Schneider process automation power industry solutions
1. 1
Schneider Process Automation Power
Industry Solutions`
Power plant basics – An overview
By Rodney Berg
Page 1
Confidential Property of
Schneider Electric |
3. 3
Components of a Power Plant
> Key
1. Cooling tower 10. Steam governor valve 19. Superheater
2. Cooling water pump 11. High pressure turbine 20. Forced draught fan
3. Transmission line (3-phase) 12. Deaerator 21. Reheater
4. Unit transformer (3-phase) 13. Feed heater 22. Air intake
5. Electric generator (3-phase) 14. Coal conveyor 23. Economizer
6. Low pressure turbine 15. Coal hopper 24. Air preheater
7. Condensate pump 16. Pulverized fuel mill 25. Precipitator
8. Condenser 17. Boiler drum 26. Induced draught fan
9. Intermediate pressure turbine 18. Ash hopper 27. Chimney Stack
4. 4
Boiler types
RBE RBC Benson UP
Power output
60 to 800MW 50 to 1000MW 75MW and over 350MW and over
Main steam
press.
Main steam
Temp.
Boiler type
Natural circulation Once-through
Subcritical Subcritical / supercritical
up to 566ºC up to 630ºC
6. 6
Process description ….
1. Coal Supply – Coal fed and then crushed and fed through the conveyor belt to the plant
2. Coal Mill – The coal is fine crushed and fed to the boiler along with air for combustion
3. Boiler – The de-mineralized water fed through the boiler tubes is converted into steam from the heat from the
combustion process.
4. Precipitator & Stack – The exhaust from the boiler is released into the atmosphere after it passes through the
precipitator which removes the fly ash before the flue gases are dispatched to the atmosphere
5. Turbine, Generator - The hot steam from the Boiler is passed through the turbine HP section and it hits the
blades at 540 0C and 130 Kg Bar Pressure causing the turbine to rotate rapidly. This causes the generator
which is coupled to the turbine to rotate its shaft producing electric current.
6. Cooling Water System – The steam discharged from the turbine is cooled with cooling water in the condensers.
The cold water is heated by the steam and again fed to the boiler to to start the generation process again.
7. Water Treatment Plant – This is for purification of the water being fed to the boiler to reduce sludge etc.
8. Precipitators , Ash System – The fly ash and bottom ash are removed from plants and hauled to disposal site or
ash lagoons.
9. Substation, Transformer, Transformer lines – Once the electricity is generated transformers increase the
voltage so that it can be carried across the transmission lines.
10. The electricity voltage is again reduced to be fed to the cities and towns at substations.
7. 7
Bottom
Ash
System
Economizer
Hoppers
F D
Fan
BOTTOM
ASH
HOPPER
Coal
Bunker
Conveyors
Pulverizers
Load
Gen.HP IP L P
Turbine
Econ-
omizer
Re-
Heat
Super
Heater
DRUM
Condenser
P A
Fan
ID
Fan
HP
FW
Htr
LP
FW
Htr
Ash
Transfer
Precipitators
Stack
Gas Scrubber
Emissions
Monitor
Flyash
Cond.
Pump
BFP
Deaerator
Cooling
Water
Feeder
Downcomers
Risers
Air Heater
Power Plant Detailed Process
Map
Water Vapor &
Scrubbed Gases
General
Water
Sump
WATER
TREATMENT
Settling
Pond
8. 8
Power Plants - Basic Control Loops
Combustion Control
> Fuel Control
Coal or Gas or Oil or Combinations
> Air Flow Control
Forced Draft Fan Control
Furnace Draft Control
> Induced Draft Fan Controls
Feed-water Control
> BFP (Boiler Feed-water Pump) Control
> Feed-water Valve Control
Steam Temperature Control
> Spray (attemperator) Valve Controls
> Damper Controls
> Gas Recirculation Fan Controls
11. 11
Bottom
Ash
System
Economizer
Hoppers
F D
Fan
BOTTOM
ASH
HOPPER
Coal
Bunker
Conveyors
Pulverizers
Load
Gen.HP IP L P
Turbine
Econ-
omizer
Re-
Heat
Super
Heater
DRUM
Condenser
P A
Fan
ID
Fan
HP
FW
Htr
LP
FW
Htr
Ash
Transfer
Precipitators
Stack
Gas Scrubber
Emissions
Monitor
Flyash
Cond.
Pump
BFP
Deaerator
Cooling
Water
Feeder
Downcomers
Risers
Air Heater
Power Plant Detailed Process
Map
Water Vapor &
Scrubbed Gases
General
Water
Sump
WATER
TREATMENT
Settling
Pond
Boiler Control
12. 12
Boiler Controls
Following are the major control areas in a Boiler
> Supply of water to the boiler,
> Combustion of fuel in the furnace,
> Steam pressure
> Steam temperature, and
> Furnace pressure, are all a part
Now as a Instrumentation and controls supplier we should be able to do the
above with our DCS system
13. 13
Power Plant Operation Modes
Normal Mode
• This is also known as the turbine-leading-boiler mode or (Boiler-lagging). As its name implies, it is
normally the preferred mode of operation, as it is designed to serve the needs of the power grid.
• If this mode is selected, the unit’s operator specifies generator electrical output as the set-point:
the operator sets the target electric power output [say, in MW, or in % of Full Power (FP)], and
the target rate of change of power [e.g., in % FP/s].
• The control program (running in the station computer) is called the Unit Power Regulator (UPR).
• The UPR continuously compares the actual generator power to the setpoint.
Alternate Mode
• This is also known as the boiler-leading-turbine mode (or turbine-lagging). This is not normally
the preferred mode of operation, but is used under certain circumstances, especially if the
reactor power has to be strictly controlled.
• If this mode is selected, the unit’s operator specifies reactor power as the setpoint: the operator
sets the target reactor power output [say, in % of reactor Full Power (FP)], and the target rate of
change of reactor power [e.g., in % FP/s].
• The RRS continuously compares the actual reactor power to the setpoint.
• If there is a difference, there is a “reactor-power error”.
Invensys proprietary
14. 14
Power Plants – Advanced Control
Loops
Advanced Control
> Like Boiler Optimization
> Soot Blower Optimization
> NOx Reduction
> Data Acquisition Systems
Plant Performance Calculations
> Boiler and Turbine Efficiency Calculations
> Energy Management (Load Dispatch) Systems
> Load Shedding schemes
> Energy control and Management Systems
15. 15
Power Plants - Additional Control
LoopsBalance of Plant Controls (Miscellaneous Controls)
> Water Inventory Controls
Deareator Level Control
Hot Well Level Controls
Condensate Flow Controls
> Turbine Cooling Oil Temperature Controls
> Generator Cooling Oil Temperature Controls
> Air Pre-Heater Temperature (Cold End Temperature) Controls
Water Treatment Plant Controls
Cooling Tower Controls
Fuel Handling
> Coal Handling
> Fuel Oil, pressure, flow, & temperature control
> Gas pressure control
16. 16
Bottom
Ash
System
Economizer
Hoppers
F D
Fan
BOTTOM
ASH
HOPPER
Coal
Bunker
Conveyors
Pulverizers
Load
Gen.HP IP L P
Turbine
Econ-
omizer
Re-
Heat
Super
Heater
DRUM
Condenser
P A
Fan
ID
Fan
HP
FW
Htr
LP
FW
Htr
Ash
Transfer
Precipitators
Stack
Gas Scrubber
Emissions
Monitor
Flyash
Cond.
Pump
BFP
Deaerator
Cooling
Water
Feeder
Downcomers
Risers
Air Heater
Power Plant Detailed Process
Map
Water Vapor &
Scrubbed Gases
General
Water
Sump
WATER
TREATMENT
Settling
Pond
Emissions Monitoring
17. 17
Power Plants - Emission Control
Systems
Power Plant Emissions
> Particulate Matter
Fly-ash
> Sulfur Oxides
SO2 - Sulfur Dioxide
> Nitrogen Oxides
NOx - Nitrogen oxides
18. 18
Power Plant Emissions
Control of Power Plant Emissions
> ESP’s - Electrostatic Precipitators
> FF’s - Fabric Filters (Bag Houses)
> FGD’s - Flue Gas Desulfurization Systems (Scrubbers)
> SCR’s - Selective Catalytic Reduction
19. 19
FGD’s – Flue Gas Desulphurization
• Flue gas desulphurization, or “scrubbing,” is a complex process that uses lime
or limestone to absorb sulfur dioxide emissions before they can be released
into the air, making the power plant a cleaner energy producer.
• With environmental regulations getting continuously stricter, effective FGD
systems are crucial for SO2 compliance.
• A number of variables can affect the performance and cost efficiency of a flue
gas scrubber, including lime slurry flow, pH levels, oxidation levels, and even
stack temperature.
20. 20
Combined Cycle Power Plant
A combined cycle is a combination of two or more thermal cycles
within a single power plant, where the intention is to increase the
efficiency over that of the single cycles
That is, 2 stand alone inefficient (~30%) energy cycles put
together in the right way yields
1 reasonably efficient (~60%) energy cycle.
22. 22
Why Combined Cycle Power Plants?
• Highest efficiency of any power plant (approaching 60%)
• Lowest emissions of any current fossil fuel power plant
• Lowest installed and operational costs for power generation
• High levels of operational flexibility
• Shorter lead times than conventional fossil-fuel-fired steam plant
• Suitability for highly efficient co-production schemes
• Option of using coal and other fuels via gasification
24. 24
Power Industry Technology
Coal-fired power plant
Coal Boiler
Steam turbine
and generator
Dust
collecto
r
Combustion
system
Desulphurisation
system
Denitrification
system
HRSG
Gas
Turbine
Control
Systems
Generator
Steam
Turbine
Combined cycle power plant
Hydro power plant
Nuclear power plant Geothermal power plant
25. 25
l Drum/Once-Through/Fluidized Bed
l Coordinated control
l Combustion
l Drum level
l Furnace pressure
l Steam temperature
l Load runback
l Load block
Enterprise Operations Management
l Real-time Operations Management
l Operational Dashboards
l Maintenance & inventory management
l Fleet Generation Management
l Asset Management
Environmental control
l Electrostatic / Mechanical Precipitator
l Wet / Dry Flue Gas Desulfurization
l Baghouse
l Selective Catalytic Reduction
l Selective Non Catalytic Reduction
Burner Management
l Auto-purge & pre-light
l Emergency shutdown protection
l Burner-pulverizer automation
l Boiler control integration
l Burner-front equipment
Balance of plant control
l BFP Turbine Control
l Condensate control
l Condenser hotwell
l Feedwater heaters
l Make-up water
l Turbine lube oil temperature
l Generator H2 temperature
l Automatic Sootblowing
l Motor logic
l Steam coil air heater
l Switchyard
Boiler control
Turbine controls
l Speed governor
l Frequency governor
l Overspeed protection
l On-line valve test
l Auto-synchronization
l Automatic startup
l Vibration Monitoring
l Hydraulics
Fuel control
l Gas
l Oil
l Coal
Unloader
Crushing
Drying
Stacker Reclaimer
Simulators
l High fidelity
l Operator training
l Control Checkout
l Loop tieback
Data acquisition
l Generation optimization
l AGC
l Network security
l Distribution management
l Switchyard/Substation SCADA
Optimization
l Heat Rate
l Emissions
l Smart Sootblowing
l Steam Temperature
Generation, Distribution & Substation Automation
l Aim*Historian
l Periodic Logs
l Sequence of Event
l Post Event Review
l Equipment Run Time
l Tag Out
l Group Measurement Display
l Performance Calculations
l Controllable Losses
l Loop / Alarm Management
Power Industry Applications overview
Asset
Management
Risk & Safety
Management
Operational
Performance
Real Time
Operations Management
Real Time
Business Performance
26. 26
The Power Industry Solutions Set
Generation T&D, Metering Corporate
l AGC
l Network security
l Distribution management
l Switchyard/Substation SCADA
Distribution & Substation
Automation Enterprise Operations
Management
l Real-time Operations Management
l Operational Dashboards
l Maintenance & inventory management
l Fleet Generation Management
l Asset Management
l Corporate Energy Management
Environmental
l Electrostatic / Mechanical Precipitator
l Wet / Dry Flue Gas Desulfurization
l Baghouse
l Selective Catalytic Reduction
l Selective Non Catalytic Reduction
Burner Management
Balance of plant control
Boiler control
Turbine controls
Fuel control
Simulation and
Training
Optimization
Emissions
Control
27. 27
Schneider Electric PA Power Solutions
Footprint
Generating
Units
Energy
Portfolio
OTS
APC
Risk & Safety Management
Foxboro/Triconex Controls
Generation Transmission
Distribution
Foxboro SCADA
EAM/Smart Signal/SwanTech
Real-time Operations Management
Loop/Alarm Management
Real-time Business Performance
Generating
Fleet
Trading
SE PA offers solutions that span the full value chain of the Power Industry
Asset
Management
Risk & Safety
Management
Operational
Performance
Real Time
Operations Management
Real Time
Business Performance
Other Offerings from
Controls & Safety
28. 28
SE PA Solutions for Power
1. I/A Series Distributed Control System
2. Safety Solutions
-Triconex In Power Plant
3. Fleet Generation Management System
4. PADO – Performance Monitoring and
Diagnostic Optimization and PRISM
Offerings
5. Advanced Process Controls – Connoisseur
for the Power Industry
6. Operator Training Simulator
7. Invensys Life Cycle Management Program