There are other factors that must be taken into account when it come to hydraulic filter selection.
These variables will affect each other. To select the correct filter you need to establish the expected fluid viscosity as it varies with temperature.
The following must be known:
The fluid type
The fluid temperature at start up
The fluid temperature during normal operation
Other important factors are:
The required fluid cleanliness target
The efficiency rating of the filter
Fluid Cleanliness Targets
When discussing fluid cleanliness, we refer to ISO 4406 as a method of counting and quantifying contamination in a system.
The chart above shows recommended ratings for common system components. Many hydraulic manufacturers publish required fluid cleanliness levels for their equipment.
Guide to Filter Placement
The table below can be used as a guide for filter placement in a system.
Each of the blocks shows the suggested micron rating for the filter element. Note that RYCO support suction and return filters only.
The method for selecting the filter type is to check the published minimum cleanliness level for the most sensitive component in the system, and then looking at the chart to select the filter rating and placement required.
Beta Ratios and Filter Efficiency
When choosing filtration products, it is important to understand how well the product will perform.
ISO 4572 is known as a multipass test. It measures the filtering efficiency of the element, which is published as the Beta ratio.
The multipass test also establishes the pressure drop across a filter element, and the dirt holding capacity of the element.
The Beta ratio is the ratio between the number of particles introduced to a fluid before a filter, and the number of particles after the fluid has passed through a filter element.
The Beta ratio is displayed with a micron rating. In this way the ratio describes the filtering efficiency of the filter element when trapping particles of a given size.
A filter that is a poor performer at trapping particles will have a lower Beta ratio than a more efficient filter.
Filters with a low Beta ratio are called NOMINAL filters, as they have a NOMINAL rating. This means that the filter will be adequate at trapping particles of a given size.
Filters that are highly efficient will have a higher Beta ratio. Filters with a Beta ratio over 75 are called ABSOLUTE rated filters. This means that they can be considered to trap all particles of a given size or larger.
This chart below also appears on page 381 of the RYCO Product Technical Manual, (AUS July 2007).
It demonstrates that a 10 micron absolute filter is very efficient at trapping particles larger than 10 micron, but ineffective at trapping smaller particles.
Almost all filter elements are supported on the inside surface. Fluid flows through the element from the outside to the inside.
As a filter catches and holds particles, it gets harder for fluid to flow through the element.
This causes a build up of pressure on the outside of the element, therefore a pressure differential across it.
If too high a pressure is allowed to build up inside a filter housing, it could cause the element to collapse, or the housing to rupture.
Many filters incorporate a bypass valve, which limits the pressure differential by allowing the fluid to bypass the element.
During the bypass condition, there is no filtering taking place.
It is important to remember that filter bypass is not a desirable condition.
A rule of thumb for system designers and selectors of filtration products is that the pressure drop across a new or “clean” element should not exceed 25% of the bypass rating. i.e. 2.5 Bar pressure drop allowed for a 10 Bar bypass spring rating.
Indicators are fitted to filters to display the pressure drop across the element.
It is strongly recommended that all filters have condition indicators fitted.
For more information, see page 370 of the RYCO Product Technical Manual (RHY-RHC0707AUS).
Understanding Hydraulic Filtration
In simple terms, filtration is a method of removing particles from a fluid by trapping them within a screen of suitable material.
Filtration becomes more complex when you look more closely at it.
Fluid type, temperature, operating temperature, filter efficiency and by-pass settings all influence the effectiveness of any filtration product.