In the industrial PACKAGE BOCK CONDENSING UNIT system, the high-temperature and high-pressure refrigerant vapor entering the condenser is condensed into liquid by the air or cooling water in the surrounding environment, and the low-temperature refrigerant liquid entering the evaporator is removed from the surrounding air or refrigerant. It absorbs heat and vaporizes, so that the temperature of a certain area drops, and the purpose of refrigeration is achieved. The process of transferring heat between the refrigerant and the surrounding fluid through the tube wall is the heat transfer process.
Generally, we are based on the solid wall method, and there are three commonly used industrial PACKAGE BOCK CONDENSING UNIT heat transfer processes. They are the heat transfer process through the flat wall, the heat transfer process through the round tube, and the heat transfer process through the wall.
Through the heat transfer process of the wall: it can be seen from the heat transfer direction that the heat transfer amount per unit time not only increases with the increase of the heat transfer coefficient, but also increases with the increase of the heat transfer surface. When the heat transfer coefficient increases to a certain extent and it is difficult to improve, the heat transfer can be increased by increasing the heat transfer denomination, generally by processing the tabs or warps on the heat exchange wall. This is the heat transfer process of PACKAGE BOCK CONDENSING UNIT through Lebi.