Ejectors and their usefulness in the energy savings /

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Boumaraf, Latra
Otros Autores: Lallemand, André, Haberschill, Philippe
Formato: Electrónico eBook
Idioma:Inglés
Publicado: New York : Nova Science Publishers, ©2010.
Colección:Energy science, engineering and technology series.
Temas:
Refrigeration and refrigerating machinery > Equipment and supplies.
Ejector pumps.
Refrigeration and refrigerating machinery > Energy consumption.
Refrigeration and refrigerating machinery > Energy conservation.
Pompes d'éjection.
Réfrigération et appareils frigorifiques > Consommation d'énergie.
Réfrigération et appareils frigorifiques > Économies d'énergie.
TECHNOLOGY & ENGINEERING > Mechanical.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • EJECTORS AND THEIR USEFULNESS IN THE ENERGY SAVINGS ; EJECTORS AND THEIR USEFULNESS IN THE ENERGY SAVINGS ; CONTENTS ; PREFACE ; AUTHORS' CONTACT INFORMATION ; NOMENCLATURE ; INTRODUCTION ; PERFORMANCE ANALYSIS OF AN EJECTOR REFRIGERATION SYSTEM ; I.1. THEORY AND OPERATING ANALYSIS OF AN EJECTOR ; I.2. EJECTOR REFRIGERATION SYSTEM ; I.3. PERFORMANCE CHARACTERISTICS ; I.3.1. Influence of the Operating Conditions ; I.3.2. Influence of the Geometry ; I.3.3. Empirical Correlations ; I.3.4. Influence of the Fluid Nature ; I.3.4.1. Pure Refrigerants.
  • I.3.4.2. Azeotropic And Non-Azeotropic Binary Mixtures I.3.4.3. Non-Azeotropic Binary Mixture with Distillation ; BEHAVIOR MODELING OF AN EJECTOR REFRIGERATION SYSTEM IN "DESIGN" AND "OFF-DESIGN" CONDITIONS; II.1. MODELING OF THE EJECTOR BEHAVIOR ; II.1.1. Ideal Gas: Case of R142b and R600a; II.1.2. Real Gas: Case of R717 ; II.2. DESIGNING AND MODELING BEHAVIOR OF AN EJECTOR REFRIGERATION SYSTEM WITH THE WORKING FLUIDS R142b AND R600a ; II.2.1. Design of the Different Components of an Ejector Refrigeration System.
  • II. 2.2. Behavior Modeling of the System Operating in Design and Off-Design Conditions PERFORMANCE IMPROVMENT OF AN EJECTOR REFRIGERATION SYSTEM AND COUPLING ; III. 1. HEAT REGENERATOR ; III. 2. ADDITION OF S MECHANICAL COMPRESSOR ; III. 2.1. The Booster Assisted Ejector System ; III. 2.2. The Hybrid Compressor-Ejector Refrigeration System; III. 3. PERFORMANCE IMPROVMENT OF A CONVENTIONAL VAPOR COMPRESSION REFRIGERATION SYSTEM BY USING AN EJECTOR ; III. 4. COUPLING OF THE EJECTOR WITH VARIOUS SYSTEMS ; III. 4.1. Solar Jet Refrigeration System.
  • III. 4.2. Hybrid Ejector-Absorption Refrigeration System ENERGETIC EFFICIENCY IMPROVMENT OF THE TRANSCRITICAL CO2 REFRIGERATION SYSTEM BY USING AN EJECTOR AS AN EXPANSION DEVICE ; IV. 1. INTRODUCTION ; IV. 2. STUDY OF AN EJECTOR-EXPANSION TRANSCRITICAL CO2 REFRIGERATION SYSTEM ; IV. 3. MATHEMATICAL MODEL ; IV. 4. RESULTS AND DISCUSSION ; CONCLUSION ; REFERENCES ; INDEX.

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