Air conditioning refers to the attempts to modify the properties of the atmosphere in terms of humidity content, cleanliness, and temperature to offer habitable conditions. Comfort in buildings is enhanced by proper distribution of conditioned air in the whole space. This role can currently be attained through different techniques and appliances. When in necessity of efficient air conditioning Grand Rapids should be among the places to be at the top of a search list.
In more general terms, this process refers to any technology that is concerned with cooling, heating, humidification, dehumidification, air movement, ventilation, and cleaning of air. The devices used for this purpose are called air conditioners and they can be installed in homes as well as automobiles. The devices achieve cooling through simple refrigeration cycles although evaporation is sometimes used in some devices. In construction, the system that ventilates, heats, and conditions spaces is called HVAC.
Willis Carrier is the engineer responsible for inventing the first modern-day conditioning equipment in 1902. These systems have found many uses in buildings since their invention. Major applications include providing proper ventilation, eliminating excess humidity, and maintaining humidity to suitable levels in all areas of conditioned space. Other uses include heating and cooling during cold and warm seasons respectively. The systems can also clean the atmosphere of pollen grains, dust, soot, micro-organisms and many other forms of foreign bodies.
A standard conditioner is able to do both heating and cooling depending on the mode it is operating in. When it is being used for cooling, it blows air currents from the outside into the home. This is achieved by sucking heat from air derived from the atmosphere before blowing it into the home. The device has an evaporator coil over which currents of air are blown to cool them.
A refrigerant absorbs heat to change from liquid into gaseous state as it circulates within the evaporator coils. The refrigerant changes back into a liquid upon reaching condenser coils after it releases the heat it had gained. When in heating mode, the opposite of this process takes place. The refrigerant turns to gaseous form within the condenser and back to liquid in evaporator coils. That way, heat gained is released into the house hence heating it.
Frequent checking and maintenance is necessary on the coils to ensure that they are intact. Damaged coils normally cause the refrigerant to leak out. A compressor pump is used for pumping the refrigerant around the coils. Compressor pumps are powered by motors which rely on electrical energy to work. The electrical energy consumed by the compressors is normally a third of the cooling energy given out by the system. The system is therefore very effective.
Complex calculations are entailed when estimating conditioning needs of structures to make sure that systems installed are not overworked. Efficiency of the systems is impaired if the heat produced in a home is more than the specified amount due to installation of excess electrical appliances. Also, performance is affected by leaks in the refrigerant ducts.
To improve the efficiency of the equipment, the condenser coil should be located at an open place which can allow heat to be lost easily. Leaves and other forms of debris should be checked to ensure they are not clogging the system. High efficiency devices perform better and consume less energy.
In more general terms, this process refers to any technology that is concerned with cooling, heating, humidification, dehumidification, air movement, ventilation, and cleaning of air. The devices used for this purpose are called air conditioners and they can be installed in homes as well as automobiles. The devices achieve cooling through simple refrigeration cycles although evaporation is sometimes used in some devices. In construction, the system that ventilates, heats, and conditions spaces is called HVAC.
Willis Carrier is the engineer responsible for inventing the first modern-day conditioning equipment in 1902. These systems have found many uses in buildings since their invention. Major applications include providing proper ventilation, eliminating excess humidity, and maintaining humidity to suitable levels in all areas of conditioned space. Other uses include heating and cooling during cold and warm seasons respectively. The systems can also clean the atmosphere of pollen grains, dust, soot, micro-organisms and many other forms of foreign bodies.
A standard conditioner is able to do both heating and cooling depending on the mode it is operating in. When it is being used for cooling, it blows air currents from the outside into the home. This is achieved by sucking heat from air derived from the atmosphere before blowing it into the home. The device has an evaporator coil over which currents of air are blown to cool them.
A refrigerant absorbs heat to change from liquid into gaseous state as it circulates within the evaporator coils. The refrigerant changes back into a liquid upon reaching condenser coils after it releases the heat it had gained. When in heating mode, the opposite of this process takes place. The refrigerant turns to gaseous form within the condenser and back to liquid in evaporator coils. That way, heat gained is released into the house hence heating it.
Frequent checking and maintenance is necessary on the coils to ensure that they are intact. Damaged coils normally cause the refrigerant to leak out. A compressor pump is used for pumping the refrigerant around the coils. Compressor pumps are powered by motors which rely on electrical energy to work. The electrical energy consumed by the compressors is normally a third of the cooling energy given out by the system. The system is therefore very effective.
Complex calculations are entailed when estimating conditioning needs of structures to make sure that systems installed are not overworked. Efficiency of the systems is impaired if the heat produced in a home is more than the specified amount due to installation of excess electrical appliances. Also, performance is affected by leaks in the refrigerant ducts.
To improve the efficiency of the equipment, the condenser coil should be located at an open place which can allow heat to be lost easily. Leaves and other forms of debris should be checked to ensure they are not clogging the system. High efficiency devices perform better and consume less energy.
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Find a review of the advantages you get when you hire an air conditioning Grand Rapids contractor and more information about an experienced contractor at http://www.artsrefrigerationinc.com now.
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