THIS ARTICLE PROVIDES AN OVERVIEW OF INTERLEVIN REFRIGERATION SYSTEMS.

Interlevin refrigeration is one of the many refrigeration cycles that include vapor-compression refrigeration or vapor-compression refrigeration system (vcrs), in which the refrigerant goes through phase changes. It is the most widely used method that is utilized in refrigerators that are used in commercial and residential settings, large-scale warehouses for the storage of food items that are chilled or frozen, railroad cars and refrigerated trucks, and a variety of other commercial and industrial services, as well as the air-conditioning of buildings and automobiles. petrochemicals, oil refineries and chemical processing facilities, and natural gas processing plants are examples of industries that regularly make use of big vapor-compression refrigeration systems. In the context of defining the process of interlevin refrigeration, it might be described as the process of reducing the temperature of an enclosed place by extracting heat from that space and transferring it to another location. Refrigerators, air conditioners, geothermal heat pumps or chillers (heat pumps), and air source heat pumps are all names that might be used to refer to the same equipment that is capable of performing this function. The interlevin’s vapor-compression system makes use of a circulating liquid refrigerant as the medium. This refrigerant has the capacity to absorb and extract heat from the area that has to be cooled, and then it snubs that heat away. A compressor, a condenser, a thermal expansion valve (also known as a metering device or throttle valve), and an evaporator are the four components that make up this system. When the circulating refrigerant enters the compressor, it is in a condition of thermodynamics known as a saturated vapor. It is then compressed to a greater pressure, which results in an increase in temperature as well. After being compressed and heated, the vapor eventually enters a condition of thermodynamics that is referred to as a superheated vaporation. and it is at a temperature and pressure that allows it to be condensed using either cooling air or cooling water due to the fact that it is at this point. Following that, the heated vapor is routed via a condenser in order to be cooled and condensed into a liquid. This is accomplished by routing the vapor through a coil or tubes, with cold air passing over the coil or tubes, or by using cool water throughout the process. This is the point in time when the circulating refrigerant removes heat from the system, and the heat that is removed is then removed by either the air or the water (either the case). Now that the liquid refrigerant has been condensed, it is in the form of a saturated liquid, which is a thermodynamic state. The next step is to route the liquid refrigerant via an expansion valve, where it experiences a sudden decrease in pressure. adiabatic flash evaporation of a portion of the liquid refrigerant takes place as a result of the drop in pressure that has taken place. Because of the auto-refrigeration action of adiabatic flash evaporation, the temperature of the vapor refrigerant mixture and liquid will ultimately drop to a point where it is colder than the temperature of the enclosed area that has to be chilled. After that, the evaporator’s tubes or coils are used to move this cool mixture through all of the other stages. When a fan is used, it moves the warm air that is contained inside the enclosed chamber over the coils or tubes that are conveying the cold liquid and vapor combination of the refrigerant. The liquid component of the cold refrigerant mixture is evaporated by the warm air from the refrigerator. While this is happening, the air that is flowing is cooled, which brings the temperature of the enclosed room down to the level that is required. In the evaporator, the circulating refrigerant is responsible for absorbing and removing heat. This heat is then rejected in the condenser and moved to another location by the water or air that is employed in the condenser. In order to finish the refrigeration cycle of the interlevin, the vapor of the refrigerant that is passed through the evaporator is transformed into a saturated vapor once again and is then pumped back into the compressor device.