Extending the lifespan of a human body and the serviceability of a machine may comparatively be the same in certain points. For one, they must not be overworked. Each one has its maximum level of efficiency. Once these bodies, whether human or machine, reach their maximum optimum level of performance, the tendency is to experience a decrease in their effective levels of performance. In such case, the human body might get sick while the machine may wear and tear and experience a sudden break down in the process. If this happens, both ways are to the disadvantage of the other. Why? If humans get sick, then no one will operate the machine. On the other hand, if the machine breaks down, humans will have no machine to operate. Sometimes people neglect things. Aside from neglecting their health, they also neglect the proper operation of machines they use. There are cases where machines are to operate for prolonged periods of time. This contributes to the early "wear and tear" of machines. For purposes of this discussion, this article opts to focus more about maintaining the serviceability of machines particularly the air conditioner. You may have purchased your ac unit for a good deal price. This time you desire to maximize its length of serviceability. So here are some tips to do it.
Understanding the Working of An Air Conditioner (AC)
If you need to know how your body works, then it is also equally important to have an understanding of how your air conditioner operates. In short, it is important to know the working of an air conditioner. First, there are three basic parts of an AC unit: the air conditioning compressor, its condenser and an evaporator. The air conditioner compressor squeezes the cool Freon gas causing it to become the hot, high-pressured Freon gas. The role of the Freon may be contrasted to the gasoline as the fuel of a car that flows around the ducts to make its engine start. In the same way, Freon gas works almost the same way. As hot gas, it circulates through a set of coils to disperse its heat. Then it condenses into a liquid. From its liquid state, it runs to another passageway ending up in the evaporator. Here, the liquid evaporates and transforms into the cold, low-pressure Freon gas. While another vent in the unit sucks the hot air from the room, another vent releases the converted cool air gas and replaces the hot air in the room. This is now the cool air that is blown to cool the inside of the room or house. This process goes on continuously until the room, the house or the entire building attains the coolness of temperature that has been set in the thermostat.
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