Refrigeration systems, design technologies and developments / Donatus Alda and Davide Ciarlo, editors.
Material type:
TextSeries: Manufacturing technology researchPublisher: New York : Nova Publishers, [2013]Description: 1 online resource : illustrations (some color)Content type: - text
- computer
- online resource
- 9781624172304
- 162417230X
- 621.5/6 23
- TP492
| Item type | Home library | Collection | Call number | Materials specified | Status | Date due | Barcode | |
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Electronic-Books
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OPJGU Sonepat- Campus | E-Books EBSCO | Available |
Includes bibliographical references and index.
Description based on print version record.
REFRIGERATION SYSTEMS, DESIGN TECHNOLOGIES AND DEVELOPMENTS ; REFRIGERATION SYSTEMS, DESIGN TECHNOLOGIES AND DEVELOPMENTS ; CONTENTS ; PREFACE ; ADSORPTION REFRIGERATION; ABSTRACT ; 1. INTRODUCTION; 2. ADSORPTION REFRIGERATION CYCLE ; 3. ADSORPTION REFRIGERATION CYCLES ; 3.1. Simple Two-Bed Adsorption Refrigeration Cycle ; 3.2. Integrated Adsorption Refrigeration Cycle ; 3.3. Three Bed Adsorption Heat Cycle ; 3.3.1. Three Bed with Dual Evaporator Adsorption Refrigeration Cycle ; 3.4. Multi-Stages Adsorption Refrigeration Cycle ; 4. ADSORBENTS ; 4.1. Physical Adsorbents ; 4.1.1. Porous Carbons.
4.1.2. Mesoporous Silicates 4.1.3. Zeolites ; 4.1.4. Metalaluminophosphates ; 4.1.5. Metal Organic Frame Work ; 4.2. Chemical Adsorbents ; 4.2.1. Metal Chlorides; 4.2.2. Salt and Metal Hydrides ; 4.2.3. Metal Oxides ; 4.3. Chemical / Physical Adsorbent Composites ; 4.3.1. Hygroscopic Salts/Silica Gel Composites; 4.3.2. Chlorides / Porous Media Composite Adsorbents ; 5. REFRIGERANTS ; 6. ADSORPTION PAIRS ; 7. ADSORBENT BED DESIGN AND IMPROVEMENT TECHNIQUES ; 7.1. Adsorbent Porosity; 7.2. Pore Size ; 7.3. Granular Size; 7.4. Adsorbent / Metal Ratio ; 7.5. Heat Transfer in the Adsorbent Bed.
7.6. GRANULAR PACKED ADSORBENT BED 7.6.1. Covering the Adsorbent Particles by Polyaniline Net ; 7.6.2. Adding Metallic Particles to Adsorbent Granules ; 7.6.3. Coating the Heat Exchanger by the Adsorbent Material ; 7.6.4. Consolidated Adsorbent Bed ; 7.6.5. Adsorbent Deposition over Metallic Foam; 7.7. Adsorber Bed Configurations ; 7.7.1. Plate Heat Exchanger Adsorber ; 7.7.2. Flat Tube Adsorber Bed ; 7.7.3. Finned Tube Adsorber Bed ; 7.7.4 Spiral Heat Exchanger Adsorber Beds ; 8. APPLICATIONS OF ADSORPTION COOLINGTECHNOLOGY ; 8.1. Transport Air Conditioning ; 8.2. Ice Makers.
8.3. Energy Management in Buildings8.4. Electronic Cooling ; CONCLUSION ; REFERENCES ; HOW TO IMPROVE THE PERFORMANCE OF HEAT PUMPS IN AIR-CONDITIONING PLANTS BY USING MEMBRANE CONTACTOR DEHUMIDIFICATION/REGENERATION SYSTEMS ; ABSTRACT ; INTRODUCTON ; 1. MEMBRANE CONTACTORS; 2. EXPERIMENTAL APPARATUS AND RESULTS ; 3. MATHEMATICAL MODEL OF MEMBRANE CONTACTOR ; Air side ; Solution Side ; Air Side; Solution Side; 4. HEAT AND MASS TRANSFER THROUGH THE MEMBRANES ; 4.1. Determination of a ; 4.2. Determination of G'v ; Vapour Mass Transfer in the Gas Phase.
Vapour Mass Transfer Through the Membrane Water Mass Transfer in the Liquid Phase ; 4.3. Determination of TwB and TwA ; 5. COMPARISON BETWEEN THEORETICAL AND EXPERIMENTAL RESULTS ; 6. DESCRIPTION OF THE HYBRID AIR-CONDITIONING SYSTEM ; 7. VAPOUR-COMPRESSION HEAT PUMP ; 8. CASE STUDY ; 9. RESULTS AND DISCUSSION ; 9.1. Plant Parameters ; 9.2. Climatic Parameters ; 9.3. Contactor Parameters ; CONCLUSION ; LIST OF SYMBOLS ; REFERENCES ; CONDENSATION HEAT TRANSFER IN SMOOTH AND ENHANCED GEOMETRIES: A REVIEW OF THE RECENT LITERATURE ; ABSTRACT ; NOMENCLATURE ; 1. INTRODUCTION.
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