WHAT IS CENTRIFUGAL
PUMP
A
centrifugal pump which employs centrifugal force to deliver liquid from one place to other is
called centrifugal pump, here the kinetic energy of the leaving water from the
impeller is converted in to potential energy which is utilize axial flow and
radial flows
Centrifugal
pump works on the principle that when a certain mass of liquid is made to
rotate along the impeller from the central axis of rotation, it impresses a
centrifugal head. It causes the water to move radially outwards at higher
velocity and causes the water to rise to a higher level. The motion of water is
restricted by casing of pump, it results
into pressure build up. In addition, the change in angular momentum of liquid
during its flow results into increase in
pressure head.
Impeller
The rotating part of a centrifugal pump is
called ‘impeller’. It consists of a series of backward curved vanes. The
impeller is mounted on a shaft which is connected to the shaft of an electric
motor.
Functions of impeller
The functions of impeller is to
increase the liquid velocity by its rotation this increasing the energy. Some
energy being partially converted pressure energy by suitable design of the
impeller vanes suction of the pump being created by the differences in pressure
between the suction and discharge side of the impeller
When the pump rotates liquid in the
casing is swirled by the rotating impeller the swirling action causes liquid to
move towards the outside and away from the center the backward curving vanes
and the rotation give the liquid a combined radial and circular motion
Volute
casing
Volute
casing is the type of casing
that converts kinetic energy created by the impeller
into pressure. The impeller pushes water into the volute which converts that energy into pressure and directs the
flow toward the discharge point.
PURPOSE OF VOLUTE CASINGIt is provided to reduce the velocity of water after it leaves the impeller and convert part of kinetic energy to pressure energy
Diffuser
Diffuser
is the another method used in centrifugal pumps to convert energy into
pressure. This is through the use of a diffuser. A diffuser functions similarly
to a standard volute in that it contains vanes that begin close to the impeller
and then gradually extend away from the impeller periphery
A diffuser is fitted to high-pressure centrifugal pumps. This is a ring fixed to the casing, around the impeller, in which there are passages formed by vanes. The passages widen out in the direction of liquid flow and act to convert the kinetic energy of the liquid into pressure energy. Hydraulic balance arrangements are also usual. Some of the high-pressure discharge liquid is directed against a drum or piston arrangement to balance the discharge liquid pressure on the impeller and thus maintain it in an equilibrium position.
A diffuser is fitted to high-pressure centrifugal pumps. This is a ring fixed to the casing, around the impeller, in which there are passages formed by vanes. The passages widen out in the direction of liquid flow and act to convert the kinetic energy of the liquid into pressure energy. Hydraulic balance arrangements are also usual. Some of the high-pressure discharge liquid is directed against a drum or piston arrangement to balance the discharge liquid pressure on the impeller and thus maintain it in an equilibrium position.
The centrifugal
pumps are not self priming why?
A centrifugal
pump cannot pump a gas therefore a differential pressure necessary for flow,
the flow will not be created if the impeller is having air or vapour.
A
centrifugal pump is a rotodynamic pump. This means that the head developed (in meters of liquid that is pumped)
depends on the velocities determined by diameter of the impeller and the
impeller speed (rpm.). As the pressure developed is related to the head
by the equation head =
pr / sp. weight, the pressure available will be proportional to the
specific weight of the liquid. This means that the pressure (or pressure
difference) created with air will be only around 1/800 times that with water (
density of water = 1000 kg/ m3 and dry air at S.T.P has a density of 1.2
kg/m3). Therefore, if the pump is not primed, the suction pressure created
will not be sufficient to lift water.
Why centrifugal pump started with discharge
valve shut?
It
is a common practice to start large capacity centrifugal pump with the
discharge valve closed. If the characteristic curve for a centrifugal pump are examined
it will be seen that when the quantity of water discharged is zero the power required
by the pump is zero or very small amount. by starting the pump with discharge
valve closed the power demand made by the pump on the pump motor is kept to
very minimum after the pump has started and the momentary high motor current
demand has stabilized the discharge valve is opened.