Factory Free sample 65QV-SP Vertical Sump Pump Supply to Bhutan

Factory Free sample 65QV-SP Vertical Sump Pump  Supply to Bhutan

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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...


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Factory Free sample 65QV-SP Vertical Sump Pump Supply to Bhutan Detail:

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 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.

Features

– 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.

Technical Parameters

Pump   Model
Allowable Max.Power (kw)   Clear Water Performance
Capacity Q   Head  H (m)  Speed   n  (r/min) Max.Eff.   (%) Impeller  Dia. (mm)
     m3/h
      l/s 
40PV-SP 15 19.44-43.2 5.4-12 4.5-28.5 1000-2200 40 188
40PV-SPR 17.28-39.6 4.8-11 4–26 1000-2200 40 188
65QV-SP 30 23.4-111 6.5-30.8 5-29.5 700-1500 50 280
65QV-SPR 22.5-105 6.25-29.15 5.5-30.5 700-1500 51 280
100RV-SP 75 54-289 15-80.3 5-35 500-1200 56 370
100RV-SPR 64.8-285 18-79.2 7.5-36 600-1200 62 370
150SV-SP 110 108-479.16 30-133.1 8.5-40 500-1000 52 450
200SV-SP 110 189-891 152.5-247.5 6.5-37 400-850 64 520
250TV-SP 200 261-1089 72.5-302.5 7.5-33.5 400-750 60 575
300TV-SP 200 288-1267 80-352 6.5-33 350-700 50 610

Construction

26

Standard Type                                                          Extension Type

NO. Parts Name NO. Parts Name
1 Shaft 9 Back Liner
2 Bearing 10 Impeller
3 Bearing Housing  11 Pump Casing
4 Bearing Spacer   12 Lower Strainer
5 Bearing 13 Discharge Pipe
6 Shim 14 Flushing Pipe
7 Column 15 Coupling Part
8 Strainer 16 Middle Support Part

 

 

 

 

 

 

 

 

Advantages

Over 20 years’ experience in pumps.

Various pump types.

Wear resistant materials.

Specialized Test Equipment.

Large quantity spare parts.

Anti-rust treatment casting.

Application

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…


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Factory Free sample 65QV-SP Vertical Sump Pump  Supply to Bhutan detail pictures


We've numerous great employees customers excellent at promoting, QC, and working with kinds of troublesome difficulty inside the generation method for Factory Free sample 65QV-SP Vertical Sump Pump Supply to Bhutan, The product will supply to all over the world, such as: Monaco, USA, Solomon Islands, Our products are widely recognized and trusted by users and can meet continuously changing economic and social needs. We welcome new and old customers from all walks of life to contact us for future business relationships and mutual success!


  • Belzona’s wide range of metal and rubber repair composites and durable protective coatings and linings have been used in the mining industry since the 1950′s.

    Our materials are specifically designed to provide outstanding erosion, corrosion and abrasion protection as well as chemical resistance for equipment operating in very aggressive environments. Belzona offers cost effective solutions which reduce downtime and labour costs whilst eliminating the need for equipment replacement.

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    *Turn on captions for written commentary (CC in bottom right corner of screen). Charcoal is a valuable fuel that reaches a higher temperature than the very wood it’s made from. I’ve made some before, but with supplies running low due to furnace experiments, I decided to make another large batch of charcoal in a mound. I stacked the wood into a roughly conical shape (about 1 m wide and 75 cm high) and then built a thick wall of mud around the heap (this took 6 hours). Eight air entries were made in the base of the mound and one air exit hole was left at the top of the mound to allow the volatile components of the wood to escape while creating a natural draft to keep everything burning.
    The mound was lit and the flame burned backwards down the heap in the opposite direction to the draft. This protects the coal made above the level of the fire from burning as carbon dioxide rushes past instead of oxygen, preventing combustion of charcoal. Each air entry was sealed only when fire became visible through them. This is an easy way to tell when to close them up, i.e. when the fire had burned down all of the wood in the heap. When the last air entry was closed, the air exit at the top of the mound was sealed, 5 hours after starting. The next day when cool, a large arched opening was made in the side of the mound to extract the charcoal. Despite a few unburnt brands the yield and quality was good filling almost 2 baskets.
    To see if the kiln was reusable, I restacked it with timber cut from a fallen gum tree branch up the mountain. Due to the difficulty in reaching into the mound I stacked the wood in criss-crossed horizontal layers. The opening was sealed with mud and the mound lit as before. This time the mound burned quickly and I had to seal it early as the timber was burning at different rates, 3 hours after starting. Some large logs remained unburnt while charcoal that had already formed started to burn up being wasted as ash.
    When I opened it the next day it had still produced an ok amount of charcoal but was disappointingly low compared to the first batch. This may partly be due to some of the wood being still green though it’s probably more likely to be due to how it was stacked. The lesson here is that when making charcoal the wood needs to be tightly stacked with few air spaces between. If not, the mound admits too much oxygen that quickly burns the timber.
    Another thought I had was that wood may convert to charcoal better if laid vertically (or roughly so, like the cone in the first firing) so that the fire starts at the top of the wood and burns down. Stacking the wood in horizontal layers means that each layer has to set the one bellow alight leading to problems if the wood is green (use dry wood if stacking horizontally). By stacking wood vertically each piece is alight already and simply burns down towards the air entries. Stacking in this way also makes it easier to see fire in the air entries letting you know when to seal the mound.
    For the reasons above I may make another charcoal kiln in future in the shape of a cylinder with air entries around the base and an open top. The kiln would be re-usable and easily stacked. A conical pile of wood would protrude above the walls of the kiln and be plastered in a temporary cover of mud. The kiln would be fired as with a normal mound and when finished the temporary cover of mud would be removed to extract the charcoal
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    5 Stars By King 2015-11-06 10:12