陆强
近期热点
资料介绍
个人简历
陆强,1982年生,江苏江阴人,博士,教授,博士研究生导师,“万人计划”青年拔尖人才,国家优秀青年基金获得者,北京市科技新星。于2001-2010年在中国科学技术大学完成了本硕博的学习,获得热能工程工学博士学位。现任华北电力大学可再生能源学院教授、博导,生物质发电成套设备国家工程实验室主任,《IETRenewablePowerGeneration》专题主编(SubjectEditor)和副编辑(AssociateEditor)、《JournalofAnalyticalandAppliedPyrolysis》编委和客座编辑、《ScienceoftheTotalEnvironment》客座编辑。先后主持了国家、省部级和企业委托项目40余项。已发表论文200余篇,其中SCI论文100余篇(第一或通讯作者80余篇);授权发明专利60余项,其中以第一发明人授权30余项,有10项专利获得实施许可或转让。主编中文著作3部,参编英文著作1部;参编1项IEEE国际标准。获得2018年度教育部科技进步一等奖(第2完成人)、2016年度教育部科技进步一等奖(第3完成人)、2018年度安徽省科技进步二等奖(第3完成人)、2013年度中国电力科技技术进步二等奖(第6完成人)等奖励。作为技术主研人之一研发的“生物质电站安全高效发电关键技术”已经在国内多家生物质电站成功应用,创造了显著的经济与社会效益。作为技术主研人研发的烟气脱硝技术——多温区系列化平板式SCR脱硝催化剂,形成了国内唯一具有自主知识产权的成套技术,已由华北电力大学科技园企业进行了大规模推广应用。研究领域
生物质等固体燃料的高效热转化与烟气污染物治理近期论文
1.QiangLu*,Ze-xiangWang,Hao-qiangGuo,KaiLi,Zhen-xiZhang,Min-shuCui,Yong-pingYang.Selectivepreparationofmonocyclicaromatichydrocarbonsfromex-situcatalyticfastpyrolysisofpineoverTi(SO4)2-Mo2N/HZSM-5catalyst.Fuel,2019,243:88-96.2.QiangLu*,YueHou,SajidaRiffatLaraib,OmeralfarougKhalifa,KaiLi,Wen-luanXie,Min-shuCui,Yong-pingYang.Electro-catalyticsteamreformingofmethaneoverNi-CeO2/γ-Al2O3-MgOcatalyst.FuelProcessingTechnology,2019,192:57-64.3.QiangLu*,Zhen-xiZhang,Xiao-ningYe,KaiLi,Min-shuCui,Yong-pingYang.Catalyticfastpyrolysisofalkali-pretreatedbagasseforselectivepreparationof4-vinylphenol.JournalofAnalyticalandAppliedPyrolysis,2019,143:104669.4.QiangLu*,Yu-tingWu,BinHu,JiLiu,Ding-jiaLiu,Chang-qingDong,Yong-pingYang.Insightintothemechanismofsecondaryreactionsincellulosepyrolysis:interactionsbetweenlevoglucosanandaceticacid.Cellulose,2019,26:8279-8290.5.BinHu,QiangLu*,Xiao-yanJiang,JiLiu,Min-shuCui,Chang-qingDong,Yong-pingYang.Formationmechanismofhydroxyacetoneinglucosepyrolysis:Acombinedexperimentalandtheoreticalstudy.ProceedingsoftheCombustionInstitute,2019,37:2741-2748.6.BinHu,QiangLu*,Zhen-xiZhang,Yu-tingWu,KaiLi,Chang-qingDong,Yong-pingYang.Mechanisminsightintothefastpyrolysisofxylose,xylobioseandxylanbycombinedtheoreticalandexperimentalapproaches.CombustionandFlame,2019,206:177-188.7.BinHu,QiangLu*,Yu-tingWu,JiLiu,KaiLi,Chang-qingDong,Yong-pingYang.Interactionbetweenaceticacidandglycerol:Amodelforsecondaryreactionsduringholocellulosepyrolysis.TheJournalofPhysicalChemistryA,2019,123:674-681.8.Xiao-yanJiang,QiangLu*,BinHu,Deng-yuChen,JiLiu,Chang-qingDong.InfluenceofinherentalkalimetalchloridesonpyrolysismechanismofaligninmodeldimmerbasedonDFTstudy.JournalofThermalAnalysisandCalorimetry,2019,137:151-160.9.Yang-wenWu,ZulfiqarAli,QiangLu*,JiLiu,Ming-xinXu,LiZhao,Yong-pingYang.EffectofWO3dopingonthemechanismofmercuryoxidationbyHCloverV2O5/TiO2(001)surface:Periodicdensityfunctionaltheorystudy.AppliedSurfaceScience,2019,487:369-378.10.JiLiu,Xiao-leiZhang*,QiangLu*,AlexanderShaw,BinHu,Xiao-yanJiang,Chang-qingDong.MechanismstudyontheeffectofalkalimetalionsontheformationofHCNasNOxprecursorduringcoalpyrolysis.JournaloftheEnergyInstitute,2019,92:604-612.11.Ming-xinXu,Ya-changWu,Dong-hongNan,QiangLu*,Yong-pingYang.Effectsofgaseousagentsontheevolutionofcharphysicalandchemicalstructuresduringbiomassgasification.BioresourceTechnology,2019,292:121994.12.JiLiu,Xiao-leiZhang*,AlexanderShaw,QiangLu*,BinHu,Chang-qingDong,Yong-pingYang.TheoreticalstudyoftheeffectofhydrogenradicalsontheformationofHCNfrompyrrolepyrolysis.JournaloftheEnergyInstitute,2019,92:1468-1475.13.Zhen-xiZhang,KaiLi,Shan-weiMa,Min-shuCui,QiangLu*,Yong-pingYang.Fastpyrolysisofbiomasscatalyzedbymagneticsolidbasecatalystinahydrogenatmosphereforselectiveproductionofphenol.IndustrialCrops&Products,2019,137:495-500.14.ZhongLiu,JianHan,LiZhao,Yang-wenWu,Han-xiaoWang,Xin-qiPei,Ming-xinXu,QiangLu*,Yong-pingYang.EffectsofSeandSeO2onthedenitrificationperformanceofV2O5-WO3/TiO2SCRcatalyst.AppliedCatalysisA,General,2019,587:117263.15.YingZhang*,Zi-guoYuan,BinHu,JinDeng,QianYao,XinZhang,Xiao-haoLiu,YaoFu,QiangLu*.Directconversionofcelluloseandrawbiomasstoacetonitrilebycatalyticfastpyrolysisinammonia.GreenChemistry,2019,21:812-820.16.QiangLu*,BinHu,Zhen-xiZhang,Yu-tingWu,Min-shuCui,Ding-jiaLiu,Chang-qingDong,Yong-pingYang.Mechanismofcellulosefastpyrolysis:Theroleofcharacteristicchainendsanddehydratedunits.CombustionandFlame,2018,198:267-277.17.QiangLu*,Min-xingZhou,Wen-taoLi,XinWang,Min-shuCui,Yong-pingYang.Catalyticfastpyrolysisofbiomasswithnoblemetal-likecatalyststoproducehigh-gradebio-oil:AnalyticalPy-GC/MSstudy.CatalysisToday,2018,302:169-179.18.QiangLu*,Hao-qiangGuo,Min-xingZhou,Zhen-xiZhang,Min-shuCui,Yuan-yuanZhang,Yong-pingYang,Lai-baoZhang.Monocyclicaromatichydrocarbonsproductionfromcatalyticcrackingofpinewood-derivedpyrolyticvaporsoverCe-Mo2N/HZSM-5catalyst.ScienceoftheTotalEnvironment,2018,634:141-149.19.QiangLu*,Xiao-ningYe,Zhen-xiZhang,Ze-xiangWang,Min-shuCui,Yong-pingYang.Catalyticfastpyrolysisofsugarcanebagasseusingactivatedcarboncatalystinahydrogenatmospheretoselectivelyproduce4-ethylphenol.JournalofAnalyticalandAppliedPyrolysis,2018,136:125-131.20.QiangLu*,Hao-qiangGuo,Min-xingZhou,Min-shuCui,Chang-qingDong,Yong-pingYang.SelectivepreparationofmonocyclicaromatichydrocarbonsfromcatalyticcrackingofbiomassfastpyrolysisvaporsoverMo2N/HZSM-5catalyst.FuelProcessingTechnology,2018,173:134-142.21.QiangLu*,Zhen-xiZhang,XinWang,Hao-qiangGuo,Min-shuCui,Yong-pingYang.Catalyticfastpyrolysisofbiomassimpregnatedwithpotassiumphosphateinahydrogenatmospherefortheproductionofphenolandactivatedcarbon.FrontiersinChemistry,2018,6:32.22.Xiao-yanJiang,QiangLu*,BinHu,JiLiu,Chang-qingDong*,Yong-pingYang.Intermolecularinteractionmechanismofligninpyrolysis:Ajointtheoreticalandexperimentalstudy.Fuel,2018,215:386-394.23.BinHu,QiangLu*,Yu-tingWu,Zhen-xiZhang,Min-shuCui,Ding-jiaLiu,Chang-qingDong,Yong-pingYang.Catalyticmechanismofsulfuricacidincellulosepyrolysis:Acombinedexperimentalandcomputationalinvestigation.JournalofAnalyticalandAppliedPyrolysis,2018,134:183-194.24.BinHu,QiangLu*,Xiao-yanJiang,Xiao-chenDong,Min-shuCui,Chang-qingDong,Yong-pingYang.Pyrolysismechanismofglucoseandmannose:Theformationof5-hydroxymethylfurfuralandfurfural.JournalofEnergyChemistry,2018,27:486-501.25.LiZhao,YuLiu,Yang-wenWu,JianHan,Song-linZhang,QiangLu*,Yong-pingYang.MechanismofheterogeneousmercuryoxidationbyHClonV2O5(001)surface.CurrentAppliedPhysics,2018,18(6):626-632.26.QiangLu*,Zhi-boZhang,Xiao-ningYe,Wen-taoLi,BinHu,Chang-qingDong,Yong-pingYang.Selectiveproductionof4-ethylguaiacolfromcatalyticfastpyrolysisofsoftwoodbiomassusingPd/SBA-15catalyst.JournalofAnalyticalandAppliedPyrolysis,2017,123:237-243.27.Xiao-ningYe,QiangLu*,XinWang,Hao-qiangGuo,Min-shuCui,Chang-qingDong*,Yong-pingYang.Catalyticfastpyrolysisofcelluloseandbiomasstoselectivelyproducelevoglucosenoneusingactivatedcarboncatalyst.ACSSustainableChemistry&Engineering,2017,5(11):10815-10825.28.BinHu,QiangLu*,Xiao-yanJiang,Xiao-chenDong,Min-shuCui,Chang-qingDong,Yong-pingYang.Insightintotheformationofanhydrosugarsinglucosepyrolysis:ajointcomputationalandexperimentalinvestigation.Energy&Fuels,2017,31(8):8291-8299.29.Xiao-yanJiang,QiangLu*,BinHu,JiLiu,Chang-qingDong,Yong-pingYang.Acomprehensivestudyonpyrolysismechanismofsubstitutedβ-O-4typelignindimers.InternationalJournalofMolecularSciences,2017,18(11):2364.30.QiangLu*,Xiao-ningYe,Zhi-boZhang,Min-shuCui,Hao-qiangGuo,WeiQi*,Chang-qingDong,Yong-pingYang.Catalyticfastpyrolysisofbagasseusingactivatedcarboncatalysttoselectivelyproduce4-ethylphenol.Energy&Fuels,2016,30(12):10618-10626.31.QiangLu*,Hui-yunTian,BinHu,Xiao-yanJiang,Chang-qingDong,Yong-pingYang.Pyrolysismechanismofholocellulose-basedmonosaccharides:Theformationofhydroxyacetaldehyde.JournalofAnalyticalandAppliedPyrolysis,2016,120:15-26.32.Xiao-ningYe,QiangLu*,Wen-taoLi,PanGao,BinHu,Zhi-boZhang,Chang-qingDong.SelectiveproductionofnicotyrinefromcatalyticfastpyrolysisoftobaccobiomasswithPd/Ccatalyst.JournalofAnalyticalandAppliedPyrolysis,2016,117:88-93.33.Zhi-boZhang,QiangLu*,Xiao-ningYe,Wen-taoLi,BinHu,Chang-qingDong*.Productionofphenolic-richbio-oilfromcatalyticfastpyrolysisofbiomassusingmagneticsolidbasecatalyst.EnergyConversionandManagement,2015,106:1309-1317.34.Zhi-boZhang,QiangLu*,Xiao-ningYe,Ti-pengWang,Xian-huaWang,Chang-qingDong.Selectiveproductionoflevoglucosenonefromcatalyticfastpyrolysisofbiomassmechanicallymixedwithsolidphosphoricacidcatalysts.BioEnergyResearch,2015,8(3):1263-1274.35.Zhi-boZhang,QiangLu*,Xiao-ningYe,Wen-taoLi,YingZhang,Chang-qingDong*.Selectiveproductionof4-ethylphenolfromlow-temperaturecatalyticfastpyrolysisofherbaceousbiomass.JournalofAnalyticalandAppliedPyrolysis,2015,115:307-315.36.JunTao*,QiangLu*,Chang-qingDong,Xiao-zeDu,ErikDahlquist.Effectsofelectriccurrentuponcatalyticsteamreformingofbiomassgasificationtarmodelcompoundstosyngas.EnergyConversionandManagement,2015,100:56-63.37.LeiChen,Xian-huaWang*,Hai-pingYang,QiangLu*,DiLi,QingYang,Han-pingChen.Studyonpyrolysisbehaviorsofnon-woodyligninswithTG-FTIRandPy-GC/MS.JournalofAnalyticalandAppliedPyrolysis,2015,113:499-507.38.LeiChen,Xiao-ningYe,Fei-xianLuo,Jing-aiShao*,QiangLu*,YangFang,Xian-huaWang,Han-pingChen.Pyrolysismechanismofβ-O-4typeligninmodeldimer.JournalofAnalyticalandAppliedPyrolysis,2015,115:103-111.39.QiangLu*,Xiao-ningYe,Zhi-boZhang,Chang-qingDong,YingZhang.CatalyticfastpyrolysisofcelluloseandbiomasstoproducelevoglucosenoneusingmagneticSO42-/TiO2-Fe3O4.BioresourceTechnology,2014,171:10-15.40.QiangLu*,YangZhang,Chang-qingDong,Yong-pingYang,Hai-zhuYu*.Themechanismfortheformationoflevoglucosenoneduringpyrolysisofβ-d-glucopyranoseandcellobiose:Adensityfunctionaltheorystudy.JournalofAnalyticalandAppliedPyrolysis,2014,110:34-43.41.QiangLu*,Zhi-boZhang,Xiao-chuYang,Chang-qingDong,Xi-fengZhu.CatalyticfastpyrolysisofbiomassimpregnatedwithK3PO4toproducephenoliccompounds:AnalyticalPy-GC/MSstudy.JournalofAnalyticalandAppliedPyrolysis,2013,104:139-145.42.Yan-chaoQu,WangZhi,QiangLu*,YingZhang*.Selectiveproducing4-vinylphenolbyfastpyrolysisofherbaceousbiomass.Industrial&EngineeringChemistryResearch,2013,52(36):12771-12776.43.Chang-qingDong*,Zhi-feiZhang,QiangLu*,Yong-pingYang.Characteristicsandmechanismstudyofanalyticalfastpyrolysisofpoplarwood.EnergyConversionandManagement,2012,57:49-59.44.QiangLu*,Xiao-chuYang,Chang-qingDong,Zhi-feiZhang,Xu-mingZhang,Xi-fengZhu.Influenceofpyrolysistemperatureandtimeonthecellulosefastpyrolysisproducts:AnalyticalPy-GC/MSstudy.JournalofAnalyticalandAppliedPyrolysis,2011,92(2):430-438.45.QiangLu*,ZhiWang,Chang-qingDong,Zhi-feiZhang,YingZhang,Yong-pingYang,Xi-fengZhu.SelectivefastpyrolysisofbiomassimpregnatedwithZnCl2:Furfuralproductiontogetherwithaceticacidandactivatedcarbonasby-products.JournalofAnalyticalandAppliedPyrolysis,2011,91(1):273-279.46.QiangLu*,Chang-qingDong,Xu-mingZhang,Hui-yunTian,Yong-pingYang,Xi-fengZhu.SelectivefastpyrolysisofbiomassimpregnatedwithZnCl2toproducefurfural:AnalyticalPy-GC/MSstudy.JournalofAnalyticalandAppliedPyrolysis,2011,90(2):204-212.47.QiangLu,ZheTang,YingZhang*,Xi-fengZhu*.CatalyticupgradingofbiomassfastpyrolysisvaporswithPd/SBA-15catalysts.Industrial&EngineeringChemistryResearch,2010,49(6):2573-2580.48.QiangLu,YingZhang,ZheTang,Wen-zhiLi,Xi-fengZhu*.Catalyticupgradingofbiomassfastpyrolysisvaporswithtitaniaandzirconia/titaniabasedcatalysts.Fuel,2010,89(8):2096-2103.49.QiangLu#,Wan-mingXiong#,Wen-zhiLi,Qing-xiangGuo,Xi-fengZhu*.Catalyticpyrolysisofcellulosewithsulfatedmetaloxides:Apromisingmethodforobtaininghighyieldoflightfurancompounds.BioresourceTechnology,2009,100(20):4871-4876.50.QiangLu,Wen-zhiLi,DongZhang,Xi-fengZhu*.AnalyticalPyrolysis-gaschromatography/massspectrometry(Py-GC/MS)ofsawdustwithAl/SBA-15catalysts.JournalofAnalyticalandAppliedPyrolysis,2009,84(2):131-138.51.QiangLu,Wen-zhiLi,Xi-fengZhu*.Overviewoffuelpropertiesofbiomassfastpyrolysisoils.EnergyConversionandManagement.2009,50(5):1376-1383.52.QiangLu,Xi-fengZhu*,Wen-zhiLi,YingZhang,Deng-yuChen.On-linecatalyticupgradingofbiomassfastpyrolysisproducts.ChineseScienceBulletin,2009,54(11):1941-1948.53.QiangLu,Xu-laiYang,Xi-fengZhu*.Analysisonchemicalandphysicalpropertiesofbio-oilpyrolyzedfromricehusk.JournalofAnalyticalandAppliedPyrolysis,2008,82(2):191-198.54.QiangLu,JianZhang,Xi-fengZhu*.Corrosionpropertiesofbio-oilanditsemulsionswithdiesel.ChineseScienceBulletin,2008,53(23):3726-3734.55.QiangLu,Xi-fengZhu,Quan-xinLi,Qing-xiangGuo,Qing-shiZhu*.Biomassfastpyrolysisforliquidfuels.ProgressinChemistry,2007,19(7-8):1064-1071. 相关热点