04782nam 2200649Ia 450 991081046190332120240410165250.01-60741-401-5(CKB)1000000000786410(EBL)3018367(SSID)ssj0000224580(PQKBManifestationID)12066854(PQKBTitleCode)TC0000224580(PQKBWorkID)10210955(PQKB)11524108(MiAaPQ)EBC3018367(Au-PeEL)EBL3018367(CaPaEBR)ebr10660228(OCoLC)429915015(EXLCZ)99100000000078641020081027d2009 uy 0engur|n|---|||||txtccrPorous media[electronic resource] heat and mass transfer, transport and mechanics /Jose Luis Acosta and Andres Felipe Camacho, editors1st ed.New York Nova Science Publishersc20091 online resource (267 p.)Description based upon print version of record.1-60692-437-0 Includes bibliographical references and index.""POROUS MEDIA: HEAT AND MASSTRANSFER, TRANSPORT ANDMECHANICS""; ""NOTICE TO THE READER""; ""CONTENTS""; ""PREFACE""; ""MODELING REACTIVE TRANSPORT DRIVENBY SCALE DEPENDENT SEGREGATION""; ""ABSTRACT""; ""INTRODUCTION""; ""SEGREGATION""; ""SEGREGATION IN URBAN ATMOSPHERIC MODELING""; ""REACTIVE TRANSPORT AND FLOW MODELING""; ""THE TRANSPORT EQUATION""; ""TRANSPORT MODELING""; ""BIMOLECULAR REACTIVE TRANSPORT""; ""NUMERICAL SIMULATIONS""; ""SEGREGATION INTENSITY MODEL""; ""APPLYING THE MODEL: EXAMPLES AND DISCUSSION""; ""REFERENCES""""INDUCED POROELASTIC AND THERMOELASTICSTRESS CHANGES WITHIN RESERVOIRS DURINGFLUID INJECTION AND PRODUCTION""""ABSTRACT""; ""1. INTRODUCTION""; ""2. STRESS CHANGE MEASUREMENT""; ""STRESS ARCHING EFFECTS""; ""3.1. Introduction""; ""3.2. Poroelastic Arching Ratios""; ""3.3. Thermoelastic Arching Ratios""; ""4. INDUCED STRESS CHANGE MODELING""; ""4.1. Background""; ""4.2. Elasticity Field Equations""; ""4.3. Theory of Strain Nuclei""; ""4.4. Theory of Inclusions""; ""5. THEORY OF INHOMOGENEITIES""; ""6. CASE STUDY: EKOFISK OIL FIELD""; ""6.1. Reservoir Characteristics""""6.2. Geomechanical Properties""""6.3. Induced Stress Change Analysis""; ""7. CONCLUSION""; ""8. NOMENCLATURE""; ""REFERENCES""; ""POROUS HYDROGELS""; ""ABSTRACT""; ""ABBREVIATIONS""; ""1. INTRODUCTION""; ""2. CLASSIFICATION OF THE POROUS HYDROGELS BY PORE SIZE""; ""3. PREPARATIVE METHODS FOR POROUS HYDROGELS""; ""3.1. Crosslinking Polymerization in the Presence of Substances that AreSolvents for Monomers, but Precipitants for Formed Polymer""""3.2. Crosslinking Polymerization in Presence of Soluble Substances(Particles of Sugars, Salts) which Are Washed out from theHydrogel after Polymerization""""3.3. Crosslinking Polymerization in the Presence of SubstancesReleasing Gases which Remain in the Resulting Hydrogel""; ""3.4. Freeze-Sublimation of the Hydrogel Swollen in Water(Lyophilization of Swollen Hydrogel)""; ""4. CHARACTERIZATION OF POROUS HYDROGELS""; ""4.1. Mercury Porosimetry""; ""4.2. BET Surfeace Area Measurements""; ""4.3. Scanning Electron Microscopy (SEM)""; ""4.4. Confocal Microscopy""; ""4.5. Diffusion Properties""""4.6. Mechanical Properties""""5. MODIFICATION OF POROUS HYDROGELS""; ""6. AUTHORÂ?S EXPERIENCE WITH POROUS HYDROGELSPREPARED IN THE PRESENCE OF POROGEN PARTICLES""; ""6.1. Porous Hydrogels (According to 3.2.) for Tissue Engine""; ""6.2. Characterization of the Porous Hydrogels Prepared According to 3.2""; ""6.3. Characterization of through-Flow Properties of the Hydrogelswith Communicating Pores""; ""7. PERSPECTIVE""; ""ACKNOWLEDGMENTS""; ""8. REFERENCES""; ""MONTE CARLO SIMULATIONS FOR THE STUDY OFDIFFUSION-LIMITED DRUG RELEASEFROM POROUS MATRICES""; ""ABSTRACT""; ""INTRODUCTION""""SOME DRUG RELEASE KINETIC EQUATIONS""DiffusionMathematical modelsHeatTransmissionMathematical modelsPorous materialsIndustrial applicationsPorous materialsMechanical propertiesDiffusionMathematical models.HeatTransmissionMathematical models.Porous materialsIndustrial applications.Porous materialsMechanical properties.620.1/169Acosta Jose Luis1703064Camacho Andres Felipe1703065MiAaPQMiAaPQMiAaPQBOOK9910810461903321Porous media4087999UNINA