We were discussing a new topic, in the subject of
fluid mechanics and hydraulics machine, i.e. an introduction to hydraulic machine in our recent posts.
Now we will focus here to understand the basics of
hydraulic turbines and classification of hydraulic turbines with the help of
this post. Further we will find out, in our next post, some important
terminologies associated with a hydraulic turbine such as Gross head, Net head
and efficiencies of a hydraulic turbine.
So let us start here with the basics and
classification of hydraulic turbines.
Hydraulic turbines
Hydraulic turbines are basically defined as the
hydraulic machines which convert hydraulic energy in to mechanical energy and
this mechanical energy will be given to a generator to produce electric energy.
Now there will be one question that how this
mechanical energy will be given to electric generator. Electric generator will
be directly coupled with the hydraulic turbine and therefore mechanical energy,
developed by hydraulic turbines, will be transmitted to electric generator and
hence mechanical energy will be converted in to electrical energy.
Electric power developed from hydraulic energy will
be considered as hydroelectric power. We have used here term i.e. hydraulic
energy that indicates the energy of water.
Classifications of hydraulic turbines
Hydraulic turbines will be classified on the basis
of the type of energy available at the inlet of the hydraulic turbine,
direction of flow through the vanes, head at the inlet of the hydraulic turbine
and specific speed of the hydraulic turbine.
Let us find out here a brief classification of
hydraulic turbines as mentioned here.
According to the type of energy at the inlet of the turbine
Impulse turbine:
If the energy available at the inlet of the hydraulic
turbine is only kinetic energy, the hydraulic turbine will be considered as
Impulse turbine.
Reaction turbine:
If the energy available at the inlet of the hydraulic
turbine is kinetic energy and pressure energy, the hydraulic turbine will be
considered as Reaction turbine.
According to the direction of flow through runner
- Tangential flow turbine
- Radial flow turbine
- Axial flow turbine
- Mixed flow turbine
Tangential flow turbine:
If the water flows along the tangent of the runner, the
hydraulic turbine will be considered as Tangential flow turbine.
Radial flow turbine:
If the water flows in radial direction through the
runner, the hydraulic turbine will be considered as Radial flow turbine.
If the water flows in radial direction through the
runner from outwards to inwards, the hydraulic turbine will be considered as inward
radial flow turbine.
If the water flows in radial direction through the
runner from inwards to outwards, the hydraulic turbine will be considered as outward
radial flow turbine.
Axial flow turbine:
If the water flows through the runner along the direction
parallel to the axis of rotation of the runner, the hydraulic turbine will be
considered as axial flow turbine.
Mixed flow turbine:
If the water flows through the runner in the radial
direction but leaves in the direction parallel to the axis of rotation of the
runner, the hydraulic turbine will be considered as mixed flow turbine.
According to the head at the inlet of the turbine
- High head turbine
- Medium head turbine
- Low head turbine
According to the specific speed of the turbine
- Low specific speed turbine
- Medium specific speed turbine
- High specific speed turbine
Do you have any suggestions? Please write in comment
box.
Further we will find out, in our next post, some
important terminologies associated with a hydraulic turbine such as Gross head,Net head and efficiencies of a hydraulic turbine.
Reference:
Fluid mechanics, By R. K. Bansal
Image courtesy: Google
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