Vapor-compression refrigeration [ [http://web.me.unr.edu/me372/Spring2001/Vapor%20Compression%20Refrigeration%20Cycles.pdf The Ideal Vapor-Compression Cycle] ] [ [http://iehmtu.edata-center.com/toc/chapt_r/ch18s82.html Scroll down to "The Basic Vapor Compression Cycle and Components"] ] is one of the many
refrigeration cycles available for use. It has been and is the most widely used method for air-conditioning of large public buildings, private residences, hotels, hospitals, theaters, restaurants and automobiles. It is also used in domestic and commercial refrigerators, large-scale warehouses for storage of foods and meats, refrigerated trucks and railroad cars, and a host of other commercial and industrial services. Oil refineries, petrochemicaland chemical processing plants, and natural gas processingplants are among the many types of industrial plants that often utilize large vapor-compression refrigeration systems.
Refrigeration may be defined as lowering the temperature of an enclosed space by removing heat from that space and transferring it elsewhere. A device that performs this function may also be called a "
Description of the vapor-compression refrigeration system
The vapor-compression refrigeration system uses a circulating liquid
refrigerantas the medium which absorbs and removes heat from the space to be cooled and subsequently rejects that heat elsewhere. Figure 1 depicts a typical, single-stage vapor-compression system. All such systems have four components: a compressor, a condenser, an expansion valve (also called a throttlevalve), and an evaporator. Circulating refrigerant enters the compressor in the thermodynamic state known as a saturated vapor and is compressed to a higher pressure, resulting in a higher temperature as well. The hot, compressed vapor is then in the thermodynamic state known as a superheated vapor and it is at temperature and pressure at which it can be condensed with typically available cooling water or cooling air. That hot vapor is routed through a condenser where it is cooled and condensed into a liquid by flowing through a coil or tubes with cool water or cool air flowing across the coil or tubes. This is where the circulating refrigerant rejects heat from the system and the rejected heat is carried away by either the water or the air (whichever may be the case).
The condensed liquid refrigerant, in the thermodynamic state known as a saturated liquid, is next routed through an expansion valve where it undergoes an abrupt reduction in pressure. That pressure reduction results in the adiabatic
flash evaporationof a part of the liquid refrigerant. The auto-refrigeration effect of the adiabatic flash evaporation lowers the temperature of the liquid and vapor refrigerant mixture to where it is colder than the temperature of the enclosed space to be refrigerated.
The cold mixture is then routed through the coil or tubes in the evaporator. A fan circulates the warm air in the enclosed space across the coil or tubes carrying the cold refrigerant liquid and vapor mixture. That warm air
evaporatesthe liquid part of the cold refrigerant mixture. At the same time, the circulating air is cooled and thus lowers the temperature of the enclosed space to the desired temperature. The evaporator is where the circulating refrigerant absorbs and removes heat which is subsequently rejected in the condenser and transferred elsewhere by the water or air used in the condenser.
To complete the
refrigeration cycle, the refrigerant vapor from the evaporator is again a saturated vapor and is routed back into the compressor.
Note: Saturated vapors and saturated liquids are vapors and liquids at their
saturation temperatureand saturation pressure. A superheated vapor is at a temperature higher than the saturation temperature corresponding to its pressure.
"Freon" is a trade name for a family of
haloalkane refrigerantsmanufactured by DuPontand other companies. These refrigerants were commonly used due to their superior stability and safety properties: they were not flammable nor obviously toxic as were the fluids they replaced. Unfortunately, these chlorine-bearing refrigerants reach the upper atmosphere when they escape. In the stratosphere, CFCs break up due to UV-radiation, releasing their chlorine atoms. These chlorine atoms act as catalysts in the breakdown of ozone, which does severe damage to the ozone layerthat shields the Earth's surface from the Sun's strong UV radiation. The chlorine will remain active as a catalyst until and unless it binds with another particle, forming a stable molecule. CFC refrigerants in common but receding usage include R-11 and R-12. Newer and more environmentally-safe refrigerants include HCFCs (R-22, used in most homes today) and HFCs ( R-134a, used in most cars) have replaced most CFC use. HCFCs in turn are being phased out under the Montreal Protocoland replaced by hydrofluorocarbons (HFCs), such as R-410A, which lack chlorine.
Newer refrigerants are currently the subject of research, such as supercritical
carbon dioxide, known as R-744. [ [http://www.r744.com/knowledge/faq_a.php R-744 as a natural refrigerant - FAQs] ] These have similar efficiencies compared to existing CFC and HFC based compounds.
Thermodynamic analysis of the system
thermodynamicsof the vapor compression cycle can be analyzed on a temperature versus entropydiagram as depicted in Figure 2. At point 1 in the diagram, the circulating refrigerant enters the compressor as a saturated vapor. From point 1 to point 2, the vapor is isentropically compressed (i.e., compressed at constant entropy) and exits the compressor as a superheated vapor.
From point 2 to point 3, the superheated vapor travels through part of the condenser which removes the superheat by cooling the vapor. Between point 3 and point 4, the vapor travels through the remainder of the condenser and is condensed into a saturated liquid. The condensation process occurs at essentially constant pressure.
Between points 4 and 5, the saturated liquid refrigerant passes through the expansion valve and undergoes an abrupt decrease of pressure. That process results in the adiabatic flash evaporation and auto-refrigeration of a portion of the liquid (typically, less than half of the liquid flashes). The adiabatic flash evaporation process is
isenthalpic(i.e., occurs at constant enthalpy).
Between points 5 and 1, the cold and partially vaporized refrigerant travels through the coil or tubes in the evaporator where it is totally vaporized by the warm air (from the space being refrigerated) that a fan circulates across the coil or tubes in the evaporator. The evaporator operates at essentially constant pressure.The resulting saturated refrigerant vapor returns to the compressor inlet at point 1 to complete the thermodynamic cycle.
It should be noted that the above discussion is based on the ideal vapor-compression refrigeration cycle which does not take into account real world items like frictional pressure drop in the system, slight internal irreversibility during the compression of the refrigerant vapor, or non-ideal gas behavior (if any).
Types of gas compressors
The most common compressors used in chillers are reciprocating, rotary screw, centrifugal, and
scroll compressors. Each application prefers one or another due to size, noise, efficiency and pressure issues.
Reciprocating compressors are piston-style, positive displacement compressors.
Rotary screw compressors
Rotary screw compressors are also positive displacement compressors. Two meshing screw-rotors rotate in opposite directions, trapping refrigerant vapor, and reducing the volume of the refrigerant along the rotors to the discharge point.
Centrifugal compressors are dynamic compressors. These compressors raise the pressure of the refrigerant by imparting velocity or dynamic energy, using a rotating impeller, and converting it to pressure energy.
Scroll compressors are also positive displacement compressors. The refrigerant is compressed when one spiral orbits around a second stationary spiral, creating smaller and smaller pockets and higher pressures. By the time the refrigerant is discharged, it is fully pressurized.
Other features and facts of interest
The schematic diagram of a single-stage refrigeration system shown in Figure 1 does not include other equipment items that would be provided in a large commercial or industrial vapor compression refrigeration system, such as:
* A horizontal or vertical
pressure vessel, equipped internally with a demister, between the evaporator and the compressor inlet to capture and remove any residual, entrained liquid in the refrigerant vapor because liquid may damage the compressor. Such vapor-liquid separators are most often referred to as "suction line accumulators". (In other industrial processes, they are called "compressor suction drums" or "knockout drums".)
* Large commercial or industrial refrigeration systems may have multiple expansion valves and multiple evaporators in order to refrigerate multiple enclosed spaces or rooms. In such systems, the condensed liquid refrigerant may be routed into a pressure vessel, called a receiver, from which liquid refrigerant is withdrawn and routed through multiple pipelines to the multiple expansion valves and evaporators.
* Some refrigeration units may have multiple stages which requires the use of multiple compressors in various arrangements. [ [http://www.engr.siu.edu/staff1/weston/thermo/Refrigeration/VCRefrigeration.html Schematic diagrams of multi-stage units] ]
More details about the design and performance of vapor-compression refrigeration system are available in the classic "
Perry's Chemical Engineers' Handbook". [cite book|author=Perry, R.H. and Green, D.W.|title= Perry's Chemical Engineers' Handbook|edition=6th Edition| publisher=McGraw Hill, Inc.|year=1984|id=ISBN ISBN 0-07-049479-7 (see pages 12-27 through 12-38)]
The cooling capacity of refrigeration systems is often defined in units called "tons of refrigeration". The most common definition of that unit is: 1
tonof refrigeration is the rate of heat removal required to freeze a short ton(i.e., 2000 pounds) of water at 32 °F in 24 hours. Based on the heat of fusionfor water being 144 Btuper pound, 1 ton of refrigeration = 12,000 Btu/h = 12,660 kJ/h = 3.517 kW. Most residential air conditioning units range in capacity from about 1 to 5 tons of refrigeration.
A much less common definition is: 1
tonneof refrigeration is the rate of heat removal required to freeze a metric ton (i.e., 1000 kg) of water at 0 °C in 24 hours. Based on the heat of fusionbeing 334.9 kJ/kg, 1 tonne of refrigeration = 13,954 kJ/h = 3.876 kW. As can be seen, 1 tonne of refrigeration is 10 percent larger than 1 ton of refrigeration.
An interesting history of the evolution of refrigeration technology is available on the Internet. [ [http://www.rogersrefrig.com/history.html Excellent historical background] ]
*Very mature technology.
*Can be driven directly using mechanical energy (water, car/truck motor) or with electrical energy.
*Efficient up to 60% of Carnot's theoretical limit (as evaluated in
ASHRAEtesting conditions: evaporation temperature of -23.3 °C, condensing temperature of 54.4°C, and ambient temperature of 32°C) based on some of the best compressors produced by Danfoss, Matsushita, [http://www.copeland-corp.com/ Copeland] , Embraco, [http://www.bristolcompressors.com/ Bristol] and [http://www.tecumseh.com/compressors.htm Tecumseh] compressor manufacturers. However, many refrigeration systems use compressors having lower efficiencies of between 40-55%, since the 60% efficient ones cost almost twice as much as the lower efficiency ones.
Many systems still use HCFC
refrigerants, which contribute to depletion of the Earth's ozone layer. In countries adhering to the Montreal Protocol, HCFCs are due to be phased out and are largely being replaced by ozone-friendly HFCs. However, systems using HFC refrigerants tend to be slightly less efficient than systems using HCFCs. HFCs also have an extremely large global warming potential(GWP) because they remain in the atmosphere for many years and trap heat more effectively than carbon dioxide.
With disruption of the status quo already a certainty, alternative non-
haloalkanerefrigerants are gaining popularity. In particular, once-abandoned refrigerants such as hydrocarbons(HCs, such as butane) and CO2 are coming back into broader use. For example, Coca-Cola's vending machines at the 2006 FIFA World Cupin Germany used refrigeration utilizing CO2 [ [http://www2.coca-cola.com/presscenter/nr_20060605_corporate_hfc-free.html Coca-Cola news release] .]
Absorption refrigerationor Einstein refrigeratoror Gas absorption refrigerator
* [http://me.queensu.ca/courses/MECH398/RefrigerationLabSLDS.pdf "Notes on vapor-compression refrigeration", Queens University (Canada)]
* [http://web.me.unr.edu/me372/Spring2001/Vapor%20Compression%20Refrigeration%20Cycles.pdf "The ideal vapor compression refrigeration cycle", University of Nevada (US)]
* [http://home.howstuffworks.com/refrigerator4.htm "The Refrigeration Cycle", from HowStuffWorks]
* [http://www.r744.com/knowledge/ Scientific Papers about CO2 Heat Pumps / Refrigeration]
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