In this article, we are glad to provide the syllabus of the code AS3501 of Anna University awarding the B.E Aerospace Engineering Syllabus based on regulation 2021. Let’s what we have here.
We tried our best to provide the detailed syllabus unit-wise for the subject code AS3501 – Aerospace Propulsion – II Semester V. We also include the required textbooks and references from the expert faculty regarding the syllabus. Along with it assists the students to become more aware of the topics. And can easily make preparation strategies as per the syllabus to make your move for examinations. Hope this information is useful. Comment below if you need anything relevant to the syllabus. We’ll try to answer your questions. Don’t forget to share with your classmates.
If you want to know more about the B.E Aerospace Engineering Syllabus connected to an affiliated institution’s four-year undergraduate degree program. We provide you with a detailed Year-wise, semester-wise, and Subject-wise syllabus in the following link B.E Aerospace Engineering Syllabus Regulation 2021 Anna University.
Aim Of Concept:
- To learn the principles of operation and design of spacecraft power plants.
- To explain the basics of hypersonic propulsion.
- To compare the solid and liquid rocket propulsion.
- To show the advantages and applications of electrical rocket propulsion.
- To learn the concepts of hybrid rocket propulsion
AS3501 – Aerospace Propulsion – II Syllabus
Unit I: Basics Of Hypersonic Propulsion
Introduction – Thermodynamic Closed Cycle Analysis – First Law Analysis – Stream Thrust Analysis – Compression Components – Burner Entry Pressure – Fuel-Air Mixing – Combined Mixing and Chemical Kinetics – Supersonic combustion and Scramjet Propulsion.
Unit II: Solid Rocket Propulsion
Propulsion Elements for Solid Rocket Motors – Solid Propellant Grain Design – Prediction and Measurement of Specific Impulse – Solid Propellant Combustion and Internal Ballistics of Motors – Plume, Signal Interference and Plume Signature – Structural Analysis of Propellant Grains – Safety Characteristics of Solid Propellants and Hazards of Solid Rocket Motors.
Unit III: Liquid Rocket Propulsion
Types of Propellants – Propellant Tanks – Propellant Feed Systems – Gas Pressure Feed Systems – Tank Pressurization – Turbo pump Feed Systems and Engine Cycles – Rocket Engines for Manoeuvring, Orbit Adjustments, Attitude Control – Engine Families – Valves and Pipelines – Engine Support Structure.
Unit IV: Hybrid Rocket Propulsion
Conventional bi-propellant systems – high regression rate fuels – O/F shift – Scale-up tests Regression rate analysis – Review of Solid-Fuel Regression Rate Behaviour in Classical and
Nonclassical Hybrid Rocket Motors – Mechanisms and Measurement Techniques of Solid-Fuel Pyrolysis Phenomena and Regression Rate – Analytical Models – Vortex Injection – High-Speed Flow Effects – Combustion Instability and Transient Behaviour – Similarity and Scaling Effects.
Unit V: Electrical Rocket Propulsion
Introduction – Electrostatic Propellant Acceleration – Bombardment Ionization – Plane Diode – Electrostatic Thruster Performance – Arcjet – Pulsed-Magnetoplasma Accelerators – Laser Propulsion-Different Types, Advantages and Applications.
Text Books:
- John T. Bertin, “Hypersonic Aerothermodynamics”, AIAA Inc., Washington DC, 1994.
- Sutton, G.P., “Rocket Propulsion Elements”, Wiley, New York, 9th Ed., 2017.
References:
- Heiser, W. H. and Pratt, D. T., “Hypersonic Air Breathing Propulsion”, AIAA, 1994.
- Hill P. G., and Peterson C. R., “Mechanics and Thermodynamics of Propulsion”, Pearson Education, 2nd Ed., 2009.
- Oates G. C., “Aerothermodynamics of Aircraft Engine Components”, AIAA Education Series, 1985.
Related Posts On Semester – V:
Must Read For More: