Ntpc barh (bstpp)
DheerajKashyap9
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Jan 05, 2017
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About This Presentation
NTPC BARH
BSTPP- BARH SUPER THERMAL POWER PLANT
CONTENT: Overview; BSTPP at a glance; Various parts of BSTPP; Electrical Overview; Switch Yard; Transformer; Generator...
Slide Content
NTPC A Maharatna Company
Presentation By:
Dheeraj Kumar
ME/13/06
Under the Guidance of Dr. Bikash Ghoshal
DURGAPUR INSTITUTE OF
ADVANCED TECHNOLOGY &
MANAGEMENT
DURGAPUR 713212
Presentation By:
Dheeraj Kumar
ME/13/06
Under the Guidance of Dr. Bikash Ghoshal
DURGAPUR INSTITUTE OF
ADVANCED TECHNOLOGY &
MANAGEMENT
DURGAPUR 713212
ACKNOWLEDGEMENT
I would like to extend my gratitude to the many people who
helped to bring this presentation to fruition.
First, I would like to thank Dr. Bikash Ghoshal for providing
me the opportunity of taking part in this session.
I’m so deeply grateful for their help, in this presentation.
Thank You
I would like to extend my gratitude to the many people who
helped to bring this presentation to fruition.
First, I would like to thank Dr. Bikash Ghoshal for providing
me the opportunity of taking part in this session.
I’m so deeply grateful for their help, in this presentation.
Thank You
CONTENT
Overview
BSTPP at a Glance
Various parts of BSTPP
Electrical Overview
Switch Yard
Transformer
Generator
Overview
BSTPP at a Glance
Various parts of BSTPP
Electrical Overview
Switch Yard
Transformer
Generator
1. Overview:
NTPC Limited - Largest power generation company in India. Limited - Largest power generation company in India.
Founded on November 7, 1975.Founded on November 7, 1975.
Contributing 26% of country’s entire power generation.Contributing 26% of country’s entire power generation.
Placed itself in the Nav-Ratan companies of Indian Govt.Placed itself in the Nav-Ratan companies of Indian Govt.
Total installed capacity of the company : 31134 MW Total installed capacity of the company : 31134 MW
NTPC has been operating its plants at high efficiency levels. Although the NTPC has been operating its plants at high efficiency levels. Although the
company has 18.79% of the total national capacity. It contributes 28.60% of company has 18.79% of the total national capacity. It contributes 28.60% of
total power generation due to its focus on high efficiency. total power generation due to its focus on high efficiency.
The company has set a future goal of having 75000 MW by 2017The company has set a future goal of having 75000 MW by 2017.
NTPC Limited - Largest power generation company in India. Limited - Largest power generation company in India.
Founded on November 7, 1975.Founded on November 7, 1975.
Contributing 26% of country’s entire power generation.Contributing 26% of country’s entire power generation.
Placed itself in the Nav-Ratan companies of Indian Govt.Placed itself in the Nav-Ratan companies of Indian Govt.
Total installed capacity of the company : 31134 MW Total installed capacity of the company : 31134 MW
NTPC has been operating its plants at high efficiency levels. Although the NTPC has been operating its plants at high efficiency levels. Although the
company has 18.79% of the total national capacity. It contributes 28.60% of company has 18.79% of the total national capacity. It contributes 28.60% of
total power generation due to its focus on high efficiency. total power generation due to its focus on high efficiency.
The company has set a future goal of having 75000 MW by 2017The company has set a future goal of having 75000 MW by 2017.
2. BSTPP at a Glance:
BSTPP: BARH SUPER THERMAL POWER PLANT
No. of Units x Capacity: 3 x 660 MW (Stage I) 2 x 660 MW (Stage - II)
Russian Origin under the collaboration
of BHEL & ALSTOM
Generators: Supplied by SIEMENS
Coal Supply: Hazaribagh Coal Mine (Coal required for the Project is approx 10
Million tones/annual considering a GCV of 3350 kcal and 80% PLF).
Water Requirement: Project site is located near the river Ganga.
Plant has two stages:
Stage 1: Voltage generation - 24.5 kv
Stage 2: Voltage generation – 215 kv
Land Requirement: Approx 1200 acres of land has been identified between
NH-1 & Railway lines for the plant.
Beneficiary States: The states & UTs of Northern & Western regions and
state of Bihar.
BSTPP: BARH SUPER THERMAL POWER PLANT
No. of Units x Capacity: 3 x 660 MW (Stage I) 2 x 660 MW (Stage - II)
Russian Origin under the collaboration
of BHEL & ALSTOM
Generators: Supplied by SIEMENS
Coal Supply: Hazaribagh Coal Mine (Coal required for the Project is approx 10
Million tones/annual considering a GCV of 3350 kcal and 80% PLF).
Water Requirement: Project site is located near the river Ganga.
Plant has two stages:
Stage 1: Voltage generation - 24.5 kv
Stage 2: Voltage generation – 215 kv
Land Requirement: Approx 1200 acres of land has been identified between
NH-1 & Railway lines for the plant.
Beneficiary States: The states & UTs of Northern & Western regions and
state of Bihar.
3. Various parts of BSTPP:
Parts of BSTPP:
1.Boiler
Rectangular furnace about 50 feet on side and 130 feet tall.
Walls- made of high pressure steel tubes about 2.3 inches
in diameter circulates DM water to be converted into steam.
Thermal radiation heats water into steam.
Steam is sent to the turbine .
Efficiency and technology of boiler vary
according to the operational pressures.
1.Operational pressure >221 KSC---%n=42.45%-----super critical boiler
2.175KSC <Operational pressure <221 KSC---%n=38.42%----- critical boiler
3.Operational pressure <175KSC---%n=38%-----sub critical boiler
1.Boiler
Rectangular furnace about 50 feet on side and 130 feet tall.
Walls- made of high pressure steel tubes about 2.3 inches
in diameter circulates DM water to be converted into steam.
Thermal radiation heats water into steam.
Steam is sent to the turbine .
Efficiency and technology of boiler vary
according to the operational pressures.
1.Operational pressure >221 KSC---%n=42.45%-----super critical boiler
2.175KSC <Operational pressure <221 KSC---%n=38.42%----- critical boiler
3.Operational pressure <175KSC---%n=38%-----sub critical boiler
Parts of BSTPP:
2. Turbines:
Turbine generator consists of a series of steam turbines
interconnected to each other and generators on
a common shaft.
3. Cooling Water Pumps:
It pumps the water from the cooling tower
which goes to the condenser.
2. Turbines:
Turbine generator consists of a series of steam turbines
interconnected to each other and generators on
a common shaft.
3. Cooling Water Pumps:
It pumps the water from the cooling tower
which goes to the condenser.
Parts of BSTPP:
4. Condenser:
The steam coming out from the Low Pressure Turbine (a little above its boiling pump) is
brought into thermal contact with cold water (pumped in from the cooling tower) in the
condenser, where it condenses rapidly back into water, creating near Vacuum-like
conditions inside
the condenser chest.
4. Condenser:
The steam coming out from the Low Pressure Turbine (a little above its boiling pump) is
brought into thermal contact with cold water (pumped in from the cooling tower) in the
condenser, where it condenses rapidly back into water, creating near Vacuum-like
conditions inside
the condenser chest.
Parts of BSTPP:
5. Deareator:
Device for air removal
Used to remove dissolved gases from boiler feed
water to make it noncorrosive.
(An alternate would be the use of water treatment chemicals).
5. Deareator:
Device for air removal
Used to remove dissolved gases from boiler feed
water to make it noncorrosive.
(An alternate would be the use of water treatment chemicals).
Parts of BSTPP:
6. Reheater:
Used to raise the temperature of steam
which has fallen from the intermediate
pressure turbine.
7. Air Preheater:
Used to recover the heat from the boiler flue gas
It increases the thermal efficiency of the boiler by
reducing the useful heat lost in the flue gas.
6. Reheater:
Used to raise the temperature of steam
which has fallen from the intermediate
pressure turbine.
7. Air Preheater:
Used to recover the heat from the boiler flue gas
It increases the thermal efficiency of the boiler by
reducing the useful heat lost in the flue gas.
Parts of BSTPP:
8. precipitator:
Electrostatic precipitator (ESP)
It is a particulate device that removes
particles from a flowing gas (such as air)
using the force of an induced electrostatic
charge.
8. precipitator:
Electrostatic precipitator (ESP)
It is a particulate device that removes
particles from a flowing gas (such as air)
using the force of an induced electrostatic
charge.
Electrical Overview:
General Voltage Level
LT – 415 V
HT – 11KV & 3.3 KV
EHT – 400KV
Voltage generation level (NTPC Barh)
stage 1 – 24.5kv
stage 2 – 21.5kv
Voltage level ( power plant)
5.5 kv,
11 kv,
132 kv,
400 kv.
General Voltage Level
LT – 415 V
HT – 11KV & 3.3 KV
EHT – 400KV
Voltage generation level (NTPC Barh)
stage 1 – 24.5kv
stage 2 – 21.5kv
Voltage level ( power plant)
5.5 kv,
11 kv,
132 kv,
400 kv.
Switch Yard:
Switch Yard:
1.Bus Bar:
A strip or bar of copper, brass or aluminium
Conducts electricity within a switchboard,
distribution board, substation, battery bank,
or other electrical apparatus.
2. Lightning Arrester :
A device used on electrical power systems and
telecommunications systems
To protect the insulation and conductors of the system
from the damaging effects of lightning.
The typical lightning arrester has a high-voltage
terminal and a ground terminal.
1.Bus Bar:
A strip or bar of copper, brass or aluminium
Conducts electricity within a switchboard,
distribution board, substation, battery bank,
or other electrical apparatus.
2. Lightning Arrester :
A device used on electrical power systems and
telecommunications systems
To protect the insulation and conductors of the system
from the damaging effects of lightning.
The typical lightning arrester has a high-voltage
terminal and a ground terminal.
Switch Yard:
3. Wave Traps:
Wave Traps are used at sub-stations using Power Line Carrier
Communication (PLCC).
PLCC is used to transmit communication and control
information at a high frequency over the power lines..
4. Breaker:
A circuit breaker is an automatically operated electrical
switch designed to protect an electrical circuit from damage
caused by overload or short circuit.
Its basic function is to detect a fault condition and interrupt
current flow.
3. Wave Traps:
Wave Traps are used at sub-stations using Power Line Carrier
Communication (PLCC).
PLCC is used to transmit communication and control
information at a high frequency over the power lines..
4. Breaker:
A circuit breaker is an automatically operated electrical
switch designed to protect an electrical circuit from damage
caused by overload or short circuit.
Its basic function is to detect a fault condition and interrupt
current flow.
Switch Yard:
5. Current Transformer:
Current Transformer is used for basically two major functions: -
i. Metering
– For current measurement.
ii. Protection
– over current protection, overload earth fault protection, Bus-bar protection,
Bus differential protection. CT is typically described by its current ratio
from primary to secondary.
•Isolator:
An isolator is one, which can break an electrical circuit when the circuit is to be switched on no load.
These are normally used in various circuits for the purposes of isolating a certain portion when
required for maintenance etc.
5. Current Transformer:
Current Transformer is used for basically two major functions: -
i. Metering
– For current measurement.
ii. Protection
– over current protection, overload earth fault protection, Bus-bar protection,
Bus differential protection. CT is typically described by its current ratio
from primary to secondary.
•Isolator:
An isolator is one, which can break an electrical circuit when the circuit is to be switched on no load.
These are normally used in various circuits for the purposes of isolating a certain portion when
required for maintenance etc.
Switch Yard:
•In BSTPP there are two switchyards:-
(i) 400 KV SWITCHYARD: (ii) 132 KV SWITCHYARD:
There are total 22 bay in 400 KV switchyard. There are total 11 Bay in 132 KV A Bay A
BAY is basically a way for the incoming switchyard.
power from generator as well as outgoing
power for distribution. 3 Bay for ICT (Inter Connecting
Transformer)
5 Bay for each generating transformer 5 Bay for S.T (Station Transformer)
3 Bay for ICT(Inter Connecting Transformer) 2 Bay for MST (Miscellaneous
2 Bay for PATNA line Service Transformer)
2 Bay for KAHALGAON line 1 Bay for Bus Coupler
2 Bay for BALIA line
7 for FUTURE line
1 Bay for SHUNT REACTOR
•In BSTPP there are two switchyards:-
(i) 400 KV SWITCHYARD: (ii) 132 KV SWITCHYARD:
There are total 22 bay in 400 KV switchyard. There are total 11 Bay in 132 KV A Bay A
BAY is basically a way for the incoming switchyard.
power from generator as well as outgoing
power for distribution. 3 Bay for ICT (Inter Connecting
Transformer)
5 Bay for each generating transformer 5 Bay for S.T (Station Transformer)
3 Bay for ICT(Inter Connecting Transformer) 2 Bay for MST (Miscellaneous
2 Bay for PATNA line Service Transformer)
2 Bay for KAHALGAON line 1 Bay for Bus Coupler
2 Bay for BALIA line
7 for FUTURE line
1 Bay for SHUNT REACTOR
Transformers:
Transformers:
GENERATING TRANSFORMER:
A generating transformer is a single – phase power transformer (3 single phase units
shall form a bank).
Generating Transformer steps–up the generated voltage of 24 KV by alternator to a
higher voltage of 400 KV (hence, working as a step-up Transformer).
This voltage of 400 KV is then transmitted to Switchyard
INTER CONNECTING TRANSFORMER:
An ICT is a 3-phase auto transformer used to interconnect 400 KV switchyard and 132
KV switchyard
GENERATING TRANSFORMER:
A generating transformer is a single – phase power transformer (3 single phase units
shall form a bank).
Generating Transformer steps–up the generated voltage of 24 KV by alternator to a
higher voltage of 400 KV (hence, working as a step-up Transformer).
This voltage of 400 KV is then transmitted to Switchyard
INTER CONNECTING TRANSFORMER:
An ICT is a 3-phase auto transformer used to interconnect 400 KV switchyard and 132
KV switchyard
Transformers:
STATION TRANSFORMER:
It is used only for initializing the start-up of the station (Main Plant).
It is very beneficial during emergency situations such as tripping of Units, shut-down etc.
Station transformers is used to start Station auxiliaries which are required for generating
services such as coal and ash handling system, lighting system, water purifying system etc.
Unit Auxiliary Transformer:
The Unit Auxiliary Transformer is the Power Transformer that provides power to the
auxiliary equipment of a power generating station during its normal operation.
MISCELLANEOUS SERVICE TRANSFORMER:
It is used to supply miscellaneous loads of plant. It is a two winding transformer connected
to 132 KV switchyard.
STATION TRANSFORMER:
It is used only for initializing the start-up of the station (Main Plant).
It is very beneficial during emergency situations such as tripping of Units, shut-down etc.
Station transformers is used to start Station auxiliaries which are required for generating
services such as coal and ash handling system, lighting system, water purifying system etc.
Unit Auxiliary Transformer:
The Unit Auxiliary Transformer is the Power Transformer that provides power to the
auxiliary equipment of a power generating station during its normal operation.
MISCELLANEOUS SERVICE TRANSFORMER:
It is used to supply miscellaneous loads of plant. It is a two winding transformer connected
to 132 KV switchyard.
Generators:
THANKING YOU
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