The document discusses how jet engines produce thrust through basic components and processes. It describes the main components of a jet engine as the air intake, compressor, combustor, turbine, and exhaust nozzle. It explains that the compressor increases air pressure, the combustor adds energy by burning fuel, the turbine drives the compressor, and the nozzle converts hot gas energy to kinetic energy to generate thrust by ejecting gases faster than the intake air speed. Thrust is created through momentum change as gases leaving the engine have higher velocity than incoming air, due to increased kinetic energy from combustion.
This so called PPT for propulsion study for Shenyang Aerospace University. This PPT right protected by Dr. divinder K. Yadav. Its using in SAU by Lale. For all students of Aeronautical Engineering must memorize each & every words from this PPT. If you miss a single words you must fail in the Exam. Remember there is no chance to be creative or use sense you just need to use the power of memorizing.
This so called PPT for propulsion study for Shenyang Aerospace University. This PPT right protected by Dr. divinder K. Yadav. Its using in SAU by Lale. For all students of Aeronautical Engineering must memorize each & every words from this PPT. If you miss a single words you must fail in the Exam. Remember there is no chance to be creative or use sense you just need to use the power of memorizing.
This Presentation gives a brief idea on turbojet engines, their components, working principle and also on the materials used in both the hot and cold sections of the engine, applications, etc..
Turbojets can be highly efficient for supersonic aircraft. Turbojets have poor efficiency at low vehicle speeds, which limits their usefulness in vehicles other than aircraft. Turbojet engines have been used in isolated cases to power vehicles other than aircraft, typically for attempts on land speed records.
This Presentation gives a brief idea on turbojet engines, their components, working principle and also on the materials used in both the hot and cold sections of the engine, applications, etc..
Turbojets can be highly efficient for supersonic aircraft. Turbojets have poor efficiency at low vehicle speeds, which limits their usefulness in vehicles other than aircraft. Turbojet engines have been used in isolated cases to power vehicles other than aircraft, typically for attempts on land speed records.
A presentation taking the student through how a Jet Engine works, and the different types of Jet Engine available. Initially written to prepare Air Cadets for their Jet Engine exam.
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CFD is a branch of fluid mechanics that uses
numerical methods and algorithms to solve and analyze
problems that involve fluid flows. Computers are used to
perform the calculations required to simulate the interaction
of liquids and gases with surfaces defined by boundary
conditions. In this thesis, CFD analysis of flow within
Convergent-Divergent supersonic nozzle of different cross
sections rectangular, square and circular has been performed.
The analysis has been performed according to the shape of the
supersonic nozzle and keeping the same input conditions. Our
objective is to investigate the best suited nozzle which gives
high exit velocity among the different cross sections
considered. The application of these nozzles is mainly in
torpedos. The work is carried out in two stages: 1.Modeling
and analysis of flow for supersonic nozzles of different cross
sections.2.Prediction of best suited nozzle among the nozzles
considered. In this, initially modeling of the nozzles has been
done in CATIA and later on mesh generation and analysis
have been carried out in ANSYS FLUENT 14.5 and various
contours like velocity, pressure, temperature have been taken
and their variation according to different nozzles has been
studied.
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In his public lecture, Christian Timmerer provides insights into the fascinating history of video streaming, starting from its humble beginnings before YouTube to the groundbreaking technologies that now dominate platforms like Netflix and ORF ON. Timmerer also presents provocative contributions of his own that have significantly influenced the industry. He concludes by looking at future challenges and invites the audience to join in a discussion.
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Presented by Vladimir Iglovikov:
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GitHub: https://github.com/albumentations-team/albumentations
Website: https://albumentations.ai/
LinkedIn: https://www.linkedin.com/company/100504475
Twitter: https://x.com/albumentations
Enchancing adoption of Open Source Libraries. A case study on Albumentations.AI
How jet engines produce thurst
1. How Jet Engines Work and Produce Thrust
Table of Contents
2.0 Basic Components of a Jet Engine.......................................................................................3
2.2 Compressor.....................................................................................................................3
2.3 Combustor......................................................................................................................4
2.4 Turbine............................................................................................................................4
2.5 Exhaust Duct/Nozzle.......................................................................................................4
4.0 Creation of Thrust in a Turbojet Engine..............................................................................7
5.0 Conclusion...........................................................................................................................9
6.0 References......................................................................................................................9
2. Jet Engine Propulsion and Thrust 2
1.0 Introduction
According to Hunecke (1997), jet engines, also known as gas turbine engines, are
the most widespread and most efficient method used for airplane propulsion currently.
The Jet engine uses basic principles and concepts of motion but applying it using a
combination of complex mechanical systems to achieve thrust. There are many types
of jet engines; however, this paper will concentrate on the Turbojet Engine to explain
the workings of the jet engine to achieve thrust and propulsion.
1.1 How the turbojet Engine Works
Turbojet Engines apply Newton’s Third Law of Motion that states, “For every
motion there is an equal and opposite reaction” (Hünecke, 1997, p. 4). Simply, when a
burnt mixture is ejected backwards from an engine, a forward force is generated on
the engine and thus on the aircraft. The bigger the backward force the bigger the
forward force (reaction force). Thrust is created when the burnt mixture pushed out
the back is ejected at higher velocity than that of the air being sucked in. (Hünecke,
1997, p. 4)
The engine’s fans suck air in at the front. A compressor, made up of fans with many
blades and attached to the shaft, elevates the pressure of the air. The compressed air is
then sprayed with fuel and an electric spark ignites the mixture. The burning gases
expand and blast out through the nozzle, at the back of the engine. As the jets of gas
shoot backward, the engine and the aircraft are thrust forward.
3. Jet Engine Propulsion and Thrust 3
2.0 Basic Components of a Jet Engine
2.1 Air Intake/Inlet
The air intake acts as a fluid flow duct, which directs the airflow to ensure that
the engine functions correctly to generate thrust (Hunecke, n.d., p. 44). The intake has
to be designed to deliver the needed quantity of airflow to the engine and ensure that
airflow entering the compressor is stable and uniform. All these conditions have to be
met when the aircraft is on the ground and during flight. A good intake design is
required to ensure that engine performance is close to figures obtained during
standard testing. The Stators (stationary blades) guide the airflow of the compressed
gases.
2.2 Compressor
The function of the compressor is to increase the pressure of the airflow that
comes from the air intake. Mechanical energy is supplied to the compressor via
rotating blades that exert aerodynamic forces on the airflow (Hunecke, n.d., p. 86).
This not only adds energy to the airflow but at the same time squeezes (compresses) it
into a smaller space. The compressor is driven by the turbine. Important compressor
performance parameters include compressor efficiency, compressor total pressure
ratio and the airflow rate. These parameters influence the amount of energy required
and the quality of energy conversion that is achieved (Hunecke, n.d., p.86).
Compressor types used can be axial-flow, centrifugal-flow, axial-centrifugal-flow,
double-centrifugal-flow compressors.
4. Jet Engine Propulsion and Thrust 4
2.3 Combustor
The combustor provides a stream of hot gas that provides energy to the turbine
and nozzle components of the engine. Heat is added by burning a mixture of
compressed air and vaporized fuel (Hunecke, n.d., p. 125) Minimal loss of pressure is
required in the combustion chamber during combustion. Types of combustors used
include can-type burners, annual-type burners and can-annular type burners.
2.4 Turbine
The turbine is used to drive the compressor by providing aerodynamic forces.
A high turbine power is obtained by extracting all the energy present in the hot gas.
On its own, a distinct turbine blade contributes approximately 250 hp (Hunecke, n.d.,
p. 6)
2.5 Exhaust Duct/Nozzle
The function of the exhaust nozzle is to transfer gas potential energy into
kinetic energy required to generate thrust (Hunecke, n.d., p. 155)
5. Jet Engine Propulsion and Thrust 5
Figure 1: Parts of a Turbojet Engine
Hünecke, K. (1997). Jet engines: fundamentals of theory, design, and operation. WI, USA:
Motorbooks International, p.4.
3.0 The Process of Thrust and Propulsion
At the intake, air is sucked from the compressor, where there a series of blades or
airfoils. The Rotors (rotating blades), draw in the air and compress it at the same time,
while the stators (stationary blades), guide the air through the compression chamber.
As the air moves through the rows of rotors and rotors, pressure rises to as much as 40
times, consequently the temperature rises. Most modern turbojet compressors have
overall pressure ratios of 44:1. (Mattingly, 2002, p. 20)
The compressed air is then pressed toward the back into the combustion chamber,
where fuel injectors spray fuel to create a mixture. This mixture of pressurized air and
fuel is then ignited. To control burn and flow, the fuel-air mixture must be brought
6. Jet Engine Propulsion and Thrust 6
almost to a stop to ensure a steady, continuous and stable flame. This occurs at the
very beginning of the combustion chamber. The aft part of this flame front is allowed
to advance toward the back. This guarantees complete combustion of the fuel as the
flame becomes hotter when it leans out, and because of the shape of the combustion
chamber the flow is accelerated rearwards. Some pressure slump is necessary, as it is
the reason why the expanding gases move out the rear of the engine rather than out
the front. Less than 25% of the air is involved in combustion, in some engines as little
as 12%, the rest acting as a reservoir to absorb the heating effects of the burning fuel.
(Hünecke, K., 1997, p.4)
The high-energy airflow coming exiting the combustion chamber goes into the
turbine, causing the turbine blades to rotate. The turbines are linked by shafts (which
have several ball-bearings in between) to turn the blades in the compressor and to spin
the intake fan at the front. This rotation reduces the energy. From the combustion
chamber, the gases produced move through the turbine and spin its blades.
After the turbine, the gases expand through the exhaust nozzle to atmospheric
pressure, generating a high velocity jet in the exhaust plume. The nozzle pressure
ratio on a turbojet is generally high enough for the expanding gases to reach Mach 1.0
and choke the throat. Usually, the flow will go supersonic in the exhaust plume
outside the engine. (Mattingly, 2002, p. 12)
7. Jet Engine Propulsion and Thrust 7
4.0 Creation of Thrust in a Turbojet Engine
The creation of thrust in a jet engine is based on Newton’s third law of motion
applied to a steady flow of air (Hünecke, K., 1997, p.32)The momentum of air leaving
the engine is supposed to be higher than the momentum of the air inflowing the
engine. The outcome is a high kinetic energy for the jet. The high-energy input of the
jet comes from burning of the fuel. According to Hunecke (1997), propulsion in a jet
aircraft occurs based on the principle of reaction. This principle states that a gas jet
exhausting at elevated velocity from a nozzle generates a force in the reverse direction
that is referred to as thrust (Hunecke, 1997, p.32). The thrust force will depend on the
airflow passing through the jet engine and the exhaust velocity. The jet engine
increases the momentum of the airstream flowing through it.
4.1 Momentum change
Considering an engine on a pylon under a wing as shown below, the only
force applied is through the pylon. (See diagram 2 below)
Figure 2: A High Bypass ratio engine installed under a wing (Cumpsty, 2003, p. 25).
8. Jet Engine Propulsion and Thrust 8
Assumptions made include the wing lift and drag being unaffected by the
engine and the engine being unaffected by the wing. Additionally, it is assumed that
there is uniform static pressure around the control surface (Cumpsty, 2003, p. 26). A
flow of fuel mf flows through the pylon, but with a low velocity, thus moment is
insignificant. Consequently, a mass flow of air mair enters the engine. For a bypass
engine, the velocity differences between the inner engine and the bypass streams have
to mix out. Thrust will be calculated by taking into account the flux of momentum
across the control surface around the engine. The air enters the control surface with a
velocity V. Air entering the control surface passes along the engine with only a small
portion, mair passing through the engine. According to Crumpsty (2003), the air that
passes around the engine exits the control surface with the same velocity V as the
flight speed; thus it does not contribute to thrust.
Therefore, the flux of the momentum entering the engine is given by the equation
below
In addition, the flux of momentum leaving the engine is given by the equation below
The net thrust FN is given by the difference between the two fluxes
Increase in kinetic energy causes an increase in velocity between the flow of
air entering the engine and that of the air leaving the engine (Cumpsty, 2003, p. 25).
9. Jet Engine Propulsion and Thrust 9
The kinetic energy results from the effect of the work supplied by the engine to the air
via combustion.
5.0 Conclusion
This report provides an explanation of the basic components of a jet engine
and the workings of each component to produce thrust that is used for propulsion.
Airflow is directed to the compressor via the air intake. The compressor increases the
pressure of the airflow before releasing it to the combustor. The combustor increases
the energy of the airflow through burning using fuel. The turbine provides energy to
the compressor, which is used to increase pressure of the gas. The exhaust nozzle
converts the hot gas energy to kinetic energy, which generates thrust.
6.0 References
Cumpsty, N. A., 2003. Jet Propulsion: A Simple Guide to the Aerodynamics and
Thermodynamic Design and Performance of Jet Engines. Cambridge:
Cambridge University Press. p. 25-26.
Flack, R. D., 2005. Fundamentals of Jet Propulsion with Applications. New York:
Cambridge University Press.
10. Jet Engine Propulsion and Thrust 10
Hünecke, K., 1997. Jet engines: fundamentals of theory, design, and operation. WI:
Motorbooks Internation. p 4-155.
Jay, S., 1972. The Jet Engine. London: Coller Nacmillan.
Mattingly, J. D., 2002. Aircraft Engine Design. New York: VA: American Institute of
Aeronautics and Astronautics. p. 12-20.