Chapter 4 Combustion Section v1 PDF

Summary

This document details combustion chamber types, qualities, and advantages/disadvantages. It's aimed at engineering students learning about gas turbine engines and combustion processes. It provides a useful overview of various combustion chamber types.

Full Transcript

Chapter 4: Combustion Section
Introduction
 Purpose of Combustor
 Combustion chamber qualities
 Combustion chamber construction (air flow)
 Types of combustion chamber
 Multiple can combustion chamber
 Tubo annular combustion chamber
 Annular combustion chamber
 Advantages & Disadvantage of individual types

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Purpose of Combustor
 The burner section contains the combustion chamber,
and provides the means for proper mixing of the fuel and
air to assure good combustion and to ignite the fuel/air
mixture at the start.

3
Combustion Chamber Qualities
Complete combustion

Low total pressure loss

Stability of combustion

No hot spots

Short length

Small cross-section

No flameout

Relightability

Wide range of operation

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Facts on Combustion
 Fuel must be vaporized and mixed with air before combustion.

 Combustion process increases the thermal energy of the gases.

 Equivalence ratio ǿ is the actual fuel air ratio divided by the
stoichiometric fuel air ratio

 Rich mixture is when ǿ > 1

 Lean mixture is when ǿ < 1

 The air fuel ratio is in the range of 60 to 100

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Air Distribution in a Combustion Chamber

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Air Distribution in a Combustion Chamber

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Flame Stabilizing And General
Airflow Pattern

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Types Of Combustion Chamber
 There are three main types of combustion chamber in
use for gas turbine engines. These are:
1. The multiple can chamber

2. The tubo-annular chamber

3. The annular chamber

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Multiple Can Combustion Chamber

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Can Type Combustion Chamber
 The can type combustion chamber is used mainly on older centrifugal compressor
engines

 Airflow is ducted to individual combustion cans that are arranged around the
circumference of the burner section

 Each can contains its own fuel nozzle, burner liner, and casing

 Advantages include its strength and durability, combined with the ease of
maintenance

 Disadvantages include poor use of space in the chamber for cooling, and uneven
heat distribution to the turbine section

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Tubo Annular Combustion Chamber

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Can-annular Type
 Can-annular type chambers combine the ease of maintenance of the can type with
the outstanding thermodynamics cooling of the annular type

 Contains cans at the front where the fuel and air are mixed and burned

 Advantages are similar to can type but with additional structural stability and
better utilization of space as compare to can type

 Disadvantages are similar with can type and it is more expensive and heavier than
can type

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Annular Combustion Chamber

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Annular Combustion Chamber
 Annular combustion chambers consist of a circular, continuous, inner and outer
shroud around the outside of the compressor drive shaft

 Annular combustion chamber is most commonly used in most engines due to its
size advantage

 Fuel is introduced through a series of nozzles where it is mixed and ignited with the
incoming air

 Advantages include providing a uniform heat distribution across the face of the
turbine section which aids in the prevention of heat warping or turbine blade
failure, and for better mixing of air and fuel along with better use of cooling space

 Disadvantages include not being able to be removed without complete
disassembly of the engine from the aircraft, and possible structural problems may
arise due to the large-diameter, thick-wall cylinder required with this type of
chamber

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Recap
 Design qualities of combustion chamber
 Air-fuel ratio range
 Identify the types of combustion chamber and state the
Advantages/Disadvantages for each type of chamber

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