Exergy : performance, technologies, and applications /

Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Duncan, Marlene (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Hauppauge, New York : Nova Science Publishers, Inc., [2015]
Colección:Energy science, engineering and technology series.
Temas:
Power resources.
Energy consumption.
Exergy.
Energy-Generating Resources
Ressources énergétiques.
Exergie.
energy resources.
TECHNOLOGY & ENGINEERING > Mechanical.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • EXERGY PERFORMANCE, TECHNOLOGIES AND APPLICATIONS ; EXERGY PERFORMANCE, TECHNOLOGIES AND APPLICATIONS ; CONTENTS ; PREFACE ; Chapter 1 EXERGY ANALYSIS OF DESALINATION SYSTEMS ; ABSTRACT ; INTRODUCTION ; Energy, Exergy and Entropy Relationship ; Importance and Implications of Exergy in Process Design; DESALINATION PROCESSES AND OPERATION PRINCIPLES ; Multi-Stage Flash Distillation (MSF) ; Multi-Effect Evaporation/Distillation (MED) ; Vapor Compression (M/TVC) ; Solar Distillation (SD) ; Desalination Efficiency ; Reverse Osmosis (RO) ; Electrodialysis (ED) ; Membrane Distillation (MD).
  • ENERGY AND EXERGY ANALYSIS OF DESALINATION PROCESSESFirst Law of Thermodynamics ; Exergy Analysis ; CASE STUDIES FOR EXERGY PERFORMANCE ANALYSES ; MSF Desalination ; Reverse Osmosis Membrane Process ; Integrated Membrane Systems ; Solar Stills ; Membrane Distillation ; APPENDIX ; Subscripts ; REFERENCES ; CONCLUSION; Chapter 2 EXERGY ANALYSIS OF INDOOR ENVIRONMENT AND IMPACT ON THERMAL COMFORT ; ABSTRACT ; 1. INTRODUCTION ; 2. MOTIVATION AND METHOD ; 3. HUMAN BODY AND SECOND LAW OF THERMODYNAMICS; 4. EXERGY ANALYSIS OF HUMAN BODY HEAT AND MASS TRANSFER.
  • 4.1. Conduction between the Core and the Skin Compartment 4.2. Blood Flow between the Core and the Skin Compartment ; 4.3. Thermal Radiation ; 4.4. Sensible Heat Transfer from the Skin Surface ; 4.5. Water Perfusion and Sweating ; 4.6. Convective Heat and Mass Transfer between Skin and the Environment ; 4.7. Breathing ; 5. CASE STUDY ; 5. RESULTS AND DISCUSSION ; CONCLUSION ; Nomenclature ; Greek Symbols ; Subscripts ; REFERENCES ; Chapter 3 EXERGY ANALYSIS OF BIOREFINERY PROCESSES ; ABSTRACT ; INTRODUCTION ; 1. BIOREFINERY CONCEPT ; 1.1. Classification of the Various Biomass.
  • 1.2. The Integrated Biorefineries 1.3. Processes in Biorefineries ; Mechanical Processing ; Thermochemical Processing ; Biochemical Processing ; Chemical Processing ; 2. LIGNOCELLULOSE ; 3. EXERGY ANALYSIS ; 3.1. Definition of Exergy ; 3.2. Reference Environment ; 3.3. Physical Exergy ; 3.4. Chemical Exergy ; 3.5. Exergy of Mixture ; 3.6. Efficiency Process ; 3.7. Exergy Applications ; 3.8. Evaluation of the Environmental Impact ; 4. LIFE CYCLE ASSESSMENT; 4.1. LCA Steps; a. Goal Definition and Methodology ; b. Inventory Analysis ; c. Impact Assessment ; d. Interpretation.
  • 4.2. LCA Applications 4.3. LCA Limitations ; SUMMARY AND CONCLUSION ; REFERENCES ; Chapter 4 SYSTEM EXERGY ANALYSIS OF AN OXY-FUEL COMBUSTION POWER PLANT INTEGRATED WITH CO2 CAPTURE, TRANSPORT AND STORAGE ; ABSTRACT ; INTRODUCTION ; OXY-FUEL COMBUSTION TECHNOLOGY ; INTEGRATED OFC POWER PLANT AS A LARGE ENERGY SYSTEM ; SYSTEM EXERGY ANALYSIS ; Mathematical Modelling of Direct Exergy Balance ; Mathematical Modelling of Cumulative Exergy Consumption ; Analysis of Cumulative Exergy Losses and Cumulative Degree of Thermodynamic Perfection.

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