LEADER 06041nam 2200433 450 001 9910583022303321 005 20230120002548.0 010 $a0-08-100582-2 035 $a(CKB)3710000001410529 035 $a(MiAaPQ)EBC4882524 035 $a(EXLCZ)993710000001410529 100 $a20170714h20172017 uy 0 101 0 $aeng 135 $aurcnu|||||||| 181 $2rdacontent 182 $2rdamedia 183 $2rdacarrier 200 00$aFibrous filter media /$fedited by Philip J. Brown, Christopher L. Cox 210 1$aCambridge, Massachusetts :$cWoodhead Publishing,$d2017. 210 4$dİ2017 215 $a1 online resource (318 pages) $cillustrations 225 1 $aTextile Institute Book Series 311 $a0-08-100573-3 320 $aIncludes bibliographical references and index. 327 $aMachine generated contents note:$gpt. I$tPrinciples of Fibrous Filtration --$g1.$tGas filtration /$rThad J. Ptak --$g1.1.$tIntroduction --$g1.2.$tHistory of air filters --$g1.3.$tPrinciples of gas filtration --$g1.4.$tFilters for solid -- gas separation --$g1.5.$tConclusions --$tReferences --$g2.$tIndustrial liquid filtration equipment /$rNicholas P. Cheremisinoff --$g2.1.$tIntroduction --$g2.2.$tDefining solids --$g2.3.$tGlossary of filtration terms --$g2.4.$tFilter presses --$g2.5.$tBelt filter presses --$g2.6.$tRotary drum filters --$tFurther reading --$g3.$tFibrous filtration of liquid aerosols /$rBenjamin J. Mullins --$g3.1.$tIntroduction --$g3.2.$tExperimental studies of whole filters --$g3.3.$tParticle (droplet) capture and single fiber efficiency --$g3.4.$tFilter efficiency and penetration --$g3.5.$tPressure drop and saturation models --$g3.6.$tIterative models --$g3.7.$tFiber wetting and single fiber studies --$g3.8.$tCapillarity --$g3.9.$tColloid aerosols --$g3.10.$tVisualization --$g3.11.$tSimulation --$g3.12.$tConclusion --$tReferences --$g4.$tThe charging and stability of electret filters /$rBehnam Pourdeyhimi --$g4.1.$tIntroduction --$g4.2.$tElectrets --$g4.3.$tElectret filters --$g4.4.$tBasic electret characteristics --$g4.5.$tMethods for producing electret filters --$tReferences --$tFurther reading --$gpt. II$tTypes of Fibrous Filters --$g5.$tKnitted fibrous filter media /$rWolfgang Heikamp --$g5.1.$tIntroduction --$g5.2.$tStructure and application --$g5.3.$tPressure drop and efficiency --$g5.4.$tMist eliminator-specific research --$g5.5.$tSummary and conclusion --$tReferences --$g6.$tNonwoven fabric filters /$rNingtao Mao --$g6.1.$tIntroduction --$g6.2.$tFiber types and processing for nonwoven fabric filters --$g6.3.$tFiltration mechanism of nonwoven fabrics and their filter efficiency --$g6.4.$tApplications of nonwoven fabric filters --$g6.5.$tFuture trends --$g6.6.$tSources of further information --$tReferences --$g7.$tSimulation of filtration in shaped fiber media /$rJohn Larzelere --$g7.1.$tIntroduction --$g7.2.$tSolution methodology --$g7.3.$tResults and discussion --$g7.4.$tConclusions and continuing work --$tAcknowledgment --$tReferences --$g8.$tPlasma textiles as fibrous filter media /$rSrinivasan C. Rasipuram --$g8.1.$tIntroduction --$g8.2.$tSingle fiber theory --$g8.3.$tSingle fiber efficiency --$g8.4.$tTwo infinitely long parallel cylinders --$g8.5.$tFiltration testing of a plasma textile --$g8.6.$tFiltration efficiency results --$g8.7.$tConclusions --$tReferences --$gpt. III$tApplications of Fibrous Filters --$g9.$tNanofibers for coalescing filter media for water -- diesel separation /$rGeorge Chase --$g9.1.$tBrief review of coalescing filter media --$g9.2.$tBrief review of electrospinning --$g9.3.$tExperimental description --$g9.4.$tConclusions --$tReferences --$g10.$tAir filtration in aero engines /$rAntonio Filippone --$g10.1.$tIntroduction --$g10.2.$tHistory of the Engine Inlet Barrier Filter --$g10.3.$tEIBF design --$g10.4.$tEIBF applications --$g10.5.$tEIBF performance --$g10.6.$tEIBF performance modeling --$g10.7.$tEIBF case study --$tReferences --$g11.$tFiltration of drinking water /$rDarren Radcliffe-Oatley --$g11.1.$tIntroduction --$g11.2.$tTypes of water filter --$g11.3.$tMaterials --$g11.4.$tApplications --$g11.5.$tFuture trends --$g11.6.$tConclusion --$tReferences --$g12.$tApplication of nanofibrous membranes and their suitability for membrane bioreactor processes in wastewater treatment /$rJiri Cuhorka --$g12.1.$tIntroduction --$g12.2.$tMembrane bioreactors --$g12.3.$tNanofibrous membrane --$g12.4.$tFuture directions --$g12.5.$tConclusions --$tReferences. 330 $aFibrous Filter Media comprehensively covers the types, manufacture, applications, performance, and modeling of fibrous filter media. Part I introduces the principles of gas and liquid filtration, while Part II presents an overview of the types of fibrous filters, including details of fiber types, fabric construction, and applications. Part III covers a variety of filtration applications in which fibrous assemblies are used, with examples ranging from filtration for improving air quality, to medical filters, to industrial waste-water filtration. Finally, Part III covers the properties and performance of fibrous filters, including chapters on filter performance and simulation. With its expert editors and international team of contributors, this important book provides information on fibrous filters relevant to fiber and textile scientists, and is also ideal for academics and industry professionals working in the field of filtration. Dr. Philip Brown is Sweetenburg Professor of polymer and textile engineering at Clemson University, USA. Dr. Christopher Cox is Professor of mathematical sciences at Clemson University, USA. 410 0$aTextile Institute book series. 606 $aFilters and filtration 615 0$aFilters and filtration. 676 $a660.284245 702 $aBrown$b Philip J. 702 $aCox$b Christopher L. 801 0$bMiAaPQ 801 1$bMiAaPQ 801 2$bMiAaPQ 906 $aBOOK 912 $a9910583022303321 996 $aFibrous filter media$92190011 997 $aUNINA