This note
explains the following topics: Compressible flow, Zeroth law of thermodynamics,
First law of thermodynamics, Second law of thermodynamics, Adiabatic, reversible
process, The free energy and free enthalpy, Entropy and real gas flows,
Conservation of mass, Eulers equation, Momentum equation, Isentropic condition,
Bernoulli equation, Shock relations for perfect gas, Nozzle flow, Normal shock
recovery, Waves in supersonic flow, Oblique shocks, Supersonic compression by
turning, Detached shocks, Shock-expansion theory, Reflection and intersection of
oblique shocks, Cones in supersonic flow, Derivation of perturbation equation,
Irrotational flow.
Author(s): N. Venkata Raghavendra and Farheen Sana
This page has links to powerpoint
slides for the following topics related to Gas Dynamics and Propulsion :
Propulsion, Thermodynamic Analysis of Ideal Propulsion Cycles, Gas Dynamics of
Passive Components of Turbo Engines, Fundamentals of Gas Dynamics, Analysis of
Diffusers and Nozzles, Study of Compressors, Gas Dynamics of Combustors, Study
of Turbines, Additional Topics.
This note
explains the following topics: Compressible flow, Zeroth law of thermodynamics,
First law of thermodynamics, Second law of thermodynamics, Adiabatic, reversible
process, The free energy and free enthalpy, Entropy and real gas flows,
Conservation of mass, Eulers equation, Momentum equation, Isentropic condition,
Bernoulli equation, Shock relations for perfect gas, Nozzle flow, Normal shock
recovery, Waves in supersonic flow, Oblique shocks, Supersonic compression by
turning, Detached shocks, Shock-expansion theory, Reflection and intersection of
oblique shocks, Cones in supersonic flow, Derivation of perturbation equation,
Irrotational flow.
Author(s): N. Venkata Raghavendra and Farheen Sana