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HORIZONTAL VORTEX PUMP(GVH)
- For paper transfer
- For pulp transfer
- For sludge transfer
- For sewage treatment & wastewater
Detailed Description
Design & Structure Feature
- It uses impeller designed for easy flow of water inside the impeller.
- It is convenient for maintenance with the structure of back pull-out.
- It adopted volute casing to reduce damage caused by abrasion of casing.
- As discharge bore is placed at the upper center, it maintains the stability to piping load and the balance in oper ation of pump.
- It forms back vane on impeller to decrease axial thrust.
- It has advantage over transfer of liquids mixed with solids, fibers and also the ones containing gas.
- It has good performance of suction.
- Through pumping operation to induce vortex as transferring properties of vortex pump, it reduces damage to solids to be transferred.
Standard Specification
| Division | Horizontal Vortex | |
|---|---|---|
| Conditions of Transferring Liquid | Transferring Liquid | Sewage, Wastewater |
| Size of Sludge | 80% of discharge Bore | |
| Temperature | 0~80℃ | |
| Max. Operation Pressure | 10kgf/㎠ | |
| Max. Transferring Flow Rate | 15% of max. Efficiency Point | |
| Structure | Impeller | Semi - Open Type |
| Stuffing Box | Gland Packing | |
| Bearing | Shield Ball Bearing | |
| Flange | 10kgf/㎠, Flat Face Type | |
| Nozzle Position | End Suction, Top Discharge | |
| Accessories | * Priming Cock | |
| * Common Base | ||
| * Coupling & Coupling Guard | ||
| * Drain & Air - Venting Plug | ||
Sectional Drawing / Selection Chart
Outline Drawing
