Motor Operated Valves

CCM

The CCM is an electrically operated valve designed specifically for operation in CO2 systems. The valve is capable of functioning both as an expansion valve, and as a gas bypass valve with back-pressure regulation in subcritical applications. The pressure rating allows for operation in environments where system standby capability is required without the need for auxiliary cooling systems during servicing or power outages.

CCMT

The CCMT is an electrically operated valve designed specifically for operation in CO2 systems. The CCMT valve concept is designed to fulfil global refrigeration requirements. The valve is capable of functioning either as an expansion valve, as a pressure regulator for the gascooler or as a gas bypass valve with backpressure regulation in transcritical or subcritical applications.

CTR

The CTR is an electrically operated 3-way valvedesigned specifically for operation in CO2 systemswith heat reclaim. CTR is designed to allow fullproportional control of the surplus heat fromcompressor pack into the heat exchanger oftrans critical heat reclaim solutions.The proportional control of the CTR ensures thatthe exact amount of heat required is available atany time, and the possibility to operate smoothlyin changeover sitiuations allowing for stablecontrol.The typical application for the CTR is a Pack/rack system in food retail application workingwith trans critical CO2. Heat reclaim is the currentmost attractive energy advantage of trans criticalCO2. Even as trans critical CO2 systems are onpar or outperform traditional HFC installationson energy performance, this also ensures thepossibility to supply high quality heat to beexploited. Heat reclaim is seeing an increaseddeployment and becoming a norm in mosttrans critical CO2 retail installations today

ICM

The ICM motor variant is an electroniccontrolled valve driven by the actuator typeICAD. The ICM valve is designed to controlpressure or temperature in all locations of arefrigeration system and additional the valve isdesigned to control an expansion process(expansion over the valve).The opening and closing forces in the ICM areminimized thus only 2 sizes of ICAD arerequired.

ICMTS

The ICMTS is a direct operated motorized valve driven by actuator type ICAD 600A-TS. The ICMTS is designed to regulate the flow of transcritical gas or subcritical liquid from the gascooler in transcritical CO2 systems. The ICMTS can also be used for other control functions in CO2 systems. The ICMTS valve is designed so that the opening and closing forces are balanced.ICAD 600A-TS actuators can also operate an ICMTS valve as an On/Off function supported by a digital input. The ICMTS valve can be operated manually via the ICAD 600A-TS actuator or via the Multifunction tool for ICMTS.

ICMTS 50/80

The ICMTS is a direct operated motorized valve driven by actuator type ICAD 600A-TS. The ICMTS is designed to regulate the flow of transcritical gas or subcritical liquid from the gascooler in transcritical CO2 systems. The ICMTS can also be used for other control functions in CO2 systems. The ICMTS valve is designed so that the opening and closing forces are balanced.ICAD 600A-TS actuators can also operate an ICMTS valve as an On/Off function supported by a digital input. The ICMTS valve can be operated manually via the ICAD 600A-TS actuator or via the Multifunction tool for ICMTS.

KVS

KVS is a series of electronic suction modulating valves for AC transport and refrigeration applications. Accurate temperature or pressure control is obtained by modulating the refrigerant flow in the evaporator with a current or voltage driver. With an EKC 368 controller (current driver) and an AKS sensor placed in the media to be controlled, an accuracy better than ± 0.5K can be obtained. The balanced design provides bi-flow operation as well as solenoid shut-off function in both flow directions at MOPD 33 bar (478 psig).

KVS 1C/2C/3C/5C

KVS Colibri® is a series of electric suction modulating valves for AC transport and refrigeration applications. Accurate temperature or pressure control is obtained by modulating the refrigerant flow in the evaporator with a current or voltage driver.The balanced design provides bi-flow operation as well as solenoid shut-off function in both flow directions at MOPD 40 bar (580 psig).