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A method for controlling a refrigeration system with a variable compressor capacity, and at least two refrigeration entities, e.g. display cases, includes controlling suction pressure by either permitting or preventing the flow of refrigerant into the evaporators of one or more refrigeration entitie

A method for controlling a refrigeration system with a variable compressor capacity, and at least two refrigeration entities, e.g. display cases, includes controlling suction pressure by either permitting or preventing the flow of refrigerant into the evaporators of one or more refrigeration entities. The method also includes controlling compressor capacity based on a signal derived from one or more properties of the one or more refrigeration entities, said signal reflecting a possible difference between the current compressor capacity and a current refrigeration demand of the refrigeration system. The method reduces wear on compressors by avoiding switching them ON or OFF to the largest extent possible, and also prevents problems relating to conflicting control strategies due to control parameters, e.g. suction pressure, being determined based on two or more controllable parts, e.g. compressors and flow of refrigerant into refrigeration entities.

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1. A method for controlling a refrigeration system comprising a compressor rack having a variable compressor capacity, at least two refrigeration entities, each having an evaporator being passed by an individually controllable flow of refrigerant, and a pressure control unit, the method comprising t

1. A method for controlling a refrigeration system comprising a compressor rack having a variable compressor capacity, at least two refrigeration entities, each having an evaporator being passed by an individually controllable flow of refrigerant, and a pressure control unit, the method comprising the steps of: determining a suction pressure of the refrigeration system,controlling the suction pressure by individually permitting or preventing flow of refrigerant into the evaporator of one or more of the refrigeration entities in response to a control signal from the pressure control unit, so as to maintain the suction pressure within a predetermined suction pressure range, andcontrolling the compressor capacity so as to match a desired capacity level, based on a signal derived from an average temperature of the at least two refrigeration entities and from a change in refrigeration demand of the refrigeration system determined by the difference between the number of refrigeration entities to which a flow of refrigerant into the evaporator has been individually permitted and the number of refrigeration entities to which a flow of refrigerant into the evaporator has been individually prevented during a specific time period,wherein the step of controlling the suction pressure is performed in such a way that each refrigeration entity maintains a temperature within a predetermined temperature range, andwherein the predetermined temperature range is defined individually for each refrigeration entity. 2. The method according to claim 1, wherein the step of controlling the suction pressure comprises selecting a refrigeration entity using the pressure control unit and permitting or preventing flow of refrigerant into the evaporator of the selected refrigeration entity in response to the control signal from the pressure control unit. 3. The method according to claim 1, wherein the step of controlling the suction pressure, in case the suction pressure approaches an upper limit of the predetermined suction pressure range, comprises the steps of: selecting a refrigeration entity having an evaporator into which a flow of refrigerant is currently permitted and having a temperature which is within the predetermined temperature range for that refrigeration entity, andindividually preventing a flow of refrigerant into the evaporator of the selected refrigeration entity,wherein the selected refrigeration entity is selected by the pressure control unit. 4. The method according to claim 3, wherein the selected refrigeration entity has the temperature that is closest to a lower limit of the predetermined temperature range of that refrigeration entity. 5. The method according to claim 3, wherein the step of individually preventing the flow of refrigerant comprises: transmitting a control signal from the pressure control unit to the selected refrigeration entity, andshutting a solenoid valve to secure the flow of refrigerant to the evaporator of the selected refrigeration entity in response to the control signal. 6. The method according to claim 1, wherein the step of controlling the suction pressure, in case the suction pressure approaches a lower limit of the predetermined suction pressure range, comprises the steps of: selecting a refrigeration entity having an evaporator into which a flow of refrigerant is currently prevented and having a temperature which is within the predetermined temperature range for that refrigeration entity, andindividually permitting a flow of refrigerant into the evaporator of the selected refrigeration entity,wherein the selected refrigeration entity is selected by the pressure control unit. 7. The method according to claim 1, further comprising the step of shifting a lower limit of the predetermined suction pressure range to a lower value by an amount ΔPL after having permitted a flow of refrigerant through a refrigeration entity, wherein ΔPL approaches zero during a time interval following the shifting of the limit lower. 8. The method according to claim 6, wherein the selected refrigeration entity has the temperature that is closest to an upper limit of the predetermined temperature range of that refrigeration entity. 9. The method according to claim 6, wherein the step of individually permitting the flow of refrigerant comprises: transmitting a control signal from the pressure control unit to the selected refrigeration entity, andopening a solenoid valve to initiate the flow of refrigerant to the evaporator of the selected refrigeration entity in response to the control signal. 10. The method according to claim 1, further comprising the step of shifting an upper limit of the predetermined suction pressure range to a higher value by an amount ΔPU after having prevented a flow of refrigerant through a refrigeration entity, wherein ΔPU approaches zero during a time interval following the shifting of the upper limit. 11. A control system for controlling a refrigeration system comprising a compressor rack having a variable compressor capacity, at least two refrigeration entities, each having an evaporator being passed by a controllable flow of refrigerant, and a pressure control unit, the control system comprising: means for determining a suction pressure of the refrigeration system,means for controlling the suction pressure by individually permitting or preventing flow of refrigerant into the evaporator of one or more of the refrigeration entities in response to a control signal from the pressure control unit, so as to maintain the suction pressure within a predetermined suction pressure range, andmeans for controlling the compressor capacity so as to match a desired capacity level, based on a signal derived from an average temperature of the at least two refrigeration entities and from a change in refrigeration demand of the refrigeration system determined by the difference between the number of refrigeration entities to which a flow of refrigerant into the evaporator has been permitted and the number of refrigeration entities to which a flow of refrigerant into the evaporator has been prevented during a specific time period,wherein the means for controlling the suction pressure is adapted to maintain a temperature of each refrigeration entity within a predetermined temperature range, andwherein the predetermined temperature range is defined individually for each refrigeration entity. 12. A refrigeration system comprising a control system according to claim 11.