Compressor unit, refrigeration circuit comprising the same and method of operating a compressor unit

The invention claimed is: 1. Compressor unit for use in a refrigeration circuit, comprising at least two compressors; and a common variable frequency drive, configured to be connected to a three phase grid voltage supply; each compressor having an inlet port configured to be in refrigerant communication, via a suction line, with an outlet of an evaporator; an outlet port configured to be in refrigerant communication, via a pressure line, to an inlet of a condenser; a compressor motor, particularly an alternating current induction motor, with a three phase supply line; a power modulation means for controlling the power of the compressor according to its load needs; wherein each compressor is switchable, independently from the respective other compressor, to be connected, during start-up and acceleration of the respective compressor to the common variable frequency drive, and to be directly connected, during rated-speed operation of the respective compressor, to a common three phase grid voltage supply; wherein the power modulation means is configured to be kept at its minimum power position during start-up and acceleration of the respective compressor to minimize the power; and wherein the power modulation means is configured to be modulated and moved to a higher power position or to its maximum power position, in order to meet the load needs at the evaporator side, during rated-speed operation of the respective compressor. 2. Compressor unit according to claim 1 , wherein each compressor comprises a three phase variable frequency supply connected to the common variable frequency drive, and the three phase supply line configured to be connected to the common three phase grid voltage supply; the three phase supply line having a first switch; and the three phase variable frequency supply having a second switch. 3. Compressor unit according to claim 1 , wherein each of the compressors is one of a screw compressor and a centrifugal compressor, and/or, wherein each of the compressors is configured to run at its rated speed. 4. Compressor unit according to claim 1 , wherein the power modulation means has a minimum power position and a maximum power position; and/or wherein in case of a screw compressor the power modulation means is formed as a slide valve and in case of a centrifugal compressor the power modulation means is formed as a guide vane. 5. Compressor unit according to claim 1 , wherein the common variable frequency drive has a maximum power which corresponds to less than 100%, particularly to 15 to 60%, particularly 30 to 60% of the power of at least one of the compressors running at nominal voltage, at rated speed, at full load, with the power modulation means being at its maximum power position. 6. Compressor unit according to claim 1 , wherein the three phase grid voltage supply is part of the compressor unit; wherein the common variable frequency drive is connected to the three phase grid voltage supply. 7. Refrigeration circuit, comprising, in the direction of flow of a circulating refrigerant, the compressor unit of claim 1 ; a condenser; an expansion device; and an evaporator; wherein the inlet ports of the compressors of the compressor unit are in refrigerant communication, via a suction line, with an outlet of the evaporator; and wherein the outlet ports of the compressors of the compressor unit are in refrigerant communication, via a pressure line, to an inlet of the condenser. 8. Method of operating the compressor unit according to claim 1 in a refrigeration circuit, the method comprising: (a) connecting the compressor to the common variable frequency drive by closing the second switch in the three phase supply line; (b) driving the common variable frequency drive such that the speed of the compressor is increased in a start-up phase and/or in an acceleration phase to a switch over frequency value which corresponds to the rated speed of the compressor or to a speed slightly higher than the rated speed of the compressor; (c) stopping the common variable frequency drive and disconnecting the compressor from the common variable frequency drive by opening the second switch in the three phase variable frequency supply line; (d) connecting the compressor to the three phase grid voltage supply by closing the first switch in the three phase supply line and operating the compressor with its rated speed; and (e) increasing the compressor power through operating the power modulation means, in order to meet the load needs; wherein the power modulation means is kept at its minimum power position during start-up and acceleration of the respective compressor to minimize the power; and wherein the power modulation means is modulated and moved to a higher power position or to its maximum power position, in order to meet the load needs at the evaporator side, during rated-speed operation of the respective compressor. 9. Compressor unit for use in a refrigeration circuit, comprising at least two compressors; and a common variable frequency drive, configured to be connected to a three phase grid voltage supply; each compressor having an inlet port configured to be in refrigerant communication, via a suction line, with an outlet of an evaporator; an outlet port configured to be in refrigerant communication, via a pressure line, to an inlet of a condenser; a compressor motor, particularly an alternating current induction motor, with a three phase supply line; a power modulation means for controlling the power of the compressor according to its load needs; wherein each compressor is switchable, independently from the respective other compressor, to be connected, during start-up and acceleration of the respective compressor to the common variable frequency drive, and to be connected, during rated-speed operation of the respective compressor, to a common three phase grid voltage supply; wherein the power modulation means is configured to be kept at its minimum power position during start-up and acceleration of the respective compressor to minimize the power; and wherein the power modulation means is configured to be modulated and moved to a higher power position or to its maximum power position, in order to meet the load needs at the evaporator side, during rated-speed operation of the respective compressor; further comprising a control unit in signal communication with the common variable frequency drive via a control line, with the second switch of the three phase variable frequency supply of each compressor via respective control lines, with the first switch of the three phase supply line of each compressor via respective control lines, and with the power modulation means of each compressor via respective control lines; wherein the control unit is configured to perform the following: (a) connecting the compressor to the common variable frequency drive by closing the second switch in the three phase supply line; (b) driving the common variable frequency drive such that the speed of the compressor is increased in a start-up phase and/or in an acceleration phase to a switch over frequency value which corresponds to the rated speed of the compressor or to a speed slightly higher than the rated speed of the compressor; (c) stopping the common variable frequency drive and disconnecting the compressor from the common variable frequency drive by opening the second switch in the three phase variable frequency supply line; (d) connecting the compressor to the three phase grid voltage supply by closing the first switch in the three phase supply line and operating the compressor with its rated speed; and (e) increasing the compressor power though operating the power modulation means,