Hydraulic turbines are classified as either reaction turbines or impulse turbines
referring to the hydraulic action by which the pressure or potential energy is
converted to rotating or kinetic energy. The reaction turbines include the Francis
and the propeller types, while the impulse turbines are represented by the Pelton
type turbine.
Impulse turbines convert all available head into kinetic or velocity energy through
using contracting nozzles. The jets of water from the nozzles act on the runner
buckets to exert a force in the direction of flow. This force, or impulse as it is
referred to, turns the turbine. Impulse turbines primarily are used for heads of
800 feet or more, although they are also used in some low-flow, low-head
applications.
Water flow to an impulse turbine is controlled by a needle valve. The position of
the needle valve is controlled by a governor to change speed or load. A moveable
deflector plate, controlled by the governor, is positioned in front of the nozzle to
rapidly deflect the water away from the turbine during a load rejection.
The head pressure in a reaction turbine is only partially converted to velocity.
While the reaction turbine obtains some power from the impulse force from the
velocity of the water, most of its power is a result of difference in pressure
between the top and bottom of the runner buckets.
The Francis turbine is very similar in construction to a volute pump with a closed
impeller (see figures 1 and 2). Water entering the spiral or scroll case is directed
to the turbine runner by the guide vanes and the wicket gates. The wicket gates,
controlled by the governor through hydraulic servomotors, control water flow to
the turbine.
A propeller turbine is similar in appearance to a boat propeller. Water is directed
and controlled in much the same manner as with the Francis turbine. A variation
of the propeller turbine is the Kaplan turbine which features adjustable blades th
Hydraulic turbines are classified as either reaction turbines or impulse turbinesreferring to the hydraulic action by which the pressure or potential energy isconverted to rotating or kinetic energy. The reaction turbines include the Francisand the propeller types, while the impulse turbines are represented by the Peltontype turbine.Impulse turbines convert all available head into kinetic or velocity energy throughusing contracting nozzles. The jets of water from the nozzles act on the runnerbuckets to exert a force in the direction of flow. This force, or impulse as it isreferred to, turns the turbine. Impulse turbines primarily are used for heads of800 feet or more, although they are also used in some low-flow, low-headapplications.Water flow to an impulse turbine is controlled by a needle valve. The position ofthe needle valve is controlled by a governor to change speed or load. A moveabledeflector plate, controlled by the governor, is positioned in front of the nozzle torapidly deflect the water away from the turbine during a load rejection.The head pressure in a reaction turbine is only partially converted to velocity.While the reaction turbine obtains some power from the impulse force from thevelocity of the water, most of its power is a result of difference in pressurebetween the top and bottom of the runner buckets.The Francis turbine is very similar in construction to a volute pump with a closedimpeller (see figures 1 and 2). Water entering the spiral or scroll case is directedto the turbine runner by the guide vanes and the wicket gates. The wicket gates,controlled by the governor through hydraulic servomotors, control water flow tothe turbine.A propeller turbine is similar in appearance to a boat propeller. Water is directedand controlled in much the same manner as with the Francis turbine. A variationof the propeller turbine is the Kaplan turbine which features adjustable blades th
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