conversion and Management.2007,48(3):797-802(SCI收录140HI EI收录070410387437) Experiment and grey relational analysis of CWS spheres combustion in a fluidized bed. Energy & Fuels. 2007,21(4):1924-1930(SCI收录190UC EI收录073310762331) 水煤浆流化悬浮高效洁净燃烧技术研究与应用.化学工程.2006,34(1):62-65(EI收录06109748996) 水煤浆热解挥发分析出机理的研究. 煤炭转化, 2006, 29(3):50-53(核心) 不同升温速率下水煤浆的燃烧特性分析.化学工程.2006，34(2):25-28(EI收录06159820083) 水煤浆挥发分热解的FG-DVC模型.化工学报.2006,57(10):2428-2432(EI收录065110317513) 石英砂流化床床料的磨损实验与灰色关联分析.化工学报.2006,57(5):1133-1137(EI收录063110043294) Grey relational analysis of N2O emission from oil shale-fired circulating fluidized bed. Oil Shale.2006,23(2):99-109(SCI收录056FJ) Study on design of Huadian oil shale-fired circulating fluidized bed boiler. Fuel Processing Technology.2006,87:289-295 (SCI收录016DK EI收录06069692221) 670t/h四角切圆锅炉反切消旋的数值模拟和工程实践.中国电机工程学报.2005,25(18):109-115(EI收录05489517377) 油页岩颗粒的热解模型.化学工程.2004,32(1):9-12(EI收录04178136444)

学术兼职

英文杂志“International Journal of Science and Technology: Material & Chemical”（IJSTMC）编委英文杂志“Current Chinese Science（Energy）”编委《洁净煤技术》中青年专家学术委员会委员黑龙江省电机工程学会锅炉专委会副主任 Energy & Fuels、Applied Energy、 International Journal of Energy Research等多个SCI期刊的审稿人