Water condensation : processes, modeling, and control /

Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Ahsan, Amimul
Formato: Electrónico eBook
Idioma:Inglés
Publicado: New York : Novinka, Nova Science Publishers, Inc., [2012]
Colección:Environmental science, engineering and technology series.
Water resource planning, development and management series.
Temas:
Water.
Condensation.
Eau.
aquatic.
condensation (process)
SCIENCE > Mechanics > Thermodynamics.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • WATER CONDENSATION ; WATER CONDENSATION ; CONTENTS ; PREFACE ; ABOUT THE EDITOR ; ACKNOWLEDGMENTS ; MODELING OF LAMINAR FILM-WISE CONDENSATION ; ABSTRACT ; NOMENCLATURE ; Greek Symbols ; SUBSCRIPTS ; Superscripts ; 1. INTRODUCTION ; 2. NUSSELT THEORY FOR LAMINAR FILM CONDENSATION ON A VERTICAL PLATE ; 2.1. Nusselt Assumptions ; 2.2. Control Volume ; 2.3. Subcooling Effect ; 2.4. Latent Heat ; 3. LAMINAR FILM CONDENSATION ON A VERTICAL PLATE WITHOUT INTERFACIAL SHEAR STRESS; 3.1. Physical Model ; 3.2. Mathematical Model ; 3.3. Nusselt Number ; 3.4. Method of Solution.
  • 3.5. Results and Discussion 4. LAMINAR FILM CONDENSATION ON A VERTICAL PLATE WITH ASSISTED INTERFACIAL SHEAR STRESS ; 4.1. Physical Model ; 4.2. Mathematical Model ; 4.3. Film Thickness ; 4.3.1. Special Case I: ; 4.3.2. Special Case II: ; 4.4. Flow Rate; 4.5. Nusselt Number; 4.5.1. Special Case I:>>1 ; 4.5.2. Special Case II: <<1 ; 4.6. Results and Discussion ; 5. LAMINAR FILM CONDENSATION ON A VERTICAL PLATE WITH ASSISTED VAPOR FLOW ; 5.1. Physical Model ; 5.2. Mathematical Model ; 5.3. Film Thickness ; 5.4. Flow Rate ; 5.5. Nusselt Number ; 5.6. Results and Discussion.
  • 6. FORCED CONVECTION LAMINAR FILM CONDENSATION ON A HORIZONTAL ELLIPTICAL TUBE6.1. Physical Model ; 6.2. Mathematical Model ; 6.3. Film Thickness ; 6.4. Nusselt Number ; 6.5. Results and Discussion; CONCLUSION ; REFERENCES ; WATER CONDENSATION AT NANOSCALE: AN ATOMIC FORCE MICROSCOPY STUDY ; ABSTRACT; 1. INTRODUCTION ; 2. THE ATOMIC FORCE MICROSCOPE ; 3. THEORY OF CAPILLARY CONDENSATION ; 3.1. Young-Laplace Equation ; 3.2. Kelvin Equation ; 3.3. Capillary Condensation at Single-Asperity Contact of Two Microscopic Solid Bodies ; 4. CAPILLARY FORCE.
  • 4.1. Dependence of the Capillary Force on Contact Curvature Radius4.2. Dependence of the Capillary Force on Air Humidity ; 4.3. Dependence of the Capillary Force on Surface Hydrophilicity ; 4.4. Dependence of the Capillary Force on the Tip Sample Distance: Probing the Water Meniscus Volume ; CONCLUSION ; REFERENCES ; RECENT ADVANCES IN THE SYNTHESIS OF HETEROCYCLIC COMPOUNDS IN AQUEOUS MEDIUM ; ABSTRACT ; INTRODUCTION; FIVE MEMBERED HETEROCYCLIC SYSTEMS ; A. Pyrazole Derivatives ; B. Imidazole Derivatives ; C. Isoxazole Derivatives ; D. Benzothiazole Derivatives.
  • E. Thiadiazole Derivatives F. Triazole Derivatives ; SIX MEMBERED HETEROCYCLIC SYSTEMS ; A. Pyridine Derivatives ; B. Pyran Related Compounds; C. Pyrimidine Derivatives ; D. Quinazoline Derivatives ; E. Benzoxazines and Benzothiazines ; F. Quinoxaline Derivatives ; G. Indolizine Derivatives ; SEVEN MEMBERED HETEROCYCLIC SYSTEMS ; A. Azepine Derivatives ; B. Diazepine Derivatives ; CONCLUSION ; ACKNOWLEDGMENTS ; REFERENCES ; THEORETICAL APPROACH OF CONDENSATION FOR SOLAR STILL ; ABSTRACT ; NOMENCLATURE ; Subscripts ; 1. INTRODUCTION ; 2. CONDENSATION ON A VERTICAL PLATE.

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