AS3002 High Temperature Gas Dynamics Syllabus:

AS3002 High Temperature Gas Dynamics Syllabus – Anna University Regulation 2021

OBJECTIVES:

• To introduce the theory of high temperature flows
• To make the students learn the kinetic theory of hypersonic flows.
• To make the students learn the kinetic theory of statistical thermodynamic aspects of flows at very high temperatures.
• To make them familiarize the calculations transport properties of gases high temperature.
• To learn the concepts of inviscid high temperature flows

UNIT I INTRODUCTION

Nature of high temperature flows – Chemical effects in air – Real perfect gases – Gibb’s free energy and entropy by chemical and non equilibrium – Chemically reacting mixtures and boundary layers.

UNIT II STATISTICAL THERMODYNAMICS

Introduction to statistical thermodynamics – Relevance to hypersonic flow – Microscopic description of gases – Boltzman distribution – Cartesian function

UNIT III KINETIC THEORY AND HYPERSONIC FLOWS

Chemical equilibrium calculation of equilibrium composition of high temperature air – equilibrium properties of high temperature air – collision frequency and mean free path – velocity and speed distribution functions.

UNIT IV INVISCID HIGH TEMPERATURE FLOWS

Equilibrium and non – equilibrium flows – governing equations for inviscid high temperature equilibrium flows – equilibrium normal and oblique shock wave flows – frozen and equilibrium flows – equilibrium conical and blunt body flows – governing equations for non equilibrium inviscid flows.

UNIT V TRANSPORT PROPERTIES IN HIGH TEMPERATURE GASES

Transport coefficients – mechanisms of diffusion – total thermal conductivity – transport characteristics for high temperature air – radiative transparent gases – radiative transfer equation for transport, absorbing and emitting and absorbing gases.

TOTAL: 45 PERIODS

OUTCOMES:

• To Explain the theory of high temperature flows
• To Apply the kinetic theory of hypersonic flows.
• To Analyse the kinetic theory of statistical thermodynamic aspects of flows at very high temperatures.
• To Solve the calculations transport properties of gases high temperature.
• To Describe the inviscid high temperature flows

REFERENCES

1. John D. Anderson, Jr., Hypersonic and High Temperature Gas Dynamics, McGraw-Hill Series,New York, 1996.
2. John D. Anderson, Jr., Modern Compressible Flow with Historical perspective, McGraw-Hill Series, New York, 1996.
3. John T. Bertin, Hypersonic Aerothermodynamics publishers – AIAA Inc., Washington, D.C.,1994.
4. E Rathakrishnan, “High Enthalpy Gas Dynamics”, John Wiley, NJ, 2015.
5. T.K.Bose, High Temperature Gas Dynamics,
6. William H. Heiser and David T. Pratt, Hypersonic Air breathing propulsion, AIAA Education Series.

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