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Water (R718) turbo compressor and ejector refrigeration/heat pump technology

紀錄類型:	書目-電子資源 : Monograph/item
正題名/作者:	Water (R718) turbo compressor and ejector refrigeration/heat pump technology/ Milan N. Šarevski, Vasko N. Šarevski.
作者:	Šarevski, Milan N.,
其他作者:	Šarevski, Vasko N.,
出版者:	Cambridge, MA :Butterworth-Heinemann, : 2016.,
面頁冊數:	1 online resource :ill.
內容註:	Machine generated contents note: 1. Introductory Concepts -- 1.1. Subject of this publication -- 1.2. Water (R718) turbo compressor and ejector refrigeration/heat pump systems -- past, present, and future development -- 1.3. Purpose of the investigations -- 2. Water (R718) Centrifugal Compressors -- 2.1. Introduction -- 2.2. Main parameters of centrifugal compressors -- 2.3. Optimal geometry and design of the flow field -- 2.4. Flow characteristics, modeling, and simulations -- 2.5. Performance characteristics -- 2.6. Influence of the refrigerant thermodynamic properties on some refrigeration turbo compressor characteristics -- 2.7. Characteristics of water (R718) centrifugal compressors -- 2.8. Conclusions -- 2.9. Open-ended design problems and further research studies -- References -- 3. Water (R718) Ejectors -- 3.1. Introduction -- 3.2. Main characteristics and parameters of vapor and two-phase ejectors -- 3.3. Flow characteristics, modeling, and simulations.
內容註:	Note continued: 3.4. Calculating procedure for vapor and two-phase ejectors -- 3.5. Optimal geometry and design of the ejector flow field -- 3.6. Performance characteristics of the ejectors in variable operating conditions -- 3.7. Conclusions -- 3.8. Open-ended design problems and further research studies -- References -- 4. Application of Turbo Thermocompression in Thermal Engineering Systems -- 4.1. Introduction -- 4.2. Single-stage and multistage concentrating plants -- 4.3. Industrial concentrators with turbo thermocompression -- 4.4. High-temperature heat pumps with turbo thermocompression -- 4.5. Conclusions -- 4.6. Open-ended design problems and further research studies -- References -- 5. Application of Ejector Thermocompression in Industrial Thermal Engineering Systems -- 5.1. Introduction -- 5.2. Steam ejector vacuum systems -- 5.3. Water two-phase ejector vacuum systems -- 5.4. Industrial closed steam -- condensate thermal engineering systems with ejector thermocompression.
內容註:	Note continued: 5.5. Industrial concentrators with ejector thermocompression -- 5.6.A sodium hydroxide (NaOH) industrial concentrator with ejector thermocompression -- 5.7. An experimental grape vacuum concentrator with ejector thermocompression -- 5.8. Conclusions -- 5.9. Open-ended design problems and further research studies -- References -- 6. Ejector Refrigeration/Heat Pump Systems -- 6.1. Introduction -- 6.2. Simple vapor ejector refrigeration cycle -- 6.3.Combined compressor -- ejector refrigeration systems -- 6.4. Polygeneration combined compressor -- ejector refrigeration systems -- 6.5.Compressor refrigeration systems with two-phase ejectors for reduction of the throttling losses -- 6.6.A novel water (R718) two-phase ejector refrigeration and heat pump systems -- 6.7. Conclusions -- 6.8. Open-ended design problems and further research studies -- References -- 7. Water (R718) Turbo Compressor Refrigeration/Heat Pump Systems -- 7.1. Introduction.
內容註:	Note continued: 7.2. Description, design, and performance characteristics of R718 centrifugal refrigeration systems -- 7.3. Description, design, and performance characteristics of R718 centrifugal heat pump systems -- 7.4. Conclusions -- 7.5. Open-ended design problems and further research studies -- References -- 8. Novel Combined Water (R718) Refrigeration Systems with Single-Stage Centrifugal Compressor and Two-Phase Ejectors -- 8.1. Introduction -- 8.2. Description of the novel combined (R718) refrigeration systems with single-stage centrifugal compressor and two-phase condensing ejectors -- 8.3. Thermal and performance characteristics of the novel combined (R718) refrigeration systems with single-stage centrifugal compressor and two-phase condensing ejectors -- 8.4. Conclusions -- 8.5. Open-ended design problems and further research studies -- References -- 9. Main Conclusions of This Publication.
標題:	Refrigeration and refrigerating machinery. -
電子資源:	https://www.sciencedirect.com/science/book/9780081007334
ISBN:	9780081007341 (electronic bk.)

Water (R718) turbo compressor and ejector refrigeration/heat pump technology
Šarevski, Milan N.,

Water (R718) turbo compressor and ejector refrigeration/heat pump technology[electronic resource] /Milan N. Šarevski, Vasko N. Šarevski. - Cambridge, MA :Butterworth-Heinemann,2016. - 1 online resource :ill.

Includes bibliographical references and index.

Machine generated contents note: 1. Introductory Concepts -- 1.1. Subject of this publication -- 1.2. Water (R718) turbo compressor and ejector refrigeration/heat pump systems -- past, present, and future development -- 1.3. Purpose of the investigations -- 2. Water (R718) Centrifugal Compressors -- 2.1. Introduction -- 2.2. Main parameters of centrifugal compressors -- 2.3. Optimal geometry and design of the flow field -- 2.4. Flow characteristics, modeling, and simulations -- 2.5. Performance characteristics -- 2.6. Influence of the refrigerant thermodynamic properties on some refrigeration turbo compressor characteristics -- 2.7. Characteristics of water (R718) centrifugal compressors -- 2.8. Conclusions -- 2.9. Open-ended design problems and further research studies -- References -- 3. Water (R718) Ejectors -- 3.1. Introduction -- 3.2. Main characteristics and parameters of vapor and two-phase ejectors -- 3.3. Flow characteristics, modeling, and simulations.

Water (R718) Turbo Compressor and Ejector Refrigeration/Heat Pump Technology provides the latest information on efficiency improvements, a main topic in recent investigations of thermal energy

ISBN: 9780081007341 (electronic bk.)Subjects--Topical Terms:

660363
Refrigeration and refrigerating machinery.
Index Terms--Genre/Form:

542853
Electronic books.

LC Class. No.: TP491

Dewey Class. No.: 621.5/64

Water (R718) turbo compressor and ejector refrigeration/heat pump technology
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245 1 0 $a Water (R718) turbo compressor and ejector refrigeration/heat pump technology $h [electronic resource] / $c Milan N. Šarevski, Vasko N. Šarevski.
260 $a Cambridge, MA : $b Butterworth-Heinemann, $c 2016.
300 $a 1 online resource : $b ill.
504 $a Includes bibliographical references and index.
505 0 $a Machine generated contents note: 1. Introductory Concepts -- 1.1. Subject of this publication -- 1.2. Water (R718) turbo compressor and ejector refrigeration/heat pump systems -- past, present, and future development -- 1.3. Purpose of the investigations -- 2. Water (R718) Centrifugal Compressors -- 2.1. Introduction -- 2.2. Main parameters of centrifugal compressors -- 2.3. Optimal geometry and design of the flow field -- 2.4. Flow characteristics, modeling, and simulations -- 2.5. Performance characteristics -- 2.6. Influence of the refrigerant thermodynamic properties on some refrigeration turbo compressor characteristics -- 2.7. Characteristics of water (R718) centrifugal compressors -- 2.8. Conclusions -- 2.9. Open-ended design problems and further research studies -- References -- 3. Water (R718) Ejectors -- 3.1. Introduction -- 3.2. Main characteristics and parameters of vapor and two-phase ejectors -- 3.3. Flow characteristics, modeling, and simulations.
505 0 $a Note continued: 3.4. Calculating procedure for vapor and two-phase ejectors -- 3.5. Optimal geometry and design of the ejector flow field -- 3.6. Performance characteristics of the ejectors in variable operating conditions -- 3.7. Conclusions -- 3.8. Open-ended design problems and further research studies -- References -- 4. Application of Turbo Thermocompression in Thermal Engineering Systems -- 4.1. Introduction -- 4.2. Single-stage and multistage concentrating plants -- 4.3. Industrial concentrators with turbo thermocompression -- 4.4. High-temperature heat pumps with turbo thermocompression -- 4.5. Conclusions -- 4.6. Open-ended design problems and further research studies -- References -- 5. Application of Ejector Thermocompression in Industrial Thermal Engineering Systems -- 5.1. Introduction -- 5.2. Steam ejector vacuum systems -- 5.3. Water two-phase ejector vacuum systems -- 5.4. Industrial closed steam -- condensate thermal engineering systems with ejector thermocompression.
505 0 $a Note continued: 5.5. Industrial concentrators with ejector thermocompression -- 5.6.A sodium hydroxide (NaOH) industrial concentrator with ejector thermocompression -- 5.7. An experimental grape vacuum concentrator with ejector thermocompression -- 5.8. Conclusions -- 5.9. Open-ended design problems and further research studies -- References -- 6. Ejector Refrigeration/Heat Pump Systems -- 6.1. Introduction -- 6.2. Simple vapor ejector refrigeration cycle -- 6.3.Combined compressor -- ejector refrigeration systems -- 6.4. Polygeneration combined compressor -- ejector refrigeration systems -- 6.5.Compressor refrigeration systems with two-phase ejectors for reduction of the throttling losses -- 6.6.A novel water (R718) two-phase ejector refrigeration and heat pump systems -- 6.7. Conclusions -- 6.8. Open-ended design problems and further research studies -- References -- 7. Water (R718) Turbo Compressor Refrigeration/Heat Pump Systems -- 7.1. Introduction.
505 0 $a Note continued: 7.2. Description, design, and performance characteristics of R718 centrifugal refrigeration systems -- 7.3. Description, design, and performance characteristics of R718 centrifugal heat pump systems -- 7.4. Conclusions -- 7.5. Open-ended design problems and further research studies -- References -- 8. Novel Combined Water (R718) Refrigeration Systems with Single-Stage Centrifugal Compressor and Two-Phase Ejectors -- 8.1. Introduction -- 8.2. Description of the novel combined (R718) refrigeration systems with single-stage centrifugal compressor and two-phase condensing ejectors -- 8.3. Thermal and performance characteristics of the novel combined (R718) refrigeration systems with single-stage centrifugal compressor and two-phase condensing ejectors -- 8.4. Conclusions -- 8.5. Open-ended design problems and further research studies -- References -- 9. Main Conclusions of This Publication.
520 $a Water (R718) Turbo Compressor and Ejector Refrigeration/Heat Pump Technology provides the latest information on efficiency improvements, a main topic in recent investigations of thermal energy
520 $a Water (R718) Turbo Compressor and Ejector Refrigeration/Heat Pump Technology provides the latest information on efficiency improvements, a main topic in recent investigations of thermal energy machines, plants, and systems that include turbo compressors, ejectors, and refrigeration/heat pump systems. This, when coupled with environmental concerns, has led to the application of eco-friendly refrigerants and to a renewed interest in natural refrigerants. Within this context, readers will find valuable information that explores refrigeration and heat pump systems using natural refrigerants, polygeneration systems, the energy efficiency of thermal systems, the utilization of low temperature waste heat, and cleaner production. The book also examines the technical, economic, and environmental reasons of R718 refrigeration/heat pump systems and how they are competitive with traditional systems, serving as a valuable reference for engineers who work in the design and construction of thermal plants and systems, and those who wish to specialize in the use of R718 as a refrigerant in these systems.
588 0 $a Print version record.
650 0 $a Refrigeration and refrigerating machinery. $3 660363
650 0 $a Compressors. $3 816022
655 4 $a Electronic books. $2 lcsh $3 542853
700 1 $a Šarevski, Vasko N., $e author. $3 3462932
856 4 0 $u https://www.sciencedirect.com/science/book/9780081007334