描述
The culmination of 30 years of expertise in water control for lubrication and hydraulic control circuits
With a design based on 30 years of actual field experience, the Pall HLP6 oil purifier combines the excellent efficiency of mass transfer purifiers with an exceptional level of reliability and ease of use. Water contamination in oil systems is responsible for major maintenance and operational problems of critical components in lubrication and hydraulic circuits. From power generation turbines to paper machines, these problems include:
- Increased corrosion in the system, especially at bearing locations
- Increased oil oxidation and acid build-up
- Sluggish response of control systems
Free water and dissolved water
In a typical oil system, temperature swings constantly change the dissolved water content of the oil. At the reservoir location it is critical to remove not only free water, but also a large portion of dissolved water. This is the only way to ensure that free water will not appear when the fluid goes through the cool parts of the system, especially when an oil cooler is used downstream of the reservoir.Free water removal in typical turbine oil: bright clear aspect shows absence of free water
Applications
Applications Served
Power Generation
- Main turbine lube oil
- Boiler feed pump reservoir
- Transformer oil
- EHC systems
Pulp and Paper
- Wet end/dryer lube
- Press section lube and hydraulics
- Steam turbine lube and hydraulics
Primary Metals
- Roll mill automatic gauge control hydraulics
- Roll mill gear and pinion lube systems
- Roll grinder lube systems
Light Industrial
- Bulk oil reclamation
- Blow molding
- Injection molding
- Machine tool hydraulic oils
- Automotive transfer line hydraulic oils
Fuels and Chemicals
- Extruder gear boxes
- Compressor and turbine lube oil
- Boiler feed pump reservoir
Key Advantages
Improved System Performance
- Fewer costly operational delays
- Increased system reliability
- Less downtime resulting from service interruptions
- Can work on higher viscosity oils (up to 1,000 cSt)
- Lower power consumption
Extended Fluid Life
- Greatly reduced oil change outs due to contamination
Reduced System Wear
- Less frequent component changes needed
- Smaller parts inventory required
Reduced Fluid Disposal Costs
- Sharply reduced need to dispose contaminated fluids
- Reduced waste oil disposal costs
Specifications
Flow rate | 6 GPM (22.7 l/min) at 60Hz |
Viscosity range | 3 cSt to 1000 cSt |
Seal Material | Fluorocarbon |
Fluid compatibility | Petroleum and synthetic based fluids. |
Working Temperature Range | |
Inlet Fluid Temperature | 170 °F (76 °C) maximum |
Ambient Temperature | 39 °F to 105 °F (3.9 °C to 40.6 °C) |
Enclosure | NEMA 4 (IP65) |
Piping Codes | Conforms to ANSI B31.1 – Power Piping Code Conforms to ANSI B31.3 – Process Piping Code |
Dimensions | 72" H x 48" L x 32" W 183 cm H x 122 cm L x 81 cm W (same dimensions with or without casters) |
Weight | 1150 lbs (521 Kg) |
Connections | Inlet - 1.5" FNPT Outlet - 1.0" FNPT |
Inlet Pressure Range | -14" Hg to 10 PSI (-0.47 bar to 0.69 bar) |
Maximum Outlet Pressure | 80 Psig (5.5 barg) |
Heater | 4KW PLC Controlled |
Paint Scheme | Powder-coated (suitable for industrial phosphate ester service) |
Filtration | Pall's SRT filter series 319, 20" cartridge, from 3 to 22 microns available at 99.9% efficiency |
Performance
The Pall HLP6 purifier has a newly redesigned vacuum tower which allows for very efficient water removal. It is designed to remove 100% of free gases and water (under steady state conditions), and up to 80% of dissolved gases and water. It is also designed to remove solid contaminants, with efficiency of 99.9% (down to 3 microns).
The HLP6 oil purifier showed a 40% faster dehydration rate when compared to a leading, similarly sized purifier.
The HLP6 oil purifier showed a 40% faster dehydration rate when compared to a leading, similarly sized purifier.
- Initial water content is above saturation (free water).
- Maximum water removal capability of "free water removal" devices (coalescers, centrifuges, etc.) is to the oil’s saturation point.
- Water content achieved with mass transfer dehydration is significantly below the oil’s saturation point.
- Water content achieved with mass transfer dehydration remains below the oil’s saturation point even after oil is cooled. This prevents the formation of harmful free water.
- If only free water is removed at initial temperature, when oil is cooled the amount of harmful free water in the oil can increase significantly
Segments
Steam Plants
Type
Oil Purifiers
Use
Purification
Ordering Information
HLP6 [Table 1/Voltage] [Table 2/Filter] [Table 3/Seals] [Table 4/Mounting] [Table 5/Water Sensor] [Table 6/Language]
Table 1: Voltage Options
W | 480V - 60Hz - 3P (standard) |
1 | 575V - 60Hz - 3P |
R | 380V - 50Hz - 3P |
Table 2: Filter Element Options
Code | ßx(c) ≥; 1000 based on ISO 16889 |
CST Rating* |
AZ | 3 | 08/04/01 |
AP | 5 | 12/07/02 |
AN | 7 | 15/11/04 |
AS | 12 | 16/13/04 |
AT | 22 | 17/15/08 |
*CST: Cyclic Stabilization Test to determine filter rating under stress conditions, based on SAE ARP4205
Table 3: Seal Material
Z | Fluorocarbon (standard) |
Table 4: Mount Configuration
C | Caster Wheels (standard) |
F | Floor Mount (no casters) |
P | Tow Package |
Table 5: Water Sensor Option
W | WS10 Water Sensor |
Table 6: Language
E | English (standard) |
Spare Parts | Pall Part Number |
Polishing Filter | UE319A*20Z |
Exhaust Coalescer | OL4C (cat# 1305787) |
Air Breather | HC0293SEE5 |
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