06041nam 2200433 450 991058302230332120230120002548.00-08-100582-2(CKB)3710000001410529(MiAaPQ)EBC4882524(EXLCZ)99371000000141052920170714h20172017 uy 0engurcnu||||||||rdacontentrdamediardacarrierFibrous filter media /edited by Philip J. Brown, Christopher L. CoxCambridge, Massachusetts :Woodhead Publishing,2017.©20171 online resource (318 pages) illustrationsTextile Institute Book Series0-08-100573-3 Includes bibliographical references and index.Machine generated contents note:pt. IPrinciples of Fibrous Filtration --1.Gas filtration /Thad J. Ptak --1.1.Introduction --1.2.History of air filters --1.3.Principles of gas filtration --1.4.Filters for solid -- gas separation --1.5.Conclusions --References --2.Industrial liquid filtration equipment /Nicholas P. Cheremisinoff --2.1.Introduction --2.2.Defining solids --2.3.Glossary of filtration terms --2.4.Filter presses --2.5.Belt filter presses --2.6.Rotary drum filters --Further reading --3.Fibrous filtration of liquid aerosols /Benjamin J. Mullins --3.1.Introduction --3.2.Experimental studies of whole filters --3.3.Particle (droplet) capture and single fiber efficiency --3.4.Filter efficiency and penetration --3.5.Pressure drop and saturation models --3.6.Iterative models --3.7.Fiber wetting and single fiber studies --3.8.Capillarity --3.9.Colloid aerosols --3.10.Visualization --3.11.Simulation --3.12.Conclusion --References --4.The charging and stability of electret filters /Behnam Pourdeyhimi --4.1.Introduction --4.2.Electrets --4.3.Electret filters --4.4.Basic electret characteristics --4.5.Methods for producing electret filters --References --Further reading --pt. IITypes of Fibrous Filters --5.Knitted fibrous filter media /Wolfgang Heikamp --5.1.Introduction --5.2.Structure and application --5.3.Pressure drop and efficiency --5.4.Mist eliminator-specific research --5.5.Summary and conclusion --References --6.Nonwoven fabric filters /Ningtao Mao --6.1.Introduction --6.2.Fiber types and processing for nonwoven fabric filters --6.3.Filtration mechanism of nonwoven fabrics and their filter efficiency --6.4.Applications of nonwoven fabric filters --6.5.Future trends --6.6.Sources of further information --References --7.Simulation of filtration in shaped fiber media /John Larzelere --7.1.Introduction --7.2.Solution methodology --7.3.Results and discussion --7.4.Conclusions and continuing work --Acknowledgment --References --8.Plasma textiles as fibrous filter media /Srinivasan C. Rasipuram --8.1.Introduction --8.2.Single fiber theory --8.3.Single fiber efficiency --8.4.Two infinitely long parallel cylinders --8.5.Filtration testing of a plasma textile --8.6.Filtration efficiency results --8.7.Conclusions --References --pt. IIIApplications of Fibrous Filters --9.Nanofibers for coalescing filter media for water -- diesel separation /George Chase --9.1.Brief review of coalescing filter media --9.2.Brief review of electrospinning --9.3.Experimental description --9.4.Conclusions --References --10.Air filtration in aero engines /Antonio Filippone --10.1.Introduction --10.2.History of the Engine Inlet Barrier Filter --10.3.EIBF design --10.4.EIBF applications --10.5.EIBF performance --10.6.EIBF performance modeling --10.7.EIBF case study --References --11.Filtration of drinking water /Darren Radcliffe-Oatley --11.1.Introduction --11.2.Types of water filter --11.3.Materials --11.4.Applications --11.5.Future trends --11.6.Conclusion --References --12.Application of nanofibrous membranes and their suitability for membrane bioreactor processes in wastewater treatment /Jiri Cuhorka --12.1.Introduction --12.2.Membrane bioreactors --12.3.Nanofibrous membrane --12.4.Future directions --12.5.Conclusions --References.Fibrous 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.Textile Institute book series.Filters and filtrationFilters and filtration.660.284245Brown Philip J.Cox Christopher L.MiAaPQMiAaPQMiAaPQBOOK9910583022303321Fibrous filter media2190011UNINA