《专业英语》课件Unit_28.pptx
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1、Unit28Air Conditioning SystemsText Air conditioning has rapidly grown over the past 50 years,from a luxury to a standard system included in most residential and commercial buildings.In 1970,36%of residences in the U.S.were either fully air conditioned or utilized a room air conditioner for cooling(B
2、lue,et al.,1979).By 1997,this number had more than doubled to 77%,and that year also marked the first time that over half(50.9%)of residences in the U.S.had central air conditioners(Census Bureau,1999).An estimated 83%of all new homes constructed in 1998 had central air conditioners(Census Bureau,19
3、99).Air conditioning has also grown rapidly in commercial buildings.From 1970 to 1995,the percentage of commercial buildings with air conditioning increased from 54 to 73%(Jackson and Johnson,1978,and DOE,1998).Air conditioning in buildings is usually accomplished with the use of mechanical or heat-
4、activated equipment In most applications,the air conditioner must provide both cooling and dehumidification to maintain comfort in the building.Air conditioning systems are also used in other applications,such as automobiles,trucks,aircraft,ships,and industrial facilities.However,the description of
5、equipment in this chapter is limited to those commonly used in commercial and residential buildings.TextCommercial buildings range from large high-rise office buildings to the corner convenience store.Because of the range in size and types of buildings in the commercial sector,there is a wide variet
6、y of equipment applied in these buildings.For larger buildings,the air conditioning equipment is part of a total system design that includes items such as a piping system,air distribution system,and cooling tower.Proper design of these systems requires a qualified engineer.The residential building s
7、ector is dominated by single family homes and low-rise apartments/condominiums.The cooling equipment applied in these buildings comes in standard“packages”that are often both sized and installed by the air conditioning contractor.figure 28.1Simplified schematic and pressure/enthalpy diagram of the v
8、apor compression cycle used in many air conditioners.TextThe chapter starts with a general discussion of the vapor compression refrigeration cycle then moves to refrigerants and their selection,followed by packaged Chilled Water Systems.1.Vapor Compression Cycle Even though there is a large range in
9、 sizes and variety of air conditioning systems used in buildings,most systems utilize the vapor compression cycle to produce the desired cooling and dehumidification.This cycle is also used for refrigerating and freezing foods and for automotive air conditioning.The first patent on a mechanically dr
10、iven refrigeration system was issued to Jacob Perkins in 1834 in London,and the first viable commercial system was produced in 1857 by James Harrison and D.E.Siebe.Besides vapor compression,there are two less common methods used to produce cooling in buildings:the absorption cycle and evaporative co
11、oling.With the vapor compression cycle,a working fluid,which is called the refrigerant,evaporates and condenses at suitable pressures for practical equipment designs.TextThe four basic components in every vapor compression refrigeration system are the compressor,condenser,expansion device,and evapor
12、ator.The compressor raises the pressure of the refrigerant vapor so that the refrigerant saturation temperature is slightly above the temperature of the cooling medium used in the condenser.The type of compressor used depends on the application of the system.Large electric chillers typically use a c
13、entrifugal compressor while small residential equipment uses a reciprocating or scroll compressor.The condenser is a heat exchanger used to reject heat from the refrigerant to a cooling medium.The refrigerant enters the condenser and usually leaves as a subcooled liquid.Typical cooling mediums used
14、in condensers are air and water.Most residential-sized equipment uses air as the cooling medium in the condenser,while many larger chillers use water.After leaving the condenser,the liquid refrigerant expands to a lower pressure in the expansion valve.The expansion valve can be a passive device,such
15、 as a capillary tube or short tube orifice,or an active device,such as a thermal expansion valve or electronic expansion valve.The purpose of the valve is toregulate the flow of refrigerant to the evaporator so that the refrigerant is superheated when it reaches the suction of the compressor.Text At
16、 the exit of the expansion valve,the refrigerant is at a temperature below that of the medium(air or water)to be cooled.The refrigerant travels through a heat exchanger called the evaporator.It absorbs energy from the air or water circulated through the evaporator.If air is circulated through the ev
17、aporator,the system is called a direct expansion system.If water is circulated through the evaporator,it is called a chiller.In either case,the refrigerant does not make direct contact with the air or water in the evaporator.The refrigerant is converted from a low quality,two-phase fluid to a superh
18、eated vapor under normal operating conditions in the evaporator.The vapor formed must be removed by the compressor at a sufficient rate to maintain the low pressure in the evaporator and keep the cycle operating.All mechanical cooling results in the production of heat energy that must be rejected th
19、rough the condenser.In many instances,this heat energy is rejected to the environment directly to the air in the condenser or indirectly to water where it is rejected in a cooling tower.With some applications,it is possible to utilize this waste heat energy to provide simultaneous heating to the bui
20、lding.Recovery of this waste heat at temperatures up to 65C(150F)can be used to reduce costs for space heating.TextCapacities of air conditioning are often expressed in either tons or kilowatts(kW)of cooling.The ton is a unit of measure related to the ability of an ice plant to freeze one short ton(
21、907 kg)of ice in 24 hr.Its value is 3.51 kW(12,000 Btu/hr).The kW of thermal cooling capacity produced by the air conditioner must not be confused with the amount of electrical power(also expressed in kW)required to produce the cooling effect.2.Refrigerants Use and Selection Up until the mid-1980s,r
22、efrigerant selection was not an issue in most building air conditioning applications because there were no regulations on the use of refrigerants.Many of the refrigerants historically used for building air conditioning applications have been chlorofluorocarbons(CFCs)and hydrochlorofluorocarbons(HCFC
23、s).Most of these refrigerants are nontoxic and nonflammable.However,recent U.S.federal regulations(EPA 1993a;EPA 1993b)and international agreements(UNEP,1987)have placed restrictions on the production and use of CFCs and HCFCs.TextHydrofluorocarbons(HFCs)are now being used in some applications where
24、 CFCs and HCFCs were used.Having an understanding of refrigerants can help a building owner or engineer make a more informed decision about the best choice of refrigerants for specific applications.This section discusses the different refrigerants used in or proposed for building air conditioning ap
25、plications and the regulations affecting their use.The American Society of Heating,Refrigerating and Air Conditioning Engineers(ASHRAE)has a standard numbering system(Table 28-1)for identifying refrigerants(ASHRAE,1992).Many popular CFC,HCFC,and HFC refrigerants are in the methane and ethane series
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