研究论文性能进行了表征,探究了串珠纤维对静电纺纤维复合滤纸结构和性能的影响。3.1
基材复合静电纺串珠纤维层和纳米纤维层后,初始过滤阻力从44Pa分别增加至48、49Pa,过滤效率从10.1%分别提高至73.1%和38.2%,串珠纤维对滤纸过滤效率的提高作用大于无串珠的纳米纤维。3.2
相同容尘性能测试条件下,串珠纤维使静电纺串珠纤维复合滤纸阻力上升速度比静电纺纳米纤维复合滤纸慢。达到相同终止阻力时,静电纺串珠纤维复合滤纸的作用时间更长、容尘量更大,静电纺串珠纤维复合滤纸和静电纺纳米纤维复合滤纸的容尘量分别为119.29g/m和96.23g/m。
参
[1]陈
健,贾峰峰,谢
2
2
OptimizationofPolymerNanofiberforApplicationsinAerosol75(3):340-345.
程,陈
ParticleFiltration[J].SeparationandPurificationTechnology,2010,[8]陈
昀,曹建华,等.静电纺纳米纤维/串珠纤维在低阻
[9]HUANGJJ,TIANYX,WANGR,etal.FabricationofBead-on-stringPolyacrylonitrileNanofibrousAirFilterswithSuperiorPurificationTechnology,doi:10.1016/j.seppur.2019.116377.FiltrationEfficiencyandUltralowPressureDrop[J].Separationand[10]KIMSC,KANGS,LEEH,etal.NanofiberFilterPerformance
[J].AerosolandAirQualityResearch,2020,20(1):80-88.
[11]于
Improvement:NanofiberLayerUniformityandBranchedNanofiber
PlasticsApplication,2015,43(10):18-22.
BeadedFibersinLowResistanceFilterMaterials[J].Engineering
CHENC,CHENY,CAOJH,etal.ApplicationofNanofibers/
力过滤材料中的应用[J].工程塑料应用,2015,43(10):18-22.
晴.静电纺丝法制备聚苯乙烯复合膜的研究[D].哈尔滨:
考文献
哈尔滨工程大学,2018.
璠,等.芳纶纳米纤维及其复合材料研究
YUQ.PreparationofPolystyreneCompositeMembranebyElectros⁃2018.
CHENJ,JIAFF,XIEF,etal.ResearchProgressofAramidNano⁃fibersandTheirCompositeMaterials[J].TransactionsofChinaPulpandPaper,2020,35(3):80-87.
TinyDiametersforAirFiltrationviaOne-StepElectrospinning[J].JournalofIndustrialTextiles,doi:10.1177/1528083720923773.
进展[J].中国造纸学报,2020,35(3):80-87.
pinningTechnology[D].Harbin:HarbinEngineeringUniversity,
[12]杨振威,梁
云,胡
健,等.玻璃棉直径对空气过滤纸过滤性
[2]ZAAROURB,TINAH,ZHUL,etal.BranchedNanofiberswith
ametersonFiltrationPerformanceofAirFilterPaper[J].Paperand
[13]PRZEKOPR,GRADOŃL.
PaperMaking,2014,33(4):22-25.
NanoparticlesintheCompositesofNano-andMicrosizedFibers
云,唐
敏,等.两种超细纤维复合空气过滤纸的
DepositionandFiltrationof
YANGZW,LIANGY,HUJ,etal.InfluenceofGlassFiberDi⁃
能的影响[J].纸和造纸,2014,33(4):22-25.
[3]DUQ,WANGN,LIUW,etal.PreparationofElectrospunPVDF
NanofiberCompositeFilterMediumandItsApplicationinAirFiltration[J].PaperandBiomaterials,2019,4(1):26-33.
[J].AerosolScience&Technology,2008,42(6):483-493.
[14]杨家喜,梁
[4]HEKMATIAH,RASHIDIA,GHAZISAEIDIR,etal.Effectof
NeedleLength,ElectrospinningDistance,andSolutionConcen⁃trationonMorphologicalPropertiesofPolyamide-6Electrospun1466.
结构与性能研究[J].造纸科学与技术,2017,36(2):8-14+18.
Nanowebs[J].TextileResearchJournal,2013,83(14):1452-[5]ZAATARIM,NOVOSELACA,SIEGELJ.TheRelationship
betweenFilterPressureDrop,IndoorAirQuality,andEnergyConsu⁃2014,73:151-161.
YANGJX,LIANGY,TANGM,etal.StudyontheStructureandper[J].PaperScience&Technology,2017,36(2):8-14+18.
PropertiesofTwoKindsofUltrafineFiberCompositeAirFilterPa⁃
[15]JAPUNTICHDA,STENHOUSEJIT,LIUBYH.Experimental
[J].JournalofAerosolScience,1994,25(2):385-393.
[16]余
娇,王
研究[J].中国造纸,2021,40(3):27-34.
ResultsofSolidMonodisperseParticleCloggingofFibrousFilters
mptioninRooftopHVACUnits[J].BuildingandEnvironment,
迪,孙召霞,等.微纳米纤维复合滤纸的过滤性能
[6]TIANEZ,GAOYL,MOJH.ElectrostaticallyAssistedAirCoarse
PerformanceinRealEnvironmentandInfluencingFactors[J].BuildingandEnvironment,doi:10.1016/j.buildenv.2019.106348.
FiltrationforEnergyEfficientAmbientParticlesRemoval:Long-term
YUJ,WANGD,SUNZX,etal.StudyonFiltrationPerformanceof2021,40(3):27-34.CPPMicro/Nano-fiberCompositeFilterPaper[J].ChinaPulp&Paper,
[7]YUNKM,SURYAMASAB,ISKANDARF,etal.Morphology(责任编辑:黄举)
·消息·
2020年度中国轻工业造纸行业十强企业
玖龙纸业(控股)有限公司山东晨鸣纸业集团股份有限公司华泰集团有限公司
山东太阳控股集团有限公司理文造纸有限公司
山鹰国际控股股份公司广西金桂浆纸业有限公司宁波亚洲浆纸业有限公司金东纸业(江苏)股份有限公司中国纸业投资有限公司
·14·
ChinaPulp&PaperVol.40,No.9,2021
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