Compared with metal materials, CPVC has lower conductivity, and its thermal resistance and thermal conductivity are about 1/300 of that of steel. This means that the heat transfer ratio of CPVC will be reduced by 50-60%. In cryogenic environments, metal pipes require expensive insulation to keep the liquid warm. In a sun exposure environment or a high temperature environment, the outside of the pipe will be heated, and the heat will be transferred to the inside of the pipe, rapidly heating the transferred liquid. This will cause the cooling unit or heating unit to run longer and pay more to maintain the temperature of the liquid. In short, CPVC is better at maintaining the temperature needed to transport substances.
