Refrigeration_Technology(制冷技术)

. 　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