Dry Screw Vacuum Pumps

Principle of Operation

Dry screw vacuum pumps contain two screw rotors which rotate inside a cylinder. Thereby, the gas is trapped between cylinder and screw chambers and carried to the gas discharge. There is no contact between the two screw rotors and there is no need for additional lubrication. Cooling is achieved by either a recirculating system without additional cooling water or by a direct non-recirculating cooling system with external cooling water connection.

Products using this technology:

COBRA Industry
COBRA Semicon

Dry Screw Vacuum Pumps

Principle of Operation

Dry screw vacuum pumps operate with two screw rotors rotating in opposite directions. This traps the medium to be pumped between the cylinder and the screw chambers and transports it to the gas discharge. The advanced screw design results in lower electric energy consumption compared to standard screw designs. It also results in a lower heat load of the compressed gas.

Cooling can be achieved through a high performance air cooling method eliminating the need of cooling water or indirect cooling method resulting in uniform temperatures throughout the pump body, eliminating cold spots and providing a thermally stable water jacket. The advanced screw design allows for best-in-class hydrogen pumping capabilities. Water cooling can take place in form of both direct water cooling or radiator cooling with air-cooled heat exchangers. 

 

Products using this technology:


COBRA Industry COBRA Semicon


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