MAFH-A - Dewatering System 1.5 gpm (Water and Solid Removal)
MAFH-A Dehydration Station is a Dewatering system to effectively remove water (free, dissolved and emulsified) and particulate contamination from small hydraulic reservoirs.MAFH-A Dehydration Station 1.5 GPM flow rate Viton seals Mobile cart frame 115 VAC 5 micron element /Asset/FilSys_OilDehydrSys_MAFH_A.jpg
NAV - North American Vacuum Dehydrator
(4) The North American Vacuum Dehydrator (NAV) uses vacuum dehydrating technology to remove both free and dissolved water, and gases, from oil. In addition to water and gas, the NAV also removes solid contaminants from the oil with the use of highly efficient filter elements installed on the unit. The NAV is designed for use with larger applications, such as the conditioning of oil in larger hydraulic and lube reservoirs.Water Sensor standard on all units to show percent saturation. Removes 100% of free and over 90% of dissolved water, as well as 100% of free and over 90% of dissolved gases. Maintenance, operating, troubleshooting instructions are in HMI (touchscreen). Automatic mode enables user-defined system shutdowns. Use of a low maintenance, dry running claw vacuum pump helps to avoid any dangerous, chemically reactive by-products. /Asset/FilSys_OilDehydrSys_Nav30.jpg
MAFH-E - Dewatering System (Water and Solid Removal)
(6) MAFH-E Dehydration Station is a Dewatering system to effectively remove water (free, dissolved and emulsified) and particulate contamination from hydraulic reservoirs. /Asset/FilSys_OilDehydrSys_MAFH_E.jpg
Head Space Dehydrator
The HSD – Head Space Dehydrator is designed for permanent installation on a hydraulic reservoir to reduce water vapor condensation. This water is a major cause of rust, cavitation, sensor
failure, and other system failure modes. By passing a stream of dry, filtered air over the top of the oil, the moist air will be removed from the reservoir with dry air taking its place.
The resulting reduction in water and particulate in the oil will result in better life of critical system components. Most hydraulic reservoirs in Primary Metals, Pulp & Paper, and other industries contain a pocket of air between the top of the reservoir and the fluid level. By addressing this known mechanism of water and particulate ingression, we can minimize contamination more effectively at a lower cost
