gas turbine class presentation
DESCRIPTION
GAS TURBINE PRINCIPLE AND ITS MAJOR COMPONENTSTRANSCRIPT
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Gas Turbine Principle and its major
components
Completed by : Mohammad Ibnul Hossain
Executive Engineer (Operation)Tongi 80(105) MW GT Power Station
Bangladesh Power Development BoardE-mail : [email protected]
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What is Turbine ?A turbine is a rotary engine that extracts energy from a fluid /gas flow and converts it into useful work . The simplest turbines have one moving part, a rotor assembly, which is a shaft or drum with blades attached. Moving fluid acts on the blades, or the blades react to the flow, so that they move and impart rotational energy to the rotor. Early turbine examples are windmills and water wheel.
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Types of Gas Turbine :
1.Impulse
2.Reaction
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P1 P2
V1 V2Here , P1 > P2v1> v2
Velocity-v, pressure-P
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If Pressure decreases Velocity increases Kinetic Energy increases RMP increases
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Change in pressure is done :
1) By Convergent Nozzle .
2) By Convergent Blade.
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In Turbine ( Gas or Steam) : Impulse Turbine has Convergent Nozzle system and uniform blade system . Reaction Turbine has Convergent Blade system and uniform nozzle system
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Impulse Turbine nozzle and blading arrangement
Conver- gent
Guide van Here :
P1 >P2V2> V1
Moving Blade Fixed Blade
ConstantArea
MovingBlade
P1 P2V1 V2
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Impulse Turbine in Action
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Impulse Turbine in Action
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Impulse Turbine in Action
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Impulse Turbine in Action
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Impulse Turbine in Action
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Impulse Turbine in Action
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Impulse Turbine in Action
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Impulse Turbine in Action
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Impulse Turbine in Action
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Impulse Turbine in Action
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Impulse Turbine in Action
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Impulse Turbine in Action
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ConstantArea
Guide vane
Conver- gent
Nozzle Here
P1 > P2V2> V1
Reaction Turbine nozzle and blading arrangement
Fixed Blade MovingBlade
P1 P2V1 V2
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Reaction Turbine in Action
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Reaction Turbine in Action
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Reaction Turbine in Action
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Reaction Turbine in Action
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Reaction Turbine in Action
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Reaction Turbine in Action
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A reaction turbine is moved by two main forces:
1.There is expansion of steam is there , pressure is decreasing so there is increase in kinetic energy by increasing velocity .
2. the push or impulse of the gas impinging upon the blades
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Impulse Turbine create large amounts of Tangential thrust
Reaction turbines create large amounts of axial thrust, and so require the use
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So the combination of impulse -reaction turbine is widely used .
Impulse –Reaction Turbine reduces both the tangential and axial stress To the Rotor
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Impulse – Reaction Blade
The fixed blades are set in a reversed manner compared to the moving blades,
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Fixed Blade Lower Part
Fixed Blade Upper Part Moving Blade
Lower Part Moving Blade Lower Part
Lower Part Impulse Turbine Upper Part Reaction Turbine
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What is a Gas Turbine ? A gas turbine, also called a combustion turbine, is a type of internal combustion engine which has rotary impeller type thermal power mechanism with gas or liquid as working medium . It has an upstream rotating compressor coupled to a downstream turbine, and a combustion Chamber in-between.
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The main components of a gas turbine :
1.Compressor 2.Combustion Chamber 3.Turbine .
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine Generator
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Compressor
Combustion chamber
Turbine Generator
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Compressor
Combustion chamber
Turbine Generator
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Compressor
Combustion chamber
Turbine Generator
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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Compressor
Combustion chamber
Turbine Generator
Air Inlet
Fuel Intel (Gas/Liquid fuel)
Exhaust
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A QUICK BROWN FOX JUMPES
OVER THE LAZY
DOG
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When the turbine starting system is actuated, ambient air is drawnthrough the inlet plenum assembly >>>>>>>>> filtered, >>>then compressed in the 17th stage, axial flow compressorthe variable inlet guide vanes are in the closed position.When the speed corresponding to 95 per cent the variable inlet guide vane actuator energizes to open the inlet guide vanes (I.G.V.) to the normal turbine operating position
.
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>>>Compressed air from the compressor flows into the annular space surrounding the fourteen combustion chambers>>>>from which it flows into the spaces between the outer combustion casings and the combustion liners.The fuel nozzles introduce the fuel into each of the fourteen combustion chambers where itmixes with the combustion air and is ignited by both (or one, which is sufficient) of the twospark plugs.>>>At the instant one or both of the two spark plugs equipped combustion chambers is ignited,the remaining combustion chambers are also ignited by crossfire tubes that connect thereaction zones of the combustion chambers
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>>>The hot gases from the combustion chambers expand into the fourteen separate transition pieces attached to the aft end of the combustion chamber liners and flow towards the three stage turbine section of the machine.
>>>>Each stage consists of a row of fixed nozzles followed by a row of rotatable turbine buckets.In each nozzle row, the kinetic energy of the jet is increased with an associated pressure drop, and in each following row of moving buckets, a portion of the kinetic energy of the jet is absorbed as useful work on the turbine rotor.
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After passing through the 3rd stage buckets, the exhaust gases are directed into the exhaust hood and diffuser
which contains a series of turning vanes to turn the gases from the axial direction to a radial direction
thereby minimizing exhaust hood losses. Then, the gases pass into the exhaust plenum.
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When the turbine starting system is actuated, ambient air is drawnthrough the inlet plenum assembly >>>>>>>>> filtered, >>>then compressed in the 17th stage, axial flow compressorthe variable inlet guide vanes are in the closed position.When the speed corresponding to 95 per cent the variable inlet guide vane actuator energizes to open the inlet guide vanes (I.G.V.) to the normal turbine operating position
.
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>>>Compressed air from the compressor flows into the annular space surrounding the fourteen combustion chambers>>>>from which it flows into the spaces between the outer combustion casings and the combustion liners.The fuel nozzles introduce the fuel into each of the fourteen combustion chambers where itmixes with the combustion air and is ignited by both (or one, which is sufficient) of the twospark plugs.>>>At the instant one or both of the two spark plugs equipped combustion chambers is ignited,the remaining combustion chambers are also ignited by crossfire tubes that connect thereaction zones of the combustion chambers
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>>>The hot gases from the combustion chambers expand into the fourteen separate transition pieces attached to the aft end of the combustion chamber liners and flow towards the three stage turbine section of the machine.
>>>>Each stage consists of a row of fixed nozzles followed by a row of rotatable turbine buckets.In each nozzle row, the kinetic energy of the jet is increased with an associated pressure drop, and in each following row of moving buckets, a portion of the kinetic energy of the jet is absorbed as useful work on the turbine rotor.
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After passing through the 3rd stage buckets, the exhaust gases are directed into the exhaust hood and diffuser
which contains a series of turning vanes to turn the gases from the axial direction to a radial direction
thereby minimizing exhaust hood losses. Then, the gases pass into the exhaust plenum.
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.
.
1. Air-Intake System. inlet plenum assembly
2. Inlet Guide Van (IGV). variable inlet guide vanes
3. Compressor. compressor4. Combustion Chamber. combustion chambers combustion casings
Combustion liner spark plugscrossfire tubes transition pieces
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5. Turbine-Rotor. three stage turbine
fixed nozzles rotatable turbine bucketsturbine rotor.
6. Exhaust- Plenum or Chimney.exhaust hood and diffuserexhaust plenumturning vanes
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Schematic drawing of major components of gas turbine
Gas Turbine Auxiliaries
Air Inlet System
CompressorSection
Exhaust System
Turbine Section
Combustion Section
AirInlet
Compressor TurbineSection
CombustionSection
ExhaustSection
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Air-Intake System :
Pre-filterPad
High Efficiency
FilterTo the Bell-
Mouth
Rain hood
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Pre-Filter Pad
• Glass fiber pad with progressive density• Strong resilient design• Impregnated with gel-like adhesive• High dust holding capacity• Disposable
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Coalescer Filter Pad
• Low Pressure Drop. • Economical in use. • Long Service Life. • Highly Efficient Midst
Eliminator
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High Efficiency Filter
• High efficiency and dust holding capacity• Lightweight, easy to install• Low average operating resistance• Longer life than standard filters• Less filter change out
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Air filtration is ensured by :• Rain hood placed on the front of the filter housing.• Bleed-heating device• Pre-filters installed in the first stage of supporting frames.• Coalescer pads installed against the front face of the high efficiency filter cells ; bothfilter elements placed in the second stage of supporting frames.
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Variable Inlet Guide Vane
IGV
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Variable Inlet Guide Vanes (IGVs)
IGVs are used to control the airflow through the compressor, in turn controlling the airflow through the entire machine.
The IGVs modulate during the start-up and acceleration of the gas turbine to rated speed, loading & unloading of the generator and deceleration of the gas turbine during shutdown.
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Condition IGV opening
Startup - 2850 34⁰
2850- Loading 57⁰
Loading increases >> exhaust temperature increase
IGV opening increase
At Base Load to keep the exhaust temp. from 570⁰ C
84⁰
At Peak Load to keep the exhaust temp. not beyond to 575 ⁰ C (+5⁰ C)
84⁰
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Compressor
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•inlet guide vanes, •The axial-flow compressor section •consists of the compressor rotor and the inclosing casing.•the 17 stages of rotor and stator blading, • the exit guide vanes.
Compressor
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Compressor Structure Inlet Guide Vane
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Compressor Structure Compressor cylinder
Compressor cylinder has 3 parts:
•Forward casing ; •After casing •compressor outlet casing.
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Compressor Structure
Forward casing After casing
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Discharge casing
Compressor Structure
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Compressor outlet casing
Compressor Structure
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compressor structure
Compressor vane: IGV, stationary blade and EGV (Exhaust Guide vane)
IGV
EGV
StationaryBlade
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Compressor StructureStationary Blade (lower half of the Cylinder )
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Compressor Structure
Compressor moving blade
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compressor rotor Compressor rotor is a drum
structure with 17 impellers (including a half shaft).17 impeller panels are tightly pulled by 16 long bolt pull rods to be integrated.
Compressor Structure
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Working Principle : •air is confined to the space between the rotor and stator blading >>>>compressed in stages by a series of alternate rotating (rotor) and stationary (stator) airfoil shaped blades.
•The rotor blades supply the force needed to compress the air in each stage and the stator blades guide the air so that it enters in the following rotor stage at the proper angle.
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•The compressed air exits through the compressor discharge casing to the combustion chambers.
•Air is extracted from the compressor for turbine cooling, for bearing sealing, and during start-up for pulsation control.
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Combustion Section
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Combustion Chamber
Main Components
1.Cap-Liner: 14 Nos 2.Primary Fuel Nozzle: 14 Nos 3.Secondary Fuel Nozzle: 14 Nos 4. Transition Piece (TP): 14 Nos
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Combustion Chamber
Cross-fire
tube
SecondaryFlame
detector
Primary Flame
Detector
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Some notable arrangements in combustion Chamber:
a)Primary Flame Detector in the Chamber 1,2,3,14b)Secondary Flame Detector in the chamber 1,2,3,14c) Primary , Secondary and Tertiary Fuel Connection
clock wise direction from manifold .
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Introduction of combustion chamber structure
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TRASTION PIECE
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FLOW SLEEVE
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Cap-liner
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Primary Nozzle
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Secondary and Tertiary Nozzle Tertiary Nozzle
Tertiary Nozzle
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Working Principle : The combustion system is of the reverse-flow type with 14 combustion chambers This system also fuel nozzles, spark plug ignition system, flame detectors, and crossfire tubes.
Hot gases, generated from burning fuel in the combustion chambers, are used to drive the turbine.
High pressure air from the compressor discharge is directed around the transition pieces and into the combustion chambers liners. This air enters the combustion zone through metering holes for proper fuel combustion and through slots to cool the combustion liner. Fuel is supplied to each combustion chamber through a nozzle designed to disperse and mix the fuel with the proper amount of combustion air.
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Combustion wrapper :The combustion wrapper forms a plenum in which the compressor discharge air flow is directed to the combustion chambers. Its secondary purpose is to act as a support for the combustion chamber assemblies .
Combustion chambers :Discharge air from the axial flow compressor flows into each combustion flow sleeve from the combustion wrapper. The air flows up-stream along the outside of the combustionliner toward the liner cap. This air enters the combustion chamber reaction zone through the fuel nozzle swirl tip, through metering holes in both the cap and liner and through combustion holes in the forward half of the liner.
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The hot combustion gases from the reaction zone pass through >>> a thermal soaking zone and >>>> then into a dilution zone where additional air is mixed with the combustion gases.
Metering holes in the dilution zone allow the correct amount of air to enter and cool the gases to the desired temperature.
Along the length of the combustion liner and in the liner cap are openings whose function is to provide a film of air for cooling the walls of the liner and cap asshown in figure.
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1-fuel gas duct 2-outer casing 3-flame cylinder 4- fish-scale cooling hole 5-igniter6-transition conic top 7-valve plate 8-fuel nozzle 9-swirler, 10- ejecting hole (for combustion ) 11-combustion area, 12-mixed ejecting hole (for cooling) 13-mixed area 14-annular chamber
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FUEL NOZZLES (GAS)Description :•Each combustion chamber is equipped with a fuel nozzle that emits the metered amount required fuel into the combustion liner. •Fuel nozzles are used in gas turbines burning gas.•The fuel nozzle functions for proper distribution of the gas fuel into the reaction zone of the combustion•Liner which promotes uniform, rapid and complete combustion.
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TRANSITION PIECESDescription :Transition pieces direct the hot gases from the liners to the turbine first stage nozzle. Thus,the first nozzle area is divided into 14 equal areas receiving the hot gas flow.
Spark plugs :Combustion is initiated by means of the discharge from two high-voltage, non-retractable spark plugs bolted to flanges on the combustion chambers and mounted in a primary zone cup in adjacent combustors (N° 11 and 12).
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Flame detectors :During the starting sequence, it is essential that an indication of the presence or absence of flame be transmitted to the control system. For this reason, a flame monitoring system is used
consisting of eight sensors, each pair installed on four combustion chambers (n° 4 and 5, 10and 11 primary and secondary zone).
Actuated by the ionization of the gas inside it by getting ultra-violet emission from the flame.
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Turbine Structure
• The requirements for turbine• To bear high temperature• To bear thermal stress and thermal
shock• To sustain heat alignment
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Turbine Structure
• StatorTurbine stator consists of gas cylinder, stationary blade and support, force transmission system. Stators are stationary part of turbine.
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Turbine Structure turbine cylinder
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Turbine Structure
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turbine structure turbine exhaust casing
5-6 turbine exhaust casing1- outer casing2- inner casing3- NO.3 bearing4- exhaust diffuser 5- exhaust frame6- exhaust casing support
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Introduction of turbine structure• turbine blade and flow part
The high temp. gas from combustion casing enters the first stage nozzle through transition part. After expending in the nozzle, it enters the first-stage turbine moving blade.
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Introduction of turbine structureThe first stage turbine nozzle consists of turbine stationary blade and inner and outer ring of nozzle. there are 18 section pieces and 2 stationary blades in each.there are 36 stationary blades in first-stage turbine nozzle.
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Introduction of turbine structure
• the second stage nozzle and sealing of turbine
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透平结构介绍
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Introduction of turbine structure
• the third stage nozzle and sealing of turbine
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Introduction of turbine structure
turbine retainer
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Introduction of turbine structure In second or third stage of
turbine retainer inner side, we use bee-nest shape structure to enhance sealing effect.
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turbine rotor
Introduction of turbine structure
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Introduction of turbine structureturbine moving blades
There are 3 stages turbine moving blade with fir tree shape of each one’s root. The blade connects with mortise groove of vane wheel axially and tightly locked by bolts in case of moving out axially.
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透平结构介绍
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Introduction of turbine structure
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透平结构介绍
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