factory customized 10/8F-G Sand Pump Export to Florence
Product Features Type G(orGH) gravel pumps are designed for continuously handling the most difficult high abrasive slurries which contain too big solids to be pumped by a common pump. They are suitable for delivering slurries in Mining, Explosive sludge in metal melting, Dredging in dredger and river course, and other fields. Type GH are high head pumps. Construction Construction of this pump is of single casing connected by means of clamp bands and wide wet-passage. ...
factory customized 10/8F-G Sand Pump Export to Florence Detail:
Type G(orGH) gravel pumps are designed for continuously handling the most difficult high abrasive slurries which contain too big solids to be pumped by a common pump. They are suitable for delivering slurries in Mining, Explosive sludge in metal melting, Dredging in dredger and river course, and other fields. Type GH are high head pumps.
Construction of this pump is of single casing connected by means of clamp bands and wide wet-passage. The wet-parts are made of Ni_hard and high chromium abrasion-resistance alloys. The discharge direction of pump can be oriented in any direction of 360°. This type of pump possesses the advantages of easy installation and operation, good performance of NPSH and abrasion-resistance.
1.Support 8. Discharge Joint Ring
2.Bearing Housing Assembly 9. Discharge Flang
3.Adapter Plate Clamp Band 10. Door Clamp Band
4.Volute Liner Seal 11. Cover Plate
5.Frame Plate Liner Insert 12. Intake joint ring
6. Impeller 13. Intake flange
7. Frame Plate / Bowl 14. Adapter plate
|Clear Water Performance|
|Capacity Q|| Head
|Impeller. Dia. (mm)|
The gravel pump is used for river course, reservoir desalting, coastal reclamation, stretching, deep-sea mining and tailing acquisition etc. Gravel pumps are designed for continuously handling the most difficult higher abrasive slurries which contain too big solids to be pumped by a common pump. They are suitable for delivering slurries in Mining, Explosive sludge in metal melting, Dredging in dredger and course of rivers, and other fields.
Product detail pictures:
Usually customer-oriented, and it's our ultimate focus on to be not only by far the most reliable, trustable and honest provider, but also the partner for our customers for factory customized 10/8F-G Sand Pump Export to Florence, The product will supply to all over the world, such as: Jeddah , Gambia , Puerto Rico , We are your reliable partner in the international markets of our products. We focus on providing service for our clients as a key element in strengthening our long-term relationships. The continual availability of high grade products in combination with our excellent pre- and after-sales service ensures strong competitiveness in an increasingly globalized market. We are willing to cooperate with business friends from at home and abroad, to create a great future. Welcome to Visit our factory. Looking forward to have win-win cooperation with you.
This study shows the capability of computational fluid dynamics in capturing the unsteady flow inside a centrifugal pump. The studied object is an industrial centrifugal water pump (NS=32) with backward blades and a vane-less single tongue volute. To obtain numerical solution, the Reynolds averaged Navier-Stokes equations (RANS) has been discretized on a three-dimensional unstructured grids using finite volume co-located method. To correlate the pressure and velocity fields, the SIMPLE algorithm was used. To exert the boundary conditions in the impeller-volute interface, the sliding mesh technique has been employed and a new method has been presented to facilitate the interpolation involved. Using the developed code, the internal flow of the mentioned pump was investigated in design and off-design capacities and in several positions of the impeller. Time averaged results are compared with the experimental performance curve and good agreement is found. Besides, the amplitude of the fluctuating pressure in the volute at the blade passing frequency is successfully captured. At design conditions, the flow is well conducted by the volute, and the impeller works smoothly in a nearly balanced pressure distribution at its outlet. At off-design conditions, however, there is a considerable difference among the flows between various blades and pressure distribution on the impeller periphery is unbalanced. In a few words, the main achievement of the work is providing the modeling possibilities for prediction of incompressible flow and the dynamic interaction of the impeller and the volute in centrifugal pumps and fans.
By Jonathan 2016-8-19 15:58
The factory workers have rich industry knowledge and operational experience, we learned a lot in working with them,we are extremely grateful that we can encount a good company has excellent wokers.
By Alan 2016-4-22 13:49