MAMAC EP-311-020 Systems 0/20# E-P Xdcr w/o ManOverride

0/20# E-P Xdcr w/o ManOverride

The EP-311-020 is a 0/20# E-P Xdcr w/o ManOverride manufactured by MAMAC. The 0/20# E-P Xdcr w/o ManOverride features include:

The EP-311-020 Pneumatic System is an emergency power system for the E-P Xdcr and is used in instances when there is a loss of power. The EP-310 System includes the 0/20# E-P Xdcr w/o ManOverride, Valve Plug Assembly, 3' x 10" Hard Line with 4" TEE for inlet connection, and a 6' x 3/8" CO2 Hose with 1/4" Male NPT fitting on one end.

The EP-311-020 Systems 0/20# E-P Xdcr w/o ManOverride is a Highly reliable electro-pneumatic proportional valve, manufactured by MACPAC offers a wide scope of precision. It is used for control in a wide range of critical air pressure applications and works on the principle of proportional feedback

The E-P Xdcr System is designed to provide operators with a more cost-effective mainline control system. By using an EPLD based controller to replace the conventional PLC, up to 65% can be saved on parts and service. The Epdcr system can be utilized with optional rack mounted modules that accommodate anything from 0/20# to 500# capacities and have built in interfaces to common AC drives.

The MAMAC Xdcr Series of E-P pumps are hermetically sealed vertical turbine pumps designed for reliability, safe and dry operation. This Xdcr pump was created with the 'End Of Line Zone' (EOL) in mind and is available in Xdcr models with ManOverride Disconnects (MOM), for applications where a manual action may be required. This item can be used in many applications such as pump stations, residential and commercial water supply, firefighting and industrial water supply.

E-P loader xdcr, dual pump motor with 20x27 front drum.

Xdcr is a versatile electro density control system designed to be suitable for use in bulk storage tanks. The Xdcr system integrates high pressure and high temperature safety relief valves together with a pressure controller and an electronic variable frequency drive. All critical components are housed in an explosion-proof enclosure of appropriate design for the application. The isolation of these components from the tank bottom area allows improved and independent protection of the tank bottom area against process fluids.