Fixed Competitive Price 250TV-SP Sump Pump Supply to Borussia Dortmund
Introduction Type SPSP(R) pumps are vertical, centrifugal slurry pumps which are submerged in sump to work. They are designed for delivering abrasive, large particle and high density slurries. These pumps do not need any shaft seal and sealing water. They can also be operated normally for insufficient suction duties. Wet parts of type SP pumps are made of abrasion-resistant metal. All parts of type SP(R) pump immersed in liquid are lined with rubber. They are suited to transport the slurry wh...
Fixed Competitive Price 250TV-SP Sump Pump Supply to Borussia Dortmund Detail:
Type SPSP(R) pumps are vertical, centrifugal slurry pumps which are submerged in sump to work. They are designed for delivering abrasive, large particle and high density slurries. These pumps do not need any shaft seal and sealing water. They can also be operated normally for insufficient suction duties.
Wet parts of type SP pumps are made of abrasion-resistant metal.
All parts of type SP(R) pump immersed in liquid are lined with rubber. They are suited to transport the slurry which contains non-edge and abrasive particle .
The type with “L” is series of sump pump with extended shaft , which is suited for the working condition of deeper level. The guide bearing construction is added to the pump on the basis of the standard pump, so the pump is with both more steady operation and wider application range, but flushing water should be attached to the guide bearing.
– Metal or rubber lined wet parts.
– Vertical construction, less Installation Space.
– Equipped with replaceable shaft protection sleeve.
– Double suction semi-open impeller.
– No submerged bearing or packing.
– Recessed impeller option passes over-sized material.
– Agitator option keeps solids in suspension.
– Can be run in insufficient suction duties.
– Smooth and stable operation.
– Special materials or casting for specific liquid.
|Pump Model||Allowable Max.Power (kw)||Clear Water Performance|
|Capacity Q||Head H (m)||Speed n (r/min)||Max.Eff. (%)||Impeller Dia. (mm)|
Standard Type Extension Type
|NO.||Parts Name||NO.||Parts Name|
|3||Bearing Housing||11||Pump Casing|
|4||Bearing Spacer||12||Lower Strainer|
|8||Strainer||16||Middle Support Part|
Over 20 years’ experience in pumps.
Various pump types.
Wear resistant materials.
Specialized Test Equipment.
Large quantity spare parts.
Anti-rust treatment casting.
Sump pumps are mainly used for handing corrosive, coarse particles and high density slurries, and are widely used in sewage treatment, metallurgy, mining, mineral processing, dredging, de-watering, water treatment, coal washing, mill, cyclone feed, tailing, power, building material…etc. various industrial sites. Our pumps are called different names for different working duties: mineral processing pump, mill discharge slurry pump, booster pump, feeding pump, tailing pump, transfer pump, de-watering screen pump, pressure pump, concentrate pump…
Product detail pictures:
Our mission is usually to turn into an innovative provider of high-tech digital and communication devices by providing worth added design and style, world-class producing, and repair capabilities for Fixed Competitive Price 250TV-SP Sump Pump Supply to Borussia Dortmund, The product will supply to all over the world, such as: Mecca , Philippines , Belgium , We strongly believe that technology and service is our base today and quality will create our reliable walls of future. Only we have better and better quality , could we achieve our customers and ourselves, too. Welcome customers all over the word to contact us for getting further business and reliable relationships. We are always here working for your demands whenever you need.
From http://www.SwimmingPoolSteve.com – Swimming Pool Steve discusses the difference between cartridge and silica sand filters and some situations where one is better than the other.
A working hydraulic ram pump system for pumping spring water uphill to drink, I believe for every 10 feet of pressure downhill you get 100 feet of push uphill, We are pushing it to the limit by pumping over 700 feet uphill.
Oh, excuse me, I said a 350 piston insted of a 350 Valve or Lifter.
This shows how you can pump uphill and get free natural spring water from a spring flowing naturally out of the ground or in this case, pure water out of the the side of a mountain that is downhill from a house or the place you wish to have your spring water pumped up to, and with no electricity, gas or fuel or any kind of power supplied to the pump, the Hydraulic Ram is designed to push the water uphill from the weight of the water in the holding tank or water reservoir, the holding tank gives the extra pressure needed to the hydraulic ram by means of gravity from the weight of the water, also another function of the holding tank is to supply a steady and consistent flow of water to the Ram, So even if the water level drops a bit in the holding tank, as in a dry spell, you will still have full volume of water flowing down the pipe that leads to the Ram to keep it functioning properly and without any air bubbles disturbing the input of water, note, if the water level gets very low the hydraulic ram will slow down automatically as an indicator and you will notice a pulse in your water output, also you will have a slower water output, so the holding tank is essential for maintaining a steady input of water and allows the hydraulic ram to work longer under stressful conditions.
I have now measured the black pipe from the holding tank to the hydraulic ram and it is 40 feet, now as its stated above, the rule of thumb is that the Ram will pump water uphill 100 feet for every 10 feet of pressure from gravity, which is achieved from the length of the input pipe traveling downhill from the water tank to the Ram, so we have 40 feet here and we should be able to pump water uphill 400 feet, and its pretty close to these numbers, this setup actually travels farther in distance but the actual height is very close, the output pipe of this setup immediately travels very steep uphill 200 – 300 hundred feet then tapers off for another 400 – 500 feet, but this tapering off is a proximity 100 feet in height which gives us a little under 400 feet. just remember we are pushing this water a very long distance as well, but we end up with a nice flow of natural spring water flowing out of our sink fossett.
You can see the flow of water coming out of the fossett in the next video, just follow the video response down below, its a short clip.
If you have any question I’d be more than happy to answer them or give my best opinion, Thank You for watching.
Everyone “in the know” is jumping in here.!
By Jenny 2015-12-14 14:03
Superb technology, perfect after-sales service and efficient work efficiency, we think this is our best choice.
By Maggie 2016-5-30 19:39