Refrigeration is one of the most important aspects of thermal environment engineering. The term refrigeration may be defined as the process of removing heat from a substance under controlled conditions. It also includes the process of reducing and maintaining the temperature of a body below the general temperature of its surroundings. In other words, the refrigeration means a continued extraction of heat from a body whose temperature is already below the temperature of its surrounding. There are many applications of refrigeration in our daily life. With the advancement of science and technology, the luxuries of yesterday are necessity of today. In addition, refrigeration embraces industrial refrigeration, including the processing and preservation of food, removing the heat from the substances in chemical, petroleum and petrochemical plants; and many special applications such as those in the manufacturing and construction industries. Medical industries have progressed a lot with application of refrigeration such as drugs and medicine storages, blood and skin storages etc. Refrigeration also has wide application in road, railways, marine and air transport. Refrigeration may be produced by several methods. One of these methods is vapour compression system. It is used in majority of refrigeration applications. In this method, alternately condensation and evaporation takes place. In evaporation, the refrigerant absorbs latent heat from the surrounding to be cool and cooling is accomplished by evaporation of liquid refrigerant at reduced pressure and temperature. While in condensation, it gives out its latent heat to the circulating water/air of cooler. According to the requirement, vapour compression system is further modified for better performance and control. Such systems are compound systems, cascade systems and multi evaporator systems. In many refrigeration installations, different temperature are required to be maintained at various point in the plant such as in hotels, large restaurants, institutions, industrial plants and food markets where the food products are received in large quantities and stored at different temperatures. For example, the fresh fruits, fresh vegetables, fresh cut meats, frozen products, dairy products, canned goods, bottled goods have all different conditions of temperature and humidity for storage. In such cases, each location is cooled by its own evaporator in order to obtain more satisfactory control of the condition. For these type of case, system with more than one evaporator i.e., multi evaporator system is used. Multi evaporator systems yields the higher value of coefficient of performance compared to single evaporator system meant for different temperatures. There is easy control of fluctuations in loads by controlling individual evaporator. Also saving in initial cost and space required are the additional advantages with single compressor multi evaporator systems. Considering the above advantages of multi evaporator system over single evaporator system one can easily recommend its use in similar situations. But generally multi evaporator systems are overlooked by assuming it as complex system and hence a problem arises in maintaining specific temperature conditions economically.