Difference between revisions of "Disc Filters"

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[[File:Disc_Filter_03.jpg|thumb|right|DiscFilter]]
[[File:Disc_Filters_02.jpg|thumb|right|Disc filter]]
[[File:Disc_Filter_02.jpg|thumb|right|Disc Filter Rings]]
[[File:Disc_Filters_03.jpg|thumb|right|Disc filter]]
[[File:Disc_Filter_01.jpg|thumb|right|Disc Filtration]]
[[File:Disc_Filters_01.jpg|thumb|right|Parts of Disc Filter]]
  A '''disk filter''' is a type of water filter used primarily in irrigation, similar to a screen filter, except that the filter cartridge is made of a number of disks stacked on top of each other like a pile of poker chips. The water passes through the small grooves in between and the impurities are trapped behind. Some types of disk filters can be backflushed in such a way that the disks are able to separate and spin during the cleaning cycle.
A '''disc filter''' is a type of water filter used primarily in irrigation, similar to a screen filter, except that the filter cartridge is made of a number of disks stacked on top of each other like a pile of poker chips. The water passes through the small grooves in between and the impurities are trapped behind. Some types of disk filters can be backflushed in such a way that the disks are able to separate and spin during the cleaning cycle.




==Operation==
==How it work==
Disk Filters using a specially designed disc filter technology. Thin, color-coded polypropylene discs are diagonally grooved on both sides to a specific micron size. A series of these discs is then stacked and compressed on a specially designed spine. When stacked, the groove on top runs opposite to the groove below, creating a filtration element with a statistically significant series of valleys and traps for solids. The stack is enclosed in a corrosion and pressure resistant housing.
*As the name implies, the filter consists of a stack of discs. These discs are like hollow poker chips with serrations that cause the discs to interlock when the discs are stacked.
*Water enters the filter chamber on the outside of the discs. The water then flows through the disc pack between the interlocked serrations of the discs.  After flowing through the serrations the water then flows through the hollow center of the discs and out to the field.
*Back wash is accomplished by reversing water flow. When flow is reversed, water enters into the hollow area of the disc stack causing the stack of discs to lengthen.  As the stack lengthens the discs are separated from one another.  Water then freely flows outward pushing all dirt caught between the discs to a dump line.  Additionally, water is sprayed through nozzles inside the disc stack aimed outwards causing the discs to spin and rub against each other further cleaning the discs.
*The separation of the discs and the spinning action is the secret of the disc filter. This method of flushing is almost instantaneous requiring only a few seconds to fully clean the dirt off the discs.  No other filtration system can equal the speed and thoroughness of the disc filter back wash.




During the filtration process, the filtration discs are tightly compressed together by the spring's power and the differential pressure, thus providing high filtration efficiency. Filtration occurs while water is percolating from the peripheral end to the core of the element. Depending on the micron rating, there are 18 (in 400 micron discs) to 32 (in 20 micron discs) stopping points in each track, thus creating the unique in-depth filtration.
==Advantages of disc filters==
*'''Fast Back Wash''' - Disc filters can be backwashed in far less time than sand filters.  A 3 cartridge sand filter requires 10-20 minutes for back washing as the water flow must "fluff" up the sand to push dirt out.  A 3 cartridge disc filter can be completely back washed in about 1-1/2 minutes, most of that time being valve opening and closing for each cartridge.
*'''Low Water Waste''' - The length of time advantage translates to saving hundreds of gallons of water.  If water flow is 50 gpm, the sand filter system in 20 minutes would use 1,000 gallons to back wash.  The disc filter would use 75 gallons.
*'''Space Saving''' - The disc filter system requires about 1/3 the space of a sand filter system.
*'''Less Maintenance''' - Sand must be replaced periodically, and if the sand filter is abused and not backwashed regularly, the sand will require replacement quickly. Disc filters last for many years without requiring replacement because the plastic discs are highly resistant to deposits.
*'''Less Pressure Required''' - Disc filters require less pressure to back wash than sand filters.  This may allow a smaller supply pump to be used.
*'''Resistance to Abuse''' - Failure to back wash a sand filter may lead to complete failure of the sand media requiring that the media be replaced. Failure to back wash a disc filter will lead to low water flow but when the disc packs are backwashed they immediately clean up and are easily restored to service.
*'''Fast Change''' - The filtration abilities can be quickly changed simply by changing the disc pack to the size you wish to filter down to.  Disc packs are available from 5 microns up to 400 microns.




==Parts==
==Video==
 
<youtube>TqoKVCEeyPg</youtube>
 
 
==Source==
[http://en.wikipedia.org/wiki/Disk_filter]
 
 
 
==Video==  
<youtube>X66chc6oGA4</youtube>

Revision as of 08:49, 13 October 2012


Disc filter
Disc filter
Parts of Disc Filter

A disc filter is a type of water filter used primarily in irrigation, similar to a screen filter, except that the filter cartridge is made of a number of disks stacked on top of each other like a pile of poker chips. The water passes through the small grooves in between and the impurities are trapped behind. Some types of disk filters can be backflushed in such a way that the disks are able to separate and spin during the cleaning cycle.


How it work

  • As the name implies, the filter consists of a stack of discs. These discs are like hollow poker chips with serrations that cause the discs to interlock when the discs are stacked.
  • Water enters the filter chamber on the outside of the discs. The water then flows through the disc pack between the interlocked serrations of the discs. After flowing through the serrations the water then flows through the hollow center of the discs and out to the field.
  • Back wash is accomplished by reversing water flow. When flow is reversed, water enters into the hollow area of the disc stack causing the stack of discs to lengthen. As the stack lengthens the discs are separated from one another. Water then freely flows outward pushing all dirt caught between the discs to a dump line. Additionally, water is sprayed through nozzles inside the disc stack aimed outwards causing the discs to spin and rub against each other further cleaning the discs.
  • The separation of the discs and the spinning action is the secret of the disc filter. This method of flushing is almost instantaneous requiring only a few seconds to fully clean the dirt off the discs. No other filtration system can equal the speed and thoroughness of the disc filter back wash.


Advantages of disc filters

  • Fast Back Wash - Disc filters can be backwashed in far less time than sand filters. A 3 cartridge sand filter requires 10-20 minutes for back washing as the water flow must "fluff" up the sand to push dirt out. A 3 cartridge disc filter can be completely back washed in about 1-1/2 minutes, most of that time being valve opening and closing for each cartridge.
  • Low Water Waste - The length of time advantage translates to saving hundreds of gallons of water. If water flow is 50 gpm, the sand filter system in 20 minutes would use 1,000 gallons to back wash. The disc filter would use 75 gallons.
  • Space Saving - The disc filter system requires about 1/3 the space of a sand filter system.
  • Less Maintenance - Sand must be replaced periodically, and if the sand filter is abused and not backwashed regularly, the sand will require replacement quickly. Disc filters last for many years without requiring replacement because the plastic discs are highly resistant to deposits.
  • Less Pressure Required - Disc filters require less pressure to back wash than sand filters. This may allow a smaller supply pump to be used.
  • Resistance to Abuse - Failure to back wash a sand filter may lead to complete failure of the sand media requiring that the media be replaced. Failure to back wash a disc filter will lead to low water flow but when the disc packs are backwashed they immediately clean up and are easily restored to service.
  • Fast Change - The filtration abilities can be quickly changed simply by changing the disc pack to the size you wish to filter down to. Disc packs are available from 5 microns up to 400 microns.


Video