Forster Water Turbine,Hydro Turbine Generator,Hydroelectric Turbine Generator Manufacturer
Francis turbine definition is a combination of both impulse and reaction turbine, where the blades rotate using both reaction and impulse force of water flowing through them producing electricity more efficiently. Francis turbine is used for the production of electricity most frequently in medium or large-scale hydropower stations.
Stainless Steel Runner Pelton Turbine 100-1500KW
Water head:200m to 300m, Flow:0.232-0.284 m3/s; Power:300KW to 700KW; When used for generating electricity, there is usually a water reservoir located at some height above the Pelton turbine. The water then flows through the penstock to specialized nozzles that introduce pressurized water to the turbine. To prevent irregularities in pressure, the penstock is fitted with a surge tank that absorbs sudden fluctuations in water that could alter the pressure.
100KW Turgo Hydro Turbine For Hydro Power Plants
Head:70-200m, Flow: 0.1-0.2 m3/s Power:100KW to 400KW Turgo turbine is one of impulse turbine, applicable water head 30 to 300 meter. The center of jet flow with runner gyration plane angled 22.5°. the water flow contracted by the spray nozzle , flows entering one side of runner and comes out from other side. Horizontal unit has the advantages of simple structure,convenient repair,reduce the plant height,advantages in reducing excavation depth.
Forster Water Turbine,Hydro Turbine Generator,Hydroelectric Turbine Generator Manufacturer
Forster turbines have different types, specifications and reliable quality, with reasonable structure, reliable operation, high efficiency, standardized parts, and convenient maintenance. The single turbine capacity can reach 20000KW. The main types are Kaplan Turbine, Bulb Tubular Turbine, S-Tube Turbine, Francis Turbine, Turgo Turbine, Pelton Turbine.
100-1000KW Turgo Water Turbine Generator
Dischafge:0.166-0.599 m3/s , Water Head:60-220m; Power: 100KW to 1000KW When water flows from the pressure foray into the turbine nozzle through pipe, its potential energy is converted to kinetic energy by the nozzle. The high speed water jet comes out from the nozzle strikes at the buckets (blades) at a certain angle (not in a tangential direction) against the rotating surface of the runner. The water flows into the propeller (turbine runner) from one side and flows out from other side.
