03887oam 2200709I 450 991045949490332120200520144314.00-429-14162-91-4200-6542-410.1201/9781420065428 (CKB)2670000000046926(EBL)589948(OCoLC)670283596(SSID)ssj0000425740(PQKBManifestationID)11291121(PQKBTitleCode)TC0000425740(PQKBWorkID)10369853(PQKB)11341639(MiAaPQ)EBC589948(Au-PeEL)EBL589948(CaPaEBR)ebr10419931(CaONFJC)MIL692647(OCoLC)680628569(EXLCZ)99267000000004692620180331d2011 uy 0engur|n|---|||||txtccrPorous media applications in biological systems and biotechnology /editor, Kambiz VafaiBoca Raton :Taylor & Francis,2011.1 online resource (602 p.)A CRC title.1-322-61365-6 1-4200-6541-6 Includes bibliographical references.Front cover; Contents; Preface; Editor; Contributors; Chapter 1: A General Set of Bioheat Transfer EquationsBased on the Volume Averaging Theory; Chapter 2: Mathematical Models of Mass Transferin Tissue for Molecular Medicine with Reversible Electroporation; Chapter 3: Hydrodynamics in Porous Media with Applications to Tissue Engineering; Chapter 4: Biomedical Implications of the Porosity of Microbial Biofilms; Chapter 5: Influence of Biofilms on Porous Media Hydrodynamics; Chapter 6: Using Porous Media Theory to Determinethe Coil Volume Needed to Arrest Flow in Brain AneurysmsChapter 7: Lagrangian Particle Methods for Biological SystemsChapter 8: Passive Mass Transport Processes in CellularMembranes and their Biophysical Implications; Chapter 9: Skin Electroporation: Modeling Perspectives; Chapter 10: Application of Porous Media Theories in Marine Biological Modeling; Chapter 11: The Transport of Insulin-Like Growth Factor through Cartilage; Chapter 12: Biotechnological and BiomedicalApplications of Magnetically Stabilized and Fluidized Beds; Chapter 13: In Situ Characterizations of Porous Mediafor Applications in Biofuel Cells: Issues and ChallengesChapter 14: Spatial Pattern Formation of MotileMicroorganisms: From GravitacticBioconvection to Protozoan Culture DynamicsBack coverPresenting state-of-the-art research advancements, Porous Media: Applications in Biological Systems and Biotechnology explores innovative approaches to effectively apply existing porous media technologies to biomedical applications. In each peer-reviewed chapter, world-class scientists and engineers collaborate to address significant problems and discuss exciting research in biological systems.The book begins with discussions on bioheat transfer equations for blood flows and surrounding biological tissue, the concept of electroporation, hydrodynamic modeling oBiomedical materialsBiotechnologyMaterialsPorous materialsFluid dynamicsPorous materialsThermal propertiesTissue engineeringBiofilmsElectronic books.Biomedical materials.BiotechnologyMaterials.Porous materialsFluid dynamics.Porous materialsThermal properties.Tissue engineering.Biofilms.610.28/4Vafai K(Kambiz)881921FlBoTFGFlBoTFGBOOK9910459494903321Porous media2469319UNINA