普通高等教育十一五國家級規劃教材·製冷技術

普通高等教育十一五國家級規劃教材·製冷技術

《普通高等教育十一五國家級規劃教材·製冷技術》為高等教育“十一五”國家級規劃教材,是國內第一本有關製冷技術的英文教材。《普通高等教育十一五國家級規劃教材·製冷技術》詳細地闡述製冷的基本技術,介紹了近20多年來製冷技術的重要發展,也適當地介紹國內外製冷行業的動態。《普通高等教育十一五國家級規劃教材·製冷技術》共13章,包括4個部分。第1部分主要介紹製冷的範疇、套用、發展歷史和國內外的學術組織和刊物。第2部分系統敘述製冷原理,討論製冷循環的熱力學分析、使工質降溫的基本方法(包括流體製冷工質和固體製冷工質)、氣體製冷循環、機械驅動和熱驅動的蒸汽壓縮製冷循環、蒸汽壓縮製冷的循環分析。第3部分詳細介紹製冷用的工質,討論了製冷循環對工質的要求,工質的物理、化學和製冷的特性;某些製冷工質破壞臭氧層和增強溫室效應的機理和程度,新的環境友好的製冷工質;同時也介紹了濕空氣學與空氣處理過程。第4部分介紹蒸汽壓縮製冷循環的主要部件和設備,包括壓縮機、冷凝器、蒸發器和流量控制部件。

基本介紹

  • 書名:普通高等教育十一五國家級規劃教材•製冷技術
  • 出版社:科學出版社
  • 頁數:295頁
  • 開本:16
  • 品牌:北京科瀚偉業
  • 作者:華澤釗
  • 出版日期:2009年4月1日
  • 語種:簡體中文
  • ISBN:9787030243041, 7030243048
內容簡介,圖書目錄,

內容簡介

《普通高等教育十一五國家級規劃教材·製冷技術》:這20多年內,製冷技術的其他方面也有了長足的發展。G-M、脈管氣體制冷機和自動復疊式混合工質制冷機已經擴展到低溫的溫區,並達到了實用階段;在熱電製冷方面,正在探索高性能指數的材料;變頻電機技術的成功及推廣、電子膨脹閥部分地替代熱力膨脹閥,使製冷系統運行更加安全有效等。 基於上述的這些情況,編者編著了《普通高等教育十一五國家級規劃教材·製冷技術》這本書,希望在講清製冷技術基本原理的前提下,適當地反映近年來製冷技術的重要發展,同時也介紹國內外製冷行業的動態。
《普通高等教育十一五國家級規劃教材·製冷技術》可作為製冷、動力、建築空調等專業的英語教材,也可供製冷、空調、動力等公司、企業的技術人員參考。

圖書目錄

Part Ⅰ Introduction
Chapter 1 Introduction to Refrigeration
1-1 A Sample of Refrigeration System——Split Room Air Conditioner
1-2 Definition and Scope of Refrigeration
1-3 Main Applications of Refrigeration
1-4 History of Refrigeration in the World
1-5 Refrigeration in China
1-6 Academic Organizations and Journals of Refrigeration in the World
1-7 Academic Organizations and Journals of Refrigeration in China
References

Part Ⅱ The Principles of Refrigeration
Chapter 2 Thermodynamic Analyses of Refrigeration Cycle
2-1 The Laws of Thermodynamics and Their Relation to Refrigeration
2-2 The Refrigeration Cycle and its Main Components
2-3 The Performance of Refrigeration System
2-4 Entropy Analyses Method of Refrigeration System
2-5 Work and Heat Operated Refrigerators
2-6 Lorenz Cycles for Variable Temperature Heat Source and Heat Sink
References

Chapter 3 Methods,of Decreasing Temperature (I)——Related to Gas and Liquid Refrigerants
3-1 Decreasing Temperature by Adiabatic Throttling——J-T Effect
3-2 Decreasing Temperature by Pressure Reduction in Two Phase Region
3-3 Decreasing Temperature by Adiabatic Expansion of Gas with Doing Work
3-4 Decreasing Temperature by Adiabatic Vortex Ranque Effect
3-5 Decreasing Temperature by Variable Mass System in Unsteady Flow
3-6 Decreasing Temperature by Thermo-Acoustic Effect
References

Chapter 4 Methods of Decreasing Temperature (II)——Related to Solid Refrigerants
4-1 Decreasing Temperature by Thermo-Electric Peltier Effect
4-2 Decreasing Temperature by Magnetocaloric Effect (Adiabatic Demagnetization)
4-3 Decreasing Temperature by Photo Method
References

Chapter 5 Vapor and Gas Refrigeration Cycles
5-1 Mechanical Powered Vapor Compression Refrigeration Cycle
5-2 Heat Powered Vapor Compression Refrigeration Cycle (1)——Vapor Absorption Refrigeration
5-3 Heat Powered Vapor Compression Refrigeration Cycle (2)——Vapor Adsorption Refrigeration
5-4 Heat Powered Vapor Compression Refrigeration Cycle (3)——Vapor Jet Refrigeration
5-5 Refrigeration Cycle by Gas Compression and Adiabatic Expansion
References

Chapter 6 Cycle Analyses of Vapor Compression Refrigeration
6-1 Single-Stage Vapor Compression Refrigeration Systems
6-2 Multi-Stage Vapor Compression Systems
6-3 Cascade Vapor Compression Systems
6-4 Auto Cascade Vapor Compression Systems
References

Part Ⅲ The Refrigerants and Other Substances for Refrigeration
Chapter 7 Introduction of Refrigerants
7-1 Refrigerant in Vapor Compression Refrigeration
7-2 Refrigeration Characteristics of Refrigerants
7-3 Some Important Physical/Chemical Properties of Refrigerants
7-4 Classification and Nomenclature of Refrigerants
7-5 Secondary Refrigerants
References

Chapter 8 Environmental Friendly Refrigerants
8-1 Ozone Depletion by CFCs in Stratosphere
8-2 Montreal Protocol and its Amendments
8-3 Greenhouse Effect and Global Warming
8-4 Kyoto Protocol
8-5 Global Warming Impacts of Refrigerants
8-6 Fluorinated Refrigerants
8-7 Environmental and Thermal Properties of Natural Refrigerants
8-8 Alternative Refrigerants
References

Chapter 9 Psychrometry and Air Processes
9-1 Composition and Thermal Properties of Moist Air
9-2 Thermal Properties of Saturated Water and Saturated Moist Air
9-3 Adiabatic Saturation Process and Wet Bulb Temperature
9-4 Approximate Calculation of the Thermal Properties of Moist Air
9-5 Psychrometric Chart
9-6 Air Handing Processes
9-7 Heat and Mass Transfer Between Moist Air and Solid Surface
References

Part Ⅳ The Equipment for Refrigeration Cycles
Chapter 10 Compressors
10-1 Main Types of Compressors
10-2 Reciprocating Compressors
10-3 Scroll Compressors
10-4 Screw Compressors
10-5 Turbo Compressors
10-6 Roller Type Compressors
10-7 Vane Type Compressors
10-8 Inverter Technology and Inverter Driven Compressors
References

Chapter 11 Condensing Equipment
11-1 Function and Classification of Condensers
11-2 Water-Cooled Condensers
11-3 Cooling Tower
11-4 Air-Cooled Condensers
11-5 Evaporative Condensers
References

Chapter 12 Evaporators
12-1 Function and Classification of Evaporators
12-2 Dry-Expansion Evaporators and Flooded Evaporators
12-3 Main Types of Evaporator Construction
12-4 Air Cooler and Spray Air Cooler
12-5 Direct and Indirect Refrigeration Systems
References

Chapter 13 Refrigerant Flow Control
13-1 Hand Expansion Valves
13-2 Capillary Tube
13-3 Thermostatic Expansion Valves-Superheat Control
13-4 Automatic Expansion Valves-Evaporator Pressure Control
13-5 Electronic Expansion Valves
13-6 The Practical Refrigeration System and its Temperature and Pressure Control
References
Index

相關詞條

熱門詞條

聯絡我們