Stainless steel construction with intelligent PLC control and filter element change timer.
Supplied with 2x CARDEV SDFC Filter Elements.
- Intelligent PLC control
- High / low pressure cutoff
- Filter element change timer
- Stainless steel construction
- Integrated sample points – allows connection to particle monitors / oil sampling
The 2S-500E benefits include:
- Removes varnish and microparticles (down to less than 1 micron)
- Removes free and dissolved water contamination
- Increases system reliability
- Prevents system corrosion
- Reduces component wear
- Extends oil life and generates CO2 savings
- Reduces operating costs
Suitable for all types of industrial applications including:
- Power generation
- Plastic moulding
- Cement Industry
- Manufacturing plants
- Service workshops
Flow Rate (l/h):
H: 1000 W: 590 L: 676
Filter Element Type:
2 x SDFC Filter Elements
100 times magnified, 1 scale mark = 10μm. Oil cleanliness is maintained at better than new levels. (Down to 13/11/8 (ISO 4406: 1999) – Class 2 NAS 1638).
Before using CARDEV Filtration
After using CARDEV Filtration
Before And After Using CARDEV Oil Filtration
Removes free and dissolved water down to <50ppm (0.005%).
Without CARDEV Filtration
Not monitoring your oil is more damaging than you think.
With CARDEV Filtration
Within 1 week of installing a CARDEV Filtration system, you will notice a significant improvement with your machine.
Other Products Similar To The CFU-10PG
Cleaning and recycling oil can be easy
CARDEV Industrial Vacuum Cleaner 2:00
Designed to remove coolant, swarf and oil from machine tool sumps.
CARDEV Filter Element Change 1:29
Our step-by-step video shows the correct way to replace a CARDEV SDFC filter element.
Frequently Asked Oil Filtration Questions
Contamination can be broken down into three basic forms – Particulate, Water and Air.
Particulate is generally classified as ‘Silt’ or ‘Chip’. Silt is defined as an accumulation over time of particulates measuring less than 5 microns. The effect of Silt contamination is a slow degradation of system component performance and failure. Chips (measuring more than 5 microns) have a more dramatic effect and can cause immediate, catastrophic, unplanned and costly failures.
There are many areas where contamination can gain access into a hydraulic system, starting from as early as the build process. These include dust, welding slag, rubber from hydraulic hoses/seals, sand from castings, poor cleaning of components, and metal debris from machined components.
Open reservoir filling points, leaking heat exchangers, poor-performing or non-existing reservoir breathers, lack of proper filtration methods and worn cylinder seals are just some of the additional areas contaminants can enter during operation.
Another major source of contamination introduction simply happens when fresh, new, but dirty, contaminated oils are introduced. This can even happen during system top-ups.
The following chart (ISO And NAS Cleanliness Codes) details the ISO code, relevant particle amounts and the type of application and its sensitivity level. More sensitive applications require cleaner oil to ensure reliability.
Absolutely. To avoid wasting anyone’s valuable time, however, we like the trial to be towards the end of the consultation process, to provide proof of concept. This means we will have gone through pricing with you, and we will have established criteria for a successful trial.