POWER PLANT component.Power plants use various sources of energy to produce electricity, which is then distributed to homes, businesses, and industries. Here’s a detailed overview of different types of power plants, their components, and how they work.
NitinTyagi38
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Jun 11, 2024
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About This Presentation
Power plants use various sources of energy to produce electricity, which is then distributed to homes, businesses, and industries. Here’s a detailed overview of different types of power plants, their components, and how they work.
Slide Content
An Introduction to
Electric Power Plants
NITIN TYAGI
Electric Power Plants
NITIN TYAGI
In order to understand this...
Outline
•E&M Principles
•Types of Power Plants
•Power System Components
•E&M Principles
•Types of Power Plants
•Power System Components
Principles
•energy = “the ability to do work”
measured in Joules
•power = rate of energy generation or use
measured in Watts = Joules / sec
•current = rate of charge flow
measured in Amps
•voltage = “pressure” pushing current
measured in Volts
Water pipes analogy
•energy = “the ability to do work”
measured in Joules
•power = rate of energy generation or use
measured in Watts = Joules / sec
•current = rate of charge flow
measured in Amps
•voltage = “pressure” pushing current
measured in Volts
Water pipes analogy
Moving Electrons Create
Magnetic Fields
•electromagnets
DEMO: electromagnet & compass on overhead
Magnetic Fields
•electromagnets
DEMO: electromagnet & compass on overhead
Magnetic Fields Push on Moving
Electrons
or moving magnetic fields push on stationary electrons
•generators
•speakers
DEMO: force on current apparatus
DEMO: make current with magnet & coil
Electrons
or moving magnetic fields push on stationary electrons
•generators
•speakers
DEMO: force on current apparatus
DEMO: make current with magnet & coil
The Purpose of a Power Plant is to
Turn a Loop of Wire in a
Magnetic Field
Why do we need
“mechanical means”?
It takes a force to push a
conductor through a
magnetic field —
inertia won’t due.
DEMO: copper tube
DEMO: Genecons
DEMO: Al plate and mag
Car alternator...
Turn a Loop of Wire in a
Magnetic Field
Why do we need
“mechanical means”?
It takes a force to push a
conductor through a
magnetic field —
inertia won’t due.
DEMO: copper tube
DEMO: Genecons
DEMO: Al plate and mag
Car alternator...
Powerhouse @ Hoover Dam
Types of Power Plants
Classification by the “mechanical means”
used to turn the generator...
•Thermal (water steam by burning Coal, Oil, NG)
•Nuclear (water steam by Uranium or Plutonium fission)
•Geothermal
•Hydroelectric (falling water)
•Wind
Solar...
Classification by the “mechanical means”
used to turn the generator...
•Thermal (water steam by burning Coal, Oil, NG)
•Nuclear (water steam by Uranium or Plutonium fission)
•Geothermal
•Hydroelectric (falling water)
•Wind
Solar...
Thermal Power Plant
Nuclear Power Plant
Hydroelectric Power Plant
Hoover
Itaipu
Itaipu
Power Plant Components
ELECTRICAL
•Generators & Turbines
•Transformers
•Switches
•Busses
•Circuit Breakers
•Capacitor Banks
MECHANICAL
•Conveyors
•Silos
•Boilers
•Scrubbers & Stacks
•Pumps
•Cooling Towers
ELECTRICAL
•Generators & Turbines
•Transformers
•Switches
•Busses
•Circuit Breakers
•Capacitor Banks
MECHANICAL
•Conveyors
•Silos
•Boilers
•Scrubbers & Stacks
•Pumps
•Cooling Towers
At the front end
•Conveyors
•Boilers
•Scrubbers and Stacks
•Pumps
•Cooling Towers
•Conveyors
•Boilers
•Scrubbers and Stacks
•Pumps
•Cooling Towers
Generators
•The whole point of the
power plant is to turn
the generators to
produce electrical
energy.
•The whole point of the
power plant is to turn
the generators to
produce electrical
energy.
Turbines
•Difficult to replace
•A spare is often kept
•Difficult to replace
•A spare is often kept
Busses
•uninsulated electrical conductors
•large cross-section = low resistance
•must be far from ground and other
components to avoid arcing
flirthermography.com
•uninsulated electrical conductors
•large cross-section = low resistance
•must be far from ground and other
components to avoid arcing
flirthermography.com
Switches & Switchyards
http://www.learnz.org.nz/trips06/images/big/b-switchyard.jpg
http://www.learnz.org.nz/trips06/images/big/b-switchyard.jpg
Transformers
•PURPOSE: to change the
voltage
–increase = “step-up”
–decrease = “step-down”
•Often run hot, must be
cooled, prone to explode.
–oil inside
–cooling fins and fans
–blast walls
DEMO: pass around small transformer
DEMO: two coils, one with meter, other with
battery
•PURPOSE: to change the
voltage
–increase = “step-up”
–decrease = “step-down”
•Often run hot, must be
cooled, prone to explode.
–oil inside
–cooling fins and fans
–blast walls
DEMO: pass around small transformer
DEMO: two coils, one with meter, other with
battery
Circuit Breakers
•PURPOSE: stop the
flow of current if too
much flows (due to
short circuit or excess
demand)
230 kV breaker
DEMO: blow room breaker
•PURPOSE: stop the
flow of current if too
much flows (due to
short circuit or excess
demand)
230 kV breaker
DEMO: blow room breaker
Capacitor Banks
•Purpose: to smooth
out spikes or
“glitches” in the line
voltage.
DEMO:charge/discharge a cap
DEMO:Lenz’s Law
•Purpose: to smooth
out spikes or
“glitches” in the line
voltage.
DEMO:charge/discharge a cap
DEMO:Lenz’s Law
Transmission Lines
and the “grid”
and the “grid”
Why are High Voltages Used?
•Transmission lines typically
carry voltages of 110 kV, 230
kV, or even higher. The wires
are not insulated, so they are
kept high off the ground and
well separated from each other,
to prevent arcing (sparks) and
injury or people or animals.
•Why use such high voltages?
Using very high voltages on the
transmission lines reduces the
amount of energy wasted
heating up the wires.
•And why is that so?
Transformers cannot add
energy, so if the voltage is
increased, the current (in amps)
must decrease. The charges
flowing through the wires
constantly collide with the
atoms, losing energy and
heating the wire. We call this
resistance. Recall that the
power (energy per time) lost to
that heating is given by the
equation P=I
2
R. If the current is
reduced, the power used in
heating the wire is reduced.
•Transmission lines typically
carry voltages of 110 kV, 230
kV, or even higher. The wires
are not insulated, so they are
kept high off the ground and
well separated from each other,
to prevent arcing (sparks) and
injury or people or animals.
•Why use such high voltages?
Using very high voltages on the
transmission lines reduces the
amount of energy wasted
heating up the wires.
•And why is that so?
Transformers cannot add
energy, so if the voltage is
increased, the current (in amps)
must decrease. The charges
flowing through the wires
constantly collide with the
atoms, losing energy and
heating the wire. We call this
resistance. Recall that the
power (energy per time) lost to
that heating is given by the
equation P=I
2
R. If the current is
reduced, the power used in
heating the wire is reduced.
Transformer Sub-Station
Purpose:
•to reduce the very high
voltages from the
transmission lines (>100kV)
to intermediate voltages
used to serve an individual
town or section of a city
(typically 66 kV or 33 kV)
TTR Substations, Inc.
Purpose:
•to reduce the very high
voltages from the
transmission lines (>100kV)
to intermediate voltages
used to serve an individual
town or section of a city
(typically 66 kV or 33 kV)
TTR Substations, Inc.
To your house...
smaller transformers (on power
line poles or green boxes on the
ground) reduce the voltage further
to the 240V delivered to individual
homes
smaller transformers (on power
line poles or green boxes on the
ground) reduce the voltage further
to the 240V delivered to individual
homes
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