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Submicronic Removal Fluid Purification Systems
*PRODUCT IMAGE IS REPRESENTATIVE PROVIDED BY THE MANUFACTURER. DO NOT MAKE BUYING DECISIONS SOLEY BASED ON THE IMAGE. PLEASE VERIFY SPECIFICATIONS MEET YOUR REQUIREMENTS.
The Parker SMR Series Submicronic Removal Fluid Purification System is the smart purification solution for fluid flow around 10 GPM (38 LPM). The SMR contains Parker patented Balanced Charge Agglomeration (BCA™) technology, which maintains hydraulic and lubricating fluids in optimum condition while preventing/removing the build-up of sludge and varnish.
Balanced Charge Agglomeration (BCA™) technology does not remove water, however with the removal of thousands of submicron particles; the majority of sites where water can readily attach are mitigated. Water is more easily separated and removed, improving demulsibility, or the ability to release water.
Demulsibility is an important factor to consider when hydraulic equipment operates in an atmosphere that is wet or humid. Food-processing operations, such as cooking oil, for example, provide significant exposure to water-based process fluids.
Because oil is hygroscopic, or able to absorb water, it is quite easy for water to saturate the oil. Water enters through any number of ways, and must be removed in order to protect a system’s operation. When demulsibility is diminished, the oil will become contaminated by the water, causing quick wear to the system’s components.
Maintaining a hydraulic system’s oil cleanliness level will increase the life of the critical wear components, and reduce system downtime. Portable purification units are ideal for systems in applications demanding on-site decontamination. With several models to choose from, the Parker SMR Series is an ideal solution for many hydraulic system’s needs.
This system is available in a PLC or simplified control version. Please contact a Parker Representative for assistance.
Balanced Charge Agglomeration (BCA™) - How the Technology Works:
Contaminated fluid is passed over a series of high-voltage electrodes, inducing a charge on the submicron particles of (+) and (-), then the particles continue down separate paths. (Note that particulate contamination as small as 0.1 microns are able to amass this charge). Oil, a non-conducting fluid, remains neutral. The two oppositely charged particle fluid streams are then re-combined. The oppositely charged particles are then mixed and are attracted to each other, forming larger particle clusters, growing in size as they agglomerate, or join together. Submicron particles grow into multiple micron-sized particle clusters. Once larger in size, the particle clusters are more efficiently filtered. Finally, the particle clusters are then sent through the system’s high efficiency filter to be removed.
Applications:
• Power Generation (such as: Steam/Gas Turbine, and Hydraulics/Lubrication)
• Oil & Gas (such as: Compressor/Turbine Hydraulics and Lubrication)
• Pulp & Paper (such as: Lube Oil and Hydraulics)
• Manufacturing (such as: Hydraulics, Lubrication, EDM, and Injection Molders)
• Others (such as: Cooking Oil, Gear Oil, Fuels, Bio Fuels, Steel, and Military)
Features:
• Contaminant Removal to the Sub-Micron Level
• Prevention and Removal of Sludge and Varnish
• Removal of Oxidation Byproducts and Biological Contamination
• Removal of Ferrous and Non-Ferrous Contaminants
The Parker SMR Benefit:
• Unmatched Fluid Purification and System Polishing
• Proven Varnish Removal
• PLC Control & Data Tracking
• OEM Approvals
Read More...Balanced Charge Agglomeration (BCA™) technology does not remove water, however with the removal of thousands of submicron particles; the majority of sites where water can readily attach are mitigated. Water is more easily separated and removed, improving demulsibility, or the ability to release water.
Demulsibility is an important factor to consider when hydraulic equipment operates in an atmosphere that is wet or humid. Food-processing operations, such as cooking oil, for example, provide significant exposure to water-based process fluids.
Because oil is hygroscopic, or able to absorb water, it is quite easy for water to saturate the oil. Water enters through any number of ways, and must be removed in order to protect a system’s operation. When demulsibility is diminished, the oil will become contaminated by the water, causing quick wear to the system’s components.
Maintaining a hydraulic system’s oil cleanliness level will increase the life of the critical wear components, and reduce system downtime. Portable purification units are ideal for systems in applications demanding on-site decontamination. With several models to choose from, the Parker SMR Series is an ideal solution for many hydraulic system’s needs.
This system is available in a PLC or simplified control version. Please contact a Parker Representative for assistance.
Balanced Charge Agglomeration (BCA™) - How the Technology Works:
Contaminated fluid is passed over a series of high-voltage electrodes, inducing a charge on the submicron particles of (+) and (-), then the particles continue down separate paths. (Note that particulate contamination as small as 0.1 microns are able to amass this charge). Oil, a non-conducting fluid, remains neutral. The two oppositely charged particle fluid streams are then re-combined. The oppositely charged particles are then mixed and are attracted to each other, forming larger particle clusters, growing in size as they agglomerate, or join together. Submicron particles grow into multiple micron-sized particle clusters. Once larger in size, the particle clusters are more efficiently filtered. Finally, the particle clusters are then sent through the system’s high efficiency filter to be removed.
Applications:
• Power Generation (such as: Steam/Gas Turbine, and Hydraulics/Lubrication)
• Oil & Gas (such as: Compressor/Turbine Hydraulics and Lubrication)
• Pulp & Paper (such as: Lube Oil and Hydraulics)
• Manufacturing (such as: Hydraulics, Lubrication, EDM, and Injection Molders)
• Others (such as: Cooking Oil, Gear Oil, Fuels, Bio Fuels, Steel, and Military)
Features:
• Contaminant Removal to the Sub-Micron Level
• Prevention and Removal of Sludge and Varnish
• Removal of Oxidation Byproducts and Biological Contamination
• Removal of Ferrous and Non-Ferrous Contaminants
The Parker SMR Benefit:
• Unmatched Fluid Purification and System Polishing
• Proven Varnish Removal
• PLC Control & Data Tracking
• OEM Approvals
| Action | Part No. | Availability | Partner Available | Price | Maximum Kinematic Viscosity | Seal Material | Maximum Fluid Temperature | Weight | Compatible Element | Flow Rate | Indicator Type | Options | Electrical Requirements | Filter Element Type | Maximum Ambient Temperature | Minimum Fluid Temperature | Division | Flow Rate (gpm) | Filter Element | Options | Electrical Requirements | Seal Material | Indicator Type |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| SMR1057505QEPXN16PD | Quote Required | TBD | 1020 | Ethylene Propylene | 200 | 190 | CF | 10 | No indicator | Particle Detector | 575 VAC, three phase, 60Hz | 05Q Microglass | 120 | 65 | Engine Mobile Hydraulic and Fuel Filtration Division | 10 | 05Q Microglass | Particle Detector | 575 VAC, three phase, 60Hz | Ethylene Propylene | No indicator | ||
| SMR1057505QEPXN16PDM | Quote Required | TBD | 1020 | Ethylene Propylene | 200 | 190 | CF | 10 | No indicator | Particle Detector with Moisture Sensor | 575 VAC, three phase, 60Hz | 05Q Microglass | 120 | 65 | Engine Mobile Hydraulic and Fuel Filtration Division | 10 | 05Q Microglass | Particle Detector with Moisture Sensor | 575 VAC, three phase, 60Hz | Ethylene Propylene | No indicator | ||
| SMR1057505QVM2XN16 | Quote Required | TBD | 1020 | Fluorcarbon | 200 | 190 | 933219Q | 10 | Analog Visual Indicator | None | 575 VAC, three phase, 60Hz | 05Q Microglass | 120 | 65 | Engine Mobile Hydraulic and Fuel Filtration Division | 10 | 05Q Microglass | None | 575 VAC, three phase, 60Hz | Fluorocarbon | Analog Visual Indicator | ||
| SMR1057505QVM2XN16PD | Quote Required | TBD | 1020 | Fluorcarbon | 200 | 190 | 933219Q | 10 | Analog Visual Indicator | Particle Detector | 575 VAC, three phase, 60Hz | 05Q Microglass | 120 | 65 | Engine Mobile Hydraulic and Fuel Filtration Division | 10 | 05Q Microglass | Particle Detector | 575 VAC, three phase, 60Hz | Fluorocarbon | Analog Visual Indicator | ||
| SMR1057505QVM2XN16PDM | Quote Required | TBD | 1020 | Fluorcarbon | 200 | 190 | 933219Q | 10 | Analog Visual Indicator | Particle Detector with Moisture Sensor | 575 VAC, three phase, 60Hz | 05Q Microglass | 120 | 65 | Engine Mobile Hydraulic and Fuel Filtration Division | 10 | 05Q Microglass | Particle Detector with Moisture Sensor | 575 VAC, three phase, 60Hz | Fluorocarbon | Analog Visual Indicator | ||
| SMR1057505QVPXN16 | Quote Required | TBD | 1020 | Fluorcarbon | 200 | 190 | 933219Q | 10 | No indicator | None | 575 VAC, three phase, 60Hz | 05Q Microglass | 120 | 65 | Engine Mobile Hydraulic and Fuel Filtration Division | 10 | 05Q Microglass | None | 575 VAC, three phase, 60Hz | Fluorocarbon | No indicator | ||
| SMR1057505QVPXN16PD | Quote Required | TBD | 1020 | Fluorcarbon | 200 | 190 | 933219Q | 10 | No indicator | Particle Detector | 575 VAC, three phase, 60Hz | 05Q Microglass | 120 | 65 | Engine Mobile Hydraulic and Fuel Filtration Division | 10 | 05Q Microglass | Particle Detector | 575 VAC, three phase, 60Hz | Fluorocarbon | No indicator | ||
| SMR1057505QVPXN16PDM | Quote Required | TBD | 1020 | Fluorcarbon | 200 | 190 | 933219Q | 10 | No indicator | Particle Detector with Moisture Sensor | 575 VAC, three phase, 60Hz | 05Q Microglass | 120 | 65 | Engine Mobile Hydraulic and Fuel Filtration Division | 10 | 05Q Microglass | Particle Detector with Moisture Sensor | 575 VAC, three phase, 60Hz | Fluorocarbon | No indicator | ||
| SMR1057510QEM2XN16 | Quote Required | TBD | 1020 | Ethylene Propylene | 200 | 190 | CF | 10 | Analog Visual Indicator | None | 575 VAC, three phase, 60Hz | 10Q Microglass | 120 | 65 | Engine Mobile Hydraulic and Fuel Filtration Division | 10 | 10Q Microglass | None | 575 VAC, three phase, 60Hz | Ethylene Propylene | Analog Visual Indicator | ||
| SMR1057510QEM2XN16PD | Quote Required | TBD | 1020 | Ethylene Propylene | 200 | 190 | CF | 10 | Analog Visual Indicator | Particle Detector | 575 VAC, three phase, 60Hz | 10Q Microglass | 120 | 65 | Engine Mobile Hydraulic and Fuel Filtration Division | 10 | 10Q Microglass | Particle Detector | 575 VAC, three phase, 60Hz | Ethylene Propylene | Analog Visual Indicator | ||
| SMR1057510QEM2XN16PDM | Quote Required | TBD | 1020 | Ethylene Propylene | 200 | 190 | CF | 10 | Analog Visual Indicator | Particle Detector with Moisture Sensor | 575 VAC, three phase, 60Hz | 10Q Microglass | 120 | 65 | Engine Mobile Hydraulic and Fuel Filtration Division | 10 | 10Q Microglass | Particle Detector with Moisture Sensor | 575 VAC, three phase, 60Hz | Ethylene Propylene | Analog Visual Indicator | ||
| SMR1057510QEPXN16 | Quote Required | TBD | 1020 | Ethylene Propylene | 200 | 190 | CF | 10 | No indicator | None | 575 VAC, three phase, 60Hz | 10Q Microglass | 120 | 65 | Engine Mobile Hydraulic and Fuel Filtration Division | 10 | 10Q Microglass | None | 575 VAC, three phase, 60Hz | Ethylene Propylene | No indicator | ||
| SMR1057510QEPXN16PD | Quote Required | TBD | 1020 | Ethylene Propylene | 200 | 190 | CF | 10 | No indicator | Particle Detector | 575 VAC, three phase, 60Hz | 10Q Microglass | 120 | 65 | Engine Mobile Hydraulic and Fuel Filtration Division | 10 | 10Q Microglass | Particle Detector | 575 VAC, three phase, 60Hz | Ethylene Propylene | No indicator | ||
| SMR1057510QEPXN16PDM | Quote Required | TBD | 1020 | Ethylene Propylene | 200 | 190 | CF | 10 | No indicator | Particle Detector with Moisture Sensor | 575 VAC, three phase, 60Hz | 10Q Microglass | 120 | 65 | Engine Mobile Hydraulic and Fuel Filtration Division | 10 | 10Q Microglass | Particle Detector with Moisture Sensor | 575 VAC, three phase, 60Hz | Ethylene Propylene | No indicator | ||
| SMR1057510QVM2XN16 | Quote Required | TBD | 1020 | Fluorcarbon | 200 | 190 | 933220Q | 10 | Analog Visual Indicator | None | 575 VAC, three phase, 60Hz | 10Q Microglass | 120 | 65 | Engine Mobile Hydraulic and Fuel Filtration Division | 10 | 10Q Microglass | None | 575 VAC, three phase, 60Hz | Fluorocarbon | Analog Visual Indicator | ||
| SMR1057510QVM2XN16PD | Quote Required | TBD | 1020 | Fluorcarbon | 200 | 190 | 933220Q | 10 | Analog Visual Indicator | Particle Detector | 575 VAC, three phase, 60Hz | 10Q Microglass | 120 | 65 | Engine Mobile Hydraulic and Fuel Filtration Division | 10 | 10Q Microglass | Particle Detector | 575 VAC, three phase, 60Hz | Fluorocarbon | Analog Visual Indicator | ||
| SMR1057510QVM2XN16PDM | Quote Required | TBD | 1020 | Fluorcarbon | 200 | 190 | 933220Q | 10 | Analog Visual Indicator | Particle Detector with Moisture Sensor | 575 VAC, three phase, 60Hz | 10Q Microglass | 120 | 65 | Engine Mobile Hydraulic and Fuel Filtration Division | 10 | 10Q Microglass | Particle Detector with Moisture Sensor | 575 VAC, three phase, 60Hz | Fluorocarbon | Analog Visual Indicator | ||
| SMR1057510QVPXN16 | Quote Required | TBD | 1020 | Fluorcarbon | 200 | 190 | 933220Q | 10 | No indicator | None | 575 VAC, three phase, 60Hz | 10Q Microglass | 120 | 65 | Engine Mobile Hydraulic and Fuel Filtration Division | 10 | 10Q Microglass | None | 575 VAC, three phase, 60Hz | Fluorocarbon | No indicator | ||
| SMR1057510QVPXN16PD | Quote Required | TBD | 1020 | Fluorcarbon | 200 | 190 | 933220Q | 10 | No indicator | Particle Detector | 575 VAC, three phase, 60Hz | 10Q Microglass | 120 | 65 | Engine Mobile Hydraulic and Fuel Filtration Division | 10 | 10Q Microglass | Particle Detector | 575 VAC, three phase, 60Hz | Fluorocarbon | No indicator | ||
| SMR1057510QVPXN16PDM | Quote Required | TBD | 1020 | Fluorcarbon | 200 | 190 | 933220Q | 10 | No indicator | Particle Detector with Moisture Sensor | 575 VAC, three phase, 60Hz | 10Q Microglass | 120 | 65 | Engine Mobile Hydraulic and Fuel Filtration Division | 10 | 10Q Microglass | Particle Detector with Moisture Sensor | 575 VAC, three phase, 60Hz | Fluorocarbon | No indicator |