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Air conditioner
An air conditioner (AC or A/C in North American English, aircon
in British and Australian English) is an appliance, system, or mechanism designed to extract heat from an area using
a refrigeration cycle. The most common uses of modern air conditioners are for comfort
cooling in buildings and transportation vehicles. A combined system that also provides
heating and ventilation is often called an HVAC
system. This article addresses air conditioner equipment primarily, rather
than air conditioning
in general.
NOTE: Despite the many different types of air conditioners, all air conditioners
will consist of a pump, an evaporator, a condenser, and an expansion valve. Also,
all air conditioners have a working fluid and an opposing fluid medium as well.
Window and through-the-wall air conditioners
Many traditional air conditioners in homes or other buildings are single rectangular
units. Air conditioner units need to have access to the space they are cooling (the
inside) and a heat sink; normally outside air is used to cool the condenser section.
For this reason, single unit air conditioners are placed in windows or through openings
in a wall made for the air conditioner. There are vents on both the inside and outside
parts of the unit, so inside air to be cooled can be blown in and out by a fan in
the unit, and so outside air can also be blown in and out by another fan to act
as the heat sink. The controls are on the inside. A large house or building may
have several such units.
Portable air conditioners
A portable air conditioner or portable A/C is
an air conditioner on wheels that can be easily transported inside a home or office.
They are currently available with capacities of about 6,000 to 60,000 BTU/h (1800
to 4100 watts output) and with and without electric resistance heaters. Portable
air conditioners come in two forms, split and monoblock:
Monoblock systems are vented to the outside via air ducts. A single duct monoblock unit draws air out of
the room to cool its condenser. This air is then replaced by hot air from outside
or other rooms, thus reducing efficiency.
Air cooled portable air conditioners are compressor-based refrigerant system that
uses air to exchange heat, similar to a car or typical household air conditioner.
With this type of system the air is dehumidified as it is cooled.
As a rule of thumb, 400 square feet can be cooled per 12,000 BTUs (12,000 BTUs equals
one ton of air conditioning). However, you must account for other factors which
will affect the total heat load.
Central air conditioners
Central air conditioning, commonly referred to as central air (US) or air-con
(UK), is an air conditioning system which uses ducts to distribute cooled and/or
dehumidified air to typically more than one room, or uses pipes to distribute chilled
water to heat exchangers.
- With a typical split system, the condenser and compressor
are located in an outdoor unit; the evaporator
is mounted in the air handling unit (which is often a forced air furnace).
- With a packaged system, all components are located in a single outdoor unit
that may be located on the ground or roof.
Central air conditioning has several benefits as compared to having many smaller
distributed units:
- When the air handling unit turns on, room air is drawn in from various parts of
the house through return-air ducts. This air is pulled through a filter where airborne particles such as
dust and lint are removed. Sophisticated filters may remove
microscopic pollutants as well.
The filtered air is routed to air supply ductwork that carries it back to rooms.
Whenever the air conditioner is running, this process repeats continually.
- Because the central air conditioning's condenser unit is located outside the home,
it typically offers a lower level of noise indoors than window or through-the-wall
air conditioning units, for example.
However, the air ducts do become dirty over time, and pose a risk of growth and
spread of harmful microorganisms.
"Ductless", "duct-free",
or "mini-split" air conditioners
Ductless mini-split air conditioners combine some traits of central air conditioning
systems with some traits of window or through-the-wall units. They were invented
as an alternative to window air conditioners for buildings where the cool-air distribution
ducts of a central air conditioning system could not be installed or would be prohibitively
expensive to install. An outside unit including the compressor is mounted on an
exterior wall of the building, and an inside unit including the evaporator is mounted
high on an interior wall, or on or in the ceiling, of the room to be cooled. They
are connected refrigerant tubing, condensate drain, and control wires through a
hole drilled in the room's exterior wall. An outdoor unit can be connected to one,
two, or three indoor units.
Like window air conditioners, a ductless mini-split system requires no air ducts
throughout the building and allows separate "zones" in the building to have independent
temperature controls. However, like a central air conditioning system, it does not
block a window or require another window-sized hole in the wall, and it puts the
main source of noise (the compressor) outside the building. Equipment to cool a
given amount of inside space is more expensive than with window units but less expensive
than with central systems. Customers buy them mostly for their quietness compared
to window units, and their lower cost and ease of installation as compared to central
systems. In a very large building, the need for ventilation and the need to cool
air space that is far from the building's outer walls make ductless mini-split systems
and window units impractical.
Evaporative coolers
In very dry climates, evaporative coolers are popular for improving comfort during hot. The evaporative cooler is a machine that draws
or forces outside air through a wet pad. Some of the sensible heat of the entering air (as measured by
a dry bulb thermometer)
is converted to latent heat by the evaporation of water in the wet cooler pads.
The total heat (sensible heat plus latent heat) of the entering
air is unchanged. If the entering air is dry enough, the resulting supply air can
be quite comfortable. These coolers cost less than other air conditioners and are
mechanically simple to understand and maintain.
Absorption air coolers and washers
There is a process called absorptive refrigeration which uses heat to produce cooling. In one instance,
a three-stage absorptive cooler first dehumidifies the air with a spray of salt-water
or brine. The brine osmotically absorbs water vapor from the air. The second
stage sprays water in the air, cooling the air by evaporation. Finally, to control
the humidity, the air passes through another brine spray. The brine is reconcentrated
by distillation. The system is used in some hospitals because, with filtering, a
sufficiently hot regenerative distillation removes airborne organisms.
Absorptive chillers
Some buildings use gas turbines to generate electricity. The exhausts of these are
hot enough to drive an absorptive chiller that produces cold water. The cold water is then run
through heat exchangers in air handlers to provide cooling
and dehumidification. The dual use of the energy, both to generate electricity and
cooling, makes this cogeneration
technology attractive when regional utility and fuel prices are more expensive than
average. When heating, in addition to power generation and cooling, are performed
simultaneously by one combined system, it is known as trigeneration.
Thermostats
Thermostats control the operation
of HVAC systems, turning on and off, or modulating, the heating or cooling systems
to bring the building to the set temperature. Thermostats may also be incorporated
into facility energy management systems in which the electrical power utility customer may control the
overall energy expenditure. In addition, a growing number of electric utilities
have made available a device which, when professionally installed, will control
or limit the power to an HVAC system during peak use times in order to avoid necessitating
the use of rolling blackouts.
The customer is given a credit of some sort in exchange.
There are many widely used thermostat technologies such as:
- Mechanical
- Electromechanical (EM)
- Pneumatic
- Digital
- Hybrid
Equipment capacity
Air conditioner equipment cooling capacity in the U.S. is often described in terms of "tons of refrigeration". A "ton of refrigeration"
is defined as the cooling power of one short ton (2000 pounds
or 907 kilograms) of ice melting in a 24-hour period. This is equal to 12,000 BTU per hour, or 3517
watts . Single-family residential "central air" systems are usually from
2 to 5 tons (24 to 60 kBTU, 7 to 18 kW) in capacity.
Adding insulation
and other weatherization
features reduces the required capacity of an air conditioning system. Thick walls,
reflective roofing material, curtains, and trees next to buildings also can reduce
energy requirements.
The use of electric/compressive air conditioning puts a major demand on a nation's
electrical power grid in warm weather, when most units are operating under heavy load. In
the aftermath of the 2003 North America blackout locals were asked to keep their air conditioners
off. During peak demand, additional power plants must often be brought online, usually natural gas fired plants because of their rapid
startup. A 1995 study of various utility studies of residential air conditioning
concluded that the average air conditioner wasted 40% of the input energy (citation
needed). This energy is lost in the form of heat. In the U.S., the minimum
efficiency requirements of new AC units has been increased periodically to address
this concern.
In an automobile the A/C system will use around 5 hp (4 kW) of the engine's power.
Energy Efficiency Ratings
The performance of vapor compression refrigeration cycles is limited by thermodynamics. These AC and heat pump devices move heat rather than convert
it from one form to another, so thermal efficiencies do not appropriately
describe their performance. The Coefficient-of-Performance (COP) does, but
this dimensionless measure does not enjoy wide use like the dimensional Energy Efficiency
Ratio (EER). To more accurately describe the performance of air conditioning
equipment over a typical cooling season a modified version of the EER is used, and
is the Seasonal Energy Efficiency Ratio (SEER). The SEER article describes it further, and presents some economic
comparisons using this useful performance measure.
Home air conditioning systems
around the world
Residential air conditioning is ubiquitous in Japan,South Korea, Taiwan, Singapore
and Hong Kong, especially in the
latter two due to most of the population living in small high-rise flats in warm climates. In this area, with soaring summer
temperatures and a high standard of living, air conditioning is considered a necessity
and not a luxury. Air conditioners are usually window or split types, the latter
being more modern and expensive. It is also increasing in popularity with the change
of lifestyle in other tropical Asian nations such as India, Indonesia, Malaysia, and the Philippines.
In North America, home air conditioning is more prevalent in the South, Midwest,
East Coast, the Great Lakes States and South-Eastern Canada, (Southern Ontario, and Southern Quebec), in most parts of which it
has reached the ubiquity it enjoys in East Asia. Central air systems are most common
in the United States, and are virtually standard in all new dwellings in most states.
Older houses and buildings not retro-fitted with central air often still use window
or through-wall units.
In most parts of Australia, central
evaporative coolers are a popular choice, as Australia's dry climate makes this
form of air conditioning very effective and economical.
In Europe, home air conditioning is less
common in part due to a more clement northern climate. Although in the southern
European countries with a high standard of living, like Spain and Italy, air conditioning
is becoming a necessity. Still, the lack of air conditioning in homes, in residential
care homes, and in medical facilities was identified as a contributing factor to
the estimated 35,000 deaths left in the wake of the 2003 heat wave. There were almost 15,000
deaths in France, and 2,000 in the UK; in contrast, only 141 died in Spain despite
the higher temperatures, in part due to the extensive use of air conditioning. Due
to the 2003 and the 2006 heatwaves, portable air conditioners have become more popular in France.
In many countries in the Persian Gulf,
air conditioning is ubiquitous. This is due to the very harsh climate, and the relatively
high living standards.
Car air conditioning systems
around the world
Air conditioning started to become popular in American cars in the 1950s. Now, many
new car models sold throughout the world are fitted with central air conditioning
as standard, with plural outlets.
Early automotive air conditioning systems were independent of the heater system:
ducting, controls and fans were completely separate.
Later on, manufacturers integrated the two systems. Air entering an integrated system
is filtered, optionally cooled and then
reheated before it enters the passenger compartment. This arrangement allows car
owners to take advantage of the dehumidifying effect of the evaporator coil to provide
a highly effective demist capability.
Air conditioning compressors are usually driven by the engine fan-belt via an electro-magnetic
clutch. It is often possible to tell whether
the air conditioning is on from the outside of a car because of the periodic "click"
from the compressor clutch synchronised with a change in engine note as engine load
increases or decreases. Other cars may use a continuously-engaged compressor system
to maintain a smooth idle. A tell-tale puddle of condensate underneath the car is
also a good indication that the air conditioning is on or has been on recently.
The AC load on the engine is such that in some cars the air conditioning's compressor
is disengaged during low engine vacuum conditions to improve acceleration and fuel
economy.
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