Split Case Double Suction Centrifugal Fire Fighting Pump (1000GPM 80-160m)
Axially Horizontal Split Case Double Suction Fire Pumps are engineered for reliable operation upon clients' demand. All fabricated parts are standardized and accurately machined for true alignment, increasing overall durability. Precision balancing of all rotating components provides mechanical dependability, reliable operation and minimal maintenance. Impellers are constructed with double inlets that practically eliminated end thrust while boosting operating efficiency.
The simple, split case design of these fire pumps allows for in-line service without disturbing piping while ensuring long, efficient unit life, reduced maintenace costs and minimal power consumption.
These split case fire pumps are designed to operate with pressures from 5 Bar to 15 bar, even in excess of 22 bar, and flows from 500USGPM to 5000 USGPM.
Whether your split case fire pump application requires an electric motor, a diesel engine or vertical or horizontal orientation, these industry-approved pumps can be configured to meet your specific needs.
Performance Range of Fire Pump / Fire Fighting Pump / Split Case Fire Pump (Comply with UL448/NFPA20 standard)
Liquid Temperature: 50C - 80C
Solid Particles: less than 80mg/L
Working Pressure: 1.6/2.5/3.5Mpa according to different model.
Material Recommendation of Fire Pump / Fire Fighting Pump / Split Case Fire Pump (Comply with UL448/NFPA20 standard)
Pump body & casing: Ductile Iron UNS F32800,
Impeller & Wearing Ring:Bronze ASTM C83600,
Shaft sleeve:Stainless Steel ASTM 304,
Shaft: Stainless Steel ANSI 4340,
SK F bearing, Gland packing PTFE
Packing: Plywood Case
Payment: 50% deposit in advance,balance before the shippment.
Delivery :55 days after recieved the deposit
Warranty:12months from the date of pump arriving desination port, or 18 months from the date of bill of lading,whichever comes first.
Fire Pump / Fire Fighting Pump / Split Case Fire Pump (Comply with UL448/NFPA20 standard) in workshop
1) Features:
a) Compact structure
b) Attractive design
c) High efficiency, steady performance
d) High flow, medium pressure
e) High concentricity of components