Method for cool drying

The invention claimed is: 1. A method for cool drying gas comprising the steps: leading a gas through a secondary part of a heat exchanger comprising an evaporator of a cooling circuit which includes a compressor that is driven by a motor, a condenser, and an expansion device between an outlet of the condenser and an inlet of the evaporator; measuring a temperature or a dew point of the gas in an environment of a place where, when cool drying the gas, the temperature of the gas is the lowest; determining a change in a lowest measured gas temperature or the dew point of the gas as a function of time when the cooling circuit is started; and switching off the cooling circuit when the change in the lowest measured gas temperature or the dew point over a predetermined period of time is less than a preset value, wherein said predetermined period of time is a fixed period of time; and wherein the fixed period of time is defined as at least three successive periods of time. 2. Method according to claim 1 , wherein the lowest measured gas temperature or the measured dew point is compared to a maximum threshold value and, if the lowest gas temperature or the dew point is above said maximum threshold value or deviates from it by less than a predetermined value, the cooling circuit is not switched off. 3. Method according to claim 1 , including using an algorithm which restricts a number of start-ups per hour of the cooling circuit. 4. Method according to claim 3 , wherein a period of time is recorded that has elapsed since a last stop of the cooling circuit, and the cooling circuit is maintained in switched on condition as long as this period of time, expressed in minutes, is smaller than 60/n, whereby n represents the maximum number of admitted start-ups per hour. 5. Method according to claim 1 , comprising the step of eliminating any pressure difference prevailing over the compressor of the cooling circuit before the cooling circuit is switched on after a stop. 6. Method according to claim 5 , wherein the pressure difference over the compressor is eliminated by means of a bypass valve provided in the cooling circuit. 7. Method according to claim 6 , wherein the bypass valve is provided in parallel with the expansion valve. 8. Method according to claim 6 , wherein the bypass valve is provided in parallel with the compressor. 9. Method according to claim 6 , wherein the bypass valve is provided in parallel with the expansion valve and the evaporator. 10. Method according to claim 6 , wherein the bypass valve is opened when the lowest gas temperature or the dew point has reached a threshold value that is calculated on the basis of the ambient temperature. 11. The method according to claim 1 , wherein the measuring of the temperature or dew point of the gas at the lowest is at a position beyond the secondary part of the heat exchanger in front of a liquid separator connected to a primary part of the heat exchanger for drying the gas. 12. The method according to claim 1 , wherein a period of time of the three successive periods of time is ten seconds.