王允圃
硕士 硕导
所属大学: 南昌大学
所属学院: 食品学院
邮箱:
331625498@qq.com
个人主页:
http://sfst.ncu.edu.cn/szdw/jsfc/9d409ffa4cd84e34b21e976f2c3f4b55.htm?a=88
个人简介
王允圃,男,硕士导师;江西省优秀创新创业指导老师,南昌大学青年岗位能手,主要研究方向为食品(含生物质)资源的开发利用,包括农林生物质能源化和高效利用方面的研究,主要研究对象涉及秸秆、能源作物以及食品生产和消费中的固体废弃物。近5年,已经发表SCI论文66篇,其中第一作者/通讯作者发表41篇,中科院1区论文共26篇(TOP期刊),包括本领域权威期刊RenewableandSustainableEnergyReviews(影响因子10.556,JCR绿色可持续发展领域排名第1),EnergyConversionandManagement(影响因子7.181),BioresourceTechnology(影响因子6.589,JCR农业工程领域排名第1),ScienceofTheTotalEnvironment(影响因子5.589),WasteManagement(影响因子5.431),JournalofAnalyticalandAppliedPyrolysis(影响因子3.470)等。根据GoogleScholar数据,文章总引用次数745次,H指数达16。获得授权国家发明专利18件(第一发明人10件),参与申请国际发明专利1项,参与撰写Elsevier、IntechOpen出版社英文专著3部。研究成果获得国际同行专家的认可,受邀担任超过20种国际一流期刊审稿专家。主持国家级项目2项(国家自然科学基金1项、国家科技部国际合作与交流专项课题1项),省部级项目3项(江西省重点研发计划等),横向课题1项。
  研究成果也为相应技术的工业应用提供了重要的科学和技术支撑,其中生物质微波热解技术在美国Resynergi公司和国内泸州老窖股份有限公司分别建成了1吨/天规模中试装置,实现稳定运行,以此为基础,作为第一指导老师指导大学生获得“互联网+”、“挑战杯”和“创青春”等科技竞赛奖励13项(国家级3项,省部级10项),具体包括:中国“互联网+”大学生创新创业大赛国家级铜奖1项,“挑战杯”全国大学生课外学术科技作品竞赛国家级二等奖以上1项(比赛中),“创青春”全国大学生创业计划竞赛国家级铜奖1项;“互联网+”省级银奖1项、省级铜奖2项,“挑战杯”省级一等奖2项,二等奖3项,“创青春”省金奖1项,省银奖1项。荣获2017年第十五批江西省级教学成果奖二等奖(排名第1),2016年南昌大学第十三批教学成果奖一等奖(排名第1),2019年南昌大学第十四批教学成果奖一等奖(排名第1)。
讲授课程 《生态工程》 《生物质(含食品)资源的高值转化利》 学术成就   发表SCI论文66篇,其中第一作者/通讯作者发表41篇,中科院1区论文共26篇(TOP期刊),其中IF大于10的论文1篇,IF大于6的论文17篇,IF大于3小于6的论文11篇,总影响因子为176.369。具体包括本领域权威期刊RenewableandSustainableEnergyReviews(影响因子10.556,JCR绿色可持续发展领域排名第1),EnergyConversionandManagement(影响因子7.181),BioresourceTechnology(影响因子6.589,JCR农业工程领域排名第1),ScienceofTheTotalEnvironment(影响因子5.589),WasteManagement(影响因子5.431),JournalofAnalyticalandAppliedPyrolysis(影响因子3.470)等。根据GoogleScholar数据,文章总引用次数745次,H指数达16。获得授权国家发明专利18件(第一发明人10件),参与申请国际发明专利1项,参与撰写Elsevier、IntechOpen出版社英文专著3部。研究成果获得国际同行专家的认可,受邀担任超过20种国际一流期刊审稿专家。主持国家级项目2项(国家自然科学基金1项、国家科技部国际合作与交流专项课题1项),省部级项目3项(江西省重点研发计划等),横向课题1项。
  研究成果也为相应技术的工业应用提供了重要的科学和技术支撑,其中生物质微波热解技术在美国Resynergi公司和国内泸州老窖股份有限公司分别建成了1吨/天规模中试装置,实现稳定运行,以此为基础,作为第一指导老师指导大学生获得“互联网+”、“挑战杯”和“创青春”等科技竞赛奖励13项(国家级3项,省部级10项),具体包括:中国“互联网+”大学生创新创业大赛国家级铜奖1项,“挑战杯”全国大学生课外学术科技作品竞赛国家级二等奖以上1项(比赛中),“创青春”全国大学生创业计划竞赛国家级铜奖1项;“互联网+”省级银奖1项、省级铜奖2项,“挑战杯”省级一等奖2项,二等奖3项,“创青春”省金奖1项,省银奖1项。荣获2017年第十五批江西省级教学成果奖二等奖(排名第1),2016年南昌大学第十三批教学成果奖一等奖(排名第1),2019年南昌大学第十四批教学成果奖一等奖(排名第1)。
承担课题 1.国家自然科学基金地区项目,21766019,基于微波吸收泡沫陶瓷催化的废弃油脂热解制备烃类燃油过程机理研究,50万,2018.01-2021.12在研,主持;
2.国家科技部国际科技合作专项项目课题,2015DFA60170-4,秸秆快速裂解关键技术与装备合作研究,45万,2015.4-2018.3结题,主持;
3.江西省重点研发计划项目,20171BBF60023,微波吸收剂辅助吸波快速气化生物质关键技术研究与装备开发,20万,2017.01-2019.12在研,主持;
4.中科院广东省新能源和可再生能源研究开发与应用重点实验室开放基金,Y707sb1001,有效氢碳比调控的微波快速催化热解生物质制油机理研究,2万,2017.1-2018.12在研,主持;
5.江西省“三区”人才计划科技特派人员,9202-0210208692,2万,2016.1-2019.12在研,主持;
6.甘肃扶正药业科技股份有限公司,横向课题,10万,2019.03-2021.04,在研,主持;
研究领域
食品(含生物质)资源的开发利用,重点开展植物油皂脚等油脂工业废弃物以及木质纤维类农产品废弃物的微波热化学转化能源与材料的研究
近期论文
[1].DaiLeilei,WangYunpu*,LiuYuhuan,RuanRoger,HeChao,YuZhenting,JiangLin,ZengZihong,TianXiaojie.Integratedprocessoflignocellulosicbiomasstorrefactionandpyrolysisforupgradingbio-oilproduction:Astate-of-the-artreview[J].RenewableandSustainableEnergyReviews,2019,107:20-36.
[2].WangYunpu,WuQiuhao,YangSha,YangQi,WuJunlin,MaZhiyun,JiangLin,YuZhenting,DaiLeilei,LiuYuhuan*,RuanRoger*,FuGuiming,ZhangBo,ZhuHaibin.Microwave-assistedcatalyticfastpyrolysiscoupledwithmicrowave-absorbentofsoapstockforbio-oilinadowndraftreactor[J].EnergyConversionandManagement,2019,185:11-20.
[3].WangYunpu,ZengZihong,TianXiaojie,DaiLeilei,JiangLing,ZhangShumei,WuQiuhao,WenPingwei,FuGuiming,LiuYuhuan*,RuanRoger.Productionofbio-oilfromagriculturalwastebyusingacontinuousfastmicrowavepyrolysissystem[J].BioresourceTechnology,2018,269:162-168.
[4].WangYunpu,DuanDengle,LiuYuhuan,RuanRoger,FuGuiming,DaiLeilei,ZhouYue,YuZhenting,WuQiuhao,ZengZihong.Propertiesandpyrolysisbehaviorofmosobamboosawdustaftermicrowave-assistedacidpretreatment[J].JournalofAnalyticalandAppliedPyrolysis,2018,129:86-92.
[5].WangYunpu,WuQiuhao,DuanDengle,RogerRuan,LiuYuhuan*,DaiLeilei,ZhouYue,ZhaoYunfeng,ZhangShumei,ZengZihong,JiangLin,YuZhenting,Ex-situcatalyticupgradingofvaporsfromfastmicrowave-assistedco-pyrolysisofChromolaenaodorataandsoybeansoapstock[J].BioresourceTechnology,2018,261:306-312.
[6].WangYunpu,WuQiuhao,DaiLeilei,ZengZihong,LiuYuhuan,RuanRoger,FuGuiming,YuZhenting,Jianglin.Co-pyrolysisofwettorrefiedbamboosawdustandsoapstock[J].JournalofAnalyticalandAppliedPyrolysis,2018,132:211-216.
[7].WangYunpu,XiaojieTian,ZihongZeng,LeileiDai,ShumeiZhang,LinJiang,QiuhaoWu,XiuhuaYang,YuhuanLiu,BoZhang,ZhentingYu,PingweiWen,GuimingFu,RogerRuan.Catalyticco-pyrolysisofAlternantheraphiloxeroidesandpeanutsoapstockviaanewcontinuousfastmicrowavepyrolysissystem[J].WasteManagement,2019,88:102-109.
[8].WangYunpu,JiangLin,DaiLeilei,YuZhenting,LiuYuhuan*,RogerRuan,FuGuiming,ZhouYue,FanLiangliang,DuanDengle,ZhaoYunfeng.Microwave-assistedcatalyticco-pyrolysisofsoybeanstrawandsoapstockforbio-oilproductionusingSiCceramicfoamcatalyst[J].JournalofAnalyticalandAppliedPyrolysis,2018,133:76-81.
[9].WangYunpu,WuQiuhao,DuanDengle,ZhangYayun,RogerRuan,LiuYuhuan*,GuimingFu,ZhangShumei,ZhaoYunfeng,DaiLeilei,FanLiangliang.Co-pyrolysisofmicrowave-assistedacidpretreatedbamboosawdustandsoapstock[J].BioresourceTechnology,2018,265:33–38.
[10].WangYunpu,ZhangShumei,YuZhenting,JiangLin,LiuYuhuan,RuanRoger,FuGuiming.Conversionofbiomasstohydrocarbon-richbio-oilviamicrowave-assistedcatalyticpyrolysis:Areview[J].ChinaPetroleumProcessingandPetrochemicalTechnology,2018,20:7-16
[11].WangYunpu,DaiLeilei,FanLiangliang,CaoLeipeng,ZhouYue,ZhaoYunfeng,LiuYuhuan*,RogerRuan*.Catalyticco-pyrolysisofwastevegetableoilandhighdensitypolyethyleneforhydrocarbonfuelproduction[J].WasteManagement,2017,61:276-282.
[12].WangYunpu,DaiLeilei,FanLiangliang,DuanDengle,LiuYuhuan,RuanRoger,YuZhenting,LiuYuezhen,JiangLin.Microwave-assistedcatalyticfastco-pyrolysisofbamboosawdustandwastetireforbio-oilproduction[J].JournalofAnalyticalandAppliedPyrolysis,2017,123:224-228.
[13].WangYunpu,DaiLeilei,WangRiping,FanLiangliang,LiuYuhuan*,XieQinglong,RuanRoger*.Hydrocarbonfuelproductionfromsoapstockthroughfastmicrowave-assistedpyrolysisusingmicrowaveabsorbent[J].JournalofAnalyticalandAppliedPyrolysis,2016,119:251-258.
[14].WangYunpu,DaiLeilei,FanLiangliang,ShanShaoqi,LiuYuhuan,RuanRoger*.Reviewofmicrowave-assistedligninconversionforrenewablefuelsandchemicals[J].JournalofAnalyticalandAppliedPyrolysis,2016,119:104-113.
[15].WangYunpu,DaiLeilei,XieQinglong,ShanShaoqi,ZengQin,FanLiangliang,LiuYuhuan,RuanRoger.Effectofunsaturationdegreeonmicrowave-assistedpyrolysisoffattyacidsalts[J].JournalofAnalyticalandAppliedPyrolysis,2016,120:247-251.
[16].WangYunpu,KeLinyao,YangQi,PengYujie,HuYanzhe,DaiLeilei,JiangLin,WuQiuhao,LiuYuhuan,RuanRoger,FuGuiming.Biorefineryprocessforproductionofbioactivecompoundsandbio-oilfromCamelliaoleiferashell[J].IntJAgric&BiolEng,2019;12(5):15–20.
[17].WangYunpu,LiuYuhuan,RuanRoger,LiuShitao,WenPingwei,WanYiqin.PreparationandcharacterizationofZrO2polycrystallineceramicfoamcatalystforproductionbiodiesel[J].SynthesisandReactivityinInorganicMetal-OrganicandNano-MetalChemistry,2016,46:1506–1512.
[18].WangYunpu,FanLiangliang,DaiLeilei,LiuYuhuan,RuanRoger,LiuShitao,ZhangXueqin,WanYiqin.SynthesisofbiodieselusingZrO2polycrystallineceramicfoamcatalystinatubularreactor[J].ChinaPetProcessPe,2015,17(3):67-75.
[19].WangYunpu,LiuYuhuan,RuanRongsheng,WenPingwei,WanYiqin,ZhangJinsheng.Investigationofhydrocarbongenerationmechanismbypolarizingthecarboxy-groupoffattyacidsaltwithmicrowaveradiation[J].AsianJ.Chem.,2014,26(2):369-375.
[20].WangYunpu,LiuYuhuan,YangLiu,RuanRoger,WenPingwei,WanYiqin.Synthesesof5-HydroxymethylfurfuralthroughGlucoseDehydrationinDiphasicSolventSystemonZrO2andSO42-/TiO2-SiO2Catalyst[J].SynthesisandReactivityinInorganicMetal-OrganicandNano-MetalChemistry,2016,46:177-184.
[21].WangYunpu,LiuYuhuan,RuanRongsheng,WenPingwei,WanYiqin,ZhangJinsheng.Microwave-assistedDecarboxylationofSodiumOleateandRenewableHydrocarbonFuelProduction[J].ChinaPetProcessPe,2013,15(3):19-27.
[22].WangYunpu,LiuYuhuan,RuanRongsheng,WanYiqin,ZhangJinsheng,PengHong.MechanismofHydrocarbonGenerationfromSodiumStearateDecarboxylationbyMicrowaveAssistedPyrolysis[J].ActaChimicaSinica,2012,70(2):114-120.
[23].DaiLeilei,WangYunpu*,LiuYuhuan,RuanRoger,HeChao,DuanDengle,ZhaoYunfeng,YuZhenting,JiangLin,WuQiuhao.Bridgingtherelationshipbetweenhydrothermalpretreatmentandco-pyrolysis:Effectofhydrothermalpretreatmentonaromaticproduction[J].EnergyConversionandManagement,2019,180:36-43.
[24].JiangLin,WangYunpu*,DaiLeilei,YuZhenting,YangQi,YangSha,JiangDeyu,MaZhiyun,WuQiuhao,ZhangBo,LiuYuhuan,RuanRoger.Co-pyrolysisofbiomassandsoapstockinadowndraftreactorusinganovelZSM-5/SiCcompositecatalyst[J].Bioresourcetechnology,2019,279:202-208.
[25].DaiLeilei,WangYunpu*,LiuYuhuan,RuanRoger,DuanDengle,ZhaoYunfeng,YuZhenting,JiangLin.CatalyticfastpyrolysisoftorrefiedcorncobtoaromatichydrocarbonsoverNi-modifiedhierarchicalZSM-5catalyst[J].BioresourceTechnology,2019,272:408-414.
[26].DaiLeilei,WangYunpu*,LiuYuhuan,RuanRoger,YuZhenting,JiangLin.Comparativestudyoncharacteristicsofthebio-oilfrommicrowave-assistedpyrolysisoflignocelluloseandtriacylglycerol[J].ScienceofTheTotalEnvironment,2019,659:95-100.
[27].Zou,Rongge,YunpuWang*,LinJiang,ZhentingYu,YunfengZhao,QiuhaoWu,LeileiDai,LinyaoKe,YuhuanLiu,andRogerRuan."Microwave-assistedCo-pyrolysisofLigninandWasteOilCatalyzedbyhierarchicalZSM-5/MCM-41CatalysttoProduceAromaticHydrocarbons."Bioresourcetechnology(2019):121609.
[28].DaiLeilei,ZengZihong,TianXiaojie,JiangLin,YuZhenting,WuQiuhao,WangYunpu*,LiuYuhuan,RuanRoger.Microwave-assistedcatalyticpyrolysisoftorrefiedcorncobforphenol-richbio-oilproductionoverFemodifiedbio-charcatalyst[J].JournalofAnalyticalandAppliedPyrolysis,2019:104691.
[29].DaiLeilei,HeChao,WangYunpu*,LiuYuhuan,RuanRoger,YuZhenting,ZhouYue,DuanDengle,FanLiangliang,ZhaoYunfeng,Hydrothermalpretreatmentofbamboosawdustusingmicrowaveirradiation[J],BioresourceTechnology,2018,247:234-241.
[30].ZhaoYunfeng,WangYunpu*,DuanDengle,RuanRoger,FanLiangliang,ZhouYue,DaiLeilei,LvJiaqian,LiuYuhuan,Fastmicrowave-assistedex-catalyticco-pyrolysisofbambooandpolypropyleneforbio-oilproduction[J].BioresourceTechnology,2018,249:69-75.
[31].DuanDengle,RuanRoger,WangYunpu*,LiuYuhuan,DaiLeilei,ZhaoYunfeng,ZhouYue,WuQiuhao.Microwave-assistedacidpretreatmentofalkalilignin:Effectoncharacteristicsandpyrolysisbehavior[J].BioresourceTechnology,2018,251:57-62.
[32].YuZhenting,WangYunpu*,JiangLin,DaiLeilei,LiuYuhuan,RuanRoger,DuanDengle,ZhouYue,FanLiangliang,ZhaoYunfeng,ZouRongge.Microwave-assistedcatalyticpyrolysisofChinesetallowkerneloilforaromaticproductioninadowndraftreactor[J].JournalofAnalyticalandAppliedPyrolysis,2018,133:16-21.
[33].DuanDengle,RuanRoger,LeiHanwu,LiuYuhuan,WangYunpu*,ZhangYayun,ZhaoYunfeng,DaiLeilei,WuQiuhaoZhangShumei.Microwave-assistedco-pyrolysisofpretreatedligninandsoapstockforupgradingliquidoil:Effectofpretreatmentparametersonpyrolysisbehavior[J].BioresourceTechnology,2018,258:98-104.
[34].Yu,Zhenting,WangYunpu*LinJiang,LeileiDai,YuhuanLiu,RogerRuan,PingweiWenYunfengZhao,DengleDuan,RonggeZou,QiuhaoWu,YanzhiLi.Conversionofwoodyoilintobio-oilinadowndraftreactorusinganovelsiliconcarbidefoamsupportedMCM41compositecatalyst[J].RSCAdvances,9(34),19729-19739.
[35].ZouRongge,ZhaoYunfeng,WangYunpu*,DuanDengle,FanLiangliang,DaiLeilei,LiuYuhuan,RuanRongsheng.Microwave-assistedDepolymerizationofLigninwithMetalChlorideinaHydrochloricAcidandFormicAcidSystem[J].BIORESOURCES,2018,13:3704-3719.
[36].TayierMaimaitiaili,DuanDengle,ZhaoYunfeng,RuanRongsheng,WangYunpu*,LiuYuhuan.CatalyticEffectsofVariousAcidsonMicrowave-assistedDepolymerizationofOrganosolvLignin[J].BIORESOURCES,2018,133:412-424.
[37].DaiLeilei,HeChao,WangYunpu*,LiuYuhuan,YuZhenting,ZhouYue,FanLiangliang,DuanDengle,RuanRoger.Comparativestudyonmicrowaveandconventionalhydrothermalpretreatmentofbamboosawdust:Hydrocharpropertiesanditspyrolysisbehaviors[J].EnergyConversionandManagement,2017,145:1-7.
[38].ZhouYue,WangYunpu*,FanLiangliang,DaiLeilei,DuanDengle,LiuYuhuan,RogerRuan,ZhaoYunfeng,YuZhenting,HuYating.Fastmicrowave-assistedcatalyticco-pyrolysisofstrawandsoapstockforbio-oilproduction[J].JournalofAnalyticalandAppliedPyrolysis,2017,124:35-41.
[39].DaiLeilei,FanLiangliang,LiuYuhuan,RuanRoger,WangYunpu*,ZhouYue,ZhaoYunfeng,YuZhenting.Productionofbio-oilandbiocharfromsoapstockviamicrowave-assistedco-catalyticfastpyrolysis[J].BioresourceTechnology,2017,225:1-8.
[40].DaiLeilei,FanLiangliang,RuanRoger,WangYunpu*,LiuYuhuan,ZhouYue,ZhaoYunfeng,YuZhenting.Microwave-assistedcatalyticfastco-pyrolysisofsoapstockandwastetireforbio-oilproduction[J].JournalofAnalyticalandAppliedPyrolysis,2017,125:304-309.
[41].DaiLeilei,FanLiangliang,DuanDengle,RuanRoger,WangYunpu*,LiuYuhuan,ZhouYue,YuZhenting,LiuYuezhen,JiangLin.Productionofhydrocarbon-richbio-oilfromsoapstockviafastmicrowave-assistedcatalyticpyrolysis[J].JournalofAnalyticalandAppliedPyrolysis,2017,125:356-362.
[42].DuanDengle,ZhaoYunfeng,FanLiangliang,DaiLeilei,LvJiaqian,RuanRoger,WangYunpu*,Liu,Yuhuan.Low-PowerMicrowaveRadiation-assistedDepolymerizationofEthanolOrganosolvLignininEthanol/FormicAcidMixtures[J].BIORESOURCES,2017,12(3):5308-5320.
[43].FanLiangliang,RuanLongsheng,LiuYuhuan,WangYunpu*,TuChunming,ZouHuifang,Liuming.Effectsofextractionconditionsonthecharacteristicsofethanolorganosolvligninfrombamboo(PhyllostachyspubescensMazel[J].BioResources,2015,10(4):7998-8013.
[44].WangYunpu,LiuYuhuan,WangYingkuan,Zhupuqi,RuanRoger,WanYiqin.Designandapplicationofhighefficiencylowtarbiomassgasifier[J].InternationalAgriculturalEngineeringJournal.2015,24(4):104-109(EI)
[45].王允圃,刘玉环,阮榕生,万益琴,张锦胜,彭红.微波裂解硬脂酸钠脱羧成烃机理研究[J].化学学报,2012,(02):114-120.(SCI)
[46].王允圃,程方园,刘玉环,阮榕生,刘英语,马雯,杨倩,黄伊宁.乌桕油皂微波催化快速裂解制备可再生燃油研究[J].林产化学与工业,2015,35(5):53-57.(EI)
[47].王允圃,黄燕燕,戴磊磊,RogerRuan,刘玉环,王小亮.废弃植物油脂与废聚乙烯塑料共裂解制备烃类燃料研究[J].农业机械学报,2016,47(1):177-181(EI)
[48].王允圃,刘玉环,阮榕生,陈伟光,万益琴.微波吸收剂辅助吸波快速热解稻壳气化特性研究[J].化工进展,2015,34(8):3183-3187(EI)
[49].王允圃,刘玉环,阮榕生,温平威,马雯,万益琴.不同碱金属乌桕油皂微波极化脱羧成烃类燃料的工艺[J].化工进展,2014,33(03):638-642.(EI)
[50].王允圃,刘玉环,阮榕生,温平威,姚远,万益琴,刘英语,程方园.微波裂解稻壳生物焦水浸出物及固体残渣的利用[J].化工进展,2014,33(04):896-899.(EI)
[51].王允圃,刘玉环,阮榕生,温平威,万益琴,张锦胜.单位质量反应物微波输出能量可控的裂解装置设计与应用[J].现代化工,2013,33(9):118-121.
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