It is hard to imagine getting through the summer without an air conditioner, and yet this can quickly become a reality if you fail to provide the proper AC maintenance in Murfreesboro. Air conditioners make use of several different components that must function in unison in order for the unit to work. If you think your air conditioner is malfunctioning, call an HVAC service professional immediately. Here is a look at some of the most common air conditioning problems.
Refrigerant
In order for your air conditioner to be able to produce cool air to send through your house, it must have an adequate amount of refrigerant. This refrigerant is the material that will evaporate and condense, thus cooling the coils. Since the refrigerant goes through a constant process of evaporating and condensing, your air conditioning unit should contain roughly the same amount at all times; if you are lacking in refrigerant, then there is likely a leak to be addressed. Your HVAC technician can evaluate the level of refrigerant in your unit and identify the leak. He or she can then charge the refrigerant and allow your unit to enjoy efficient functioning.
Fan
When your compressor condenses the refrigerant back into a liquid, excess heat is given off that must be directed away from the unit. This is the responsibility of your outside fan. The outdoor part of your air conditioner will remove the heat from the unit as necessary to ensure that it does not overheat. If your outdoor fan is broken it cannot reliably remove the heat. This can cause your compressor to overheat, which may lead to internal damage.
Filters
Just like any other HVAC appliance, your air conditioner must be maintained properly. Part of this maintenance includes regularly changing your air filters as they become saturated. Your air filters collect dirt, dust, and debris that would otherwise end up circulating throughout your house with the cool air. Changing your air filters is a quick and simple process that should be done on a regular basis to ensure that your unit functions at optimal efficiency.