NOC:Introduction to Rocket Propulsion


Lecture 1 - Introduction


Lecture 2 - A Brief History of Rocket Propulsion and ISRO


Lecture 3 - Types of Rocket Engine


Lecture 4 - Fundamentals of Aero-thermodynamics


Lecture 5 - Control Volume Analysis and Governing Equations


Lecture 6 - Adiabatic Steady 1-D flow and Speed of Sound


Lecture 7 - Basics of Thermochemistry


Lecture 8 - Adiabatic Flame Temperature and Chemical Equilibrium


Lecture 9 - Ideal Rocket Engine, Thrust Equation and Performance Parameters


Lecture 10 - Performance Parameters of Rocket Engine


Lecture 11 - Performance Parameters of Rocket Engine (Continued...)


Lecture 12 - Ideal Nozzle


Lecture 13 - Rocket Nozzle


Lecture 14 - Convergent Nozzle


Lecture 15 - Convergent-Divergent Nozzle and Shock Reflection


Lecture 16 - Effect of Back Pressure and Thrust Coefficient


Lecture 17 - Thrust Coefficient


Lecture 18 - Characteristics Velocity, Combustion Efficiency and Thrust Effectiveness


Lecture 19 - Actual Rocket Nozzle Characteristics


Lecture 20 - Flight Performance of a Rocket Vehicle


Lecture 21 - Flight Performance of a Rocket Vehicle


Lecture 22 - Flight Trajectory of Single Stage Rocket Vehicle


Lecture 23 - Orbital Mechanics


Lecture 24 - Types of Orbits


Lecture 25 - Orbital and Escape Velocity


Lecture 26 - Interplanetary Transfer Path


Lecture 27 - Multi-staging Rocket


Lecture 28 - Chemical Propellants-Characteristics and Classification


Lecture 29 - Solid and Composite Propellants


Lecture 30 - Composite Propellants and it's Manufacturing


Lecture 31 - Classification of Liquid Propellants


Lecture 32 - Solid Propellant Rocket Engine


Lecture 33 - Propellant Burning Mechanism and Flame Structure


Lecture 34 - Composite Propellant Combustion


Lecture 35 - Regression Rate of Solid Propellant and Effect of Operating Parameters


Lecture 36 - Characteristics of Solid Propellants


Lecture 37 - Effect of Acceleration and Particle Size on Burning Rate


Lecture 38 - Erosive Burning, Effect of Propellant Temperature and Thermal Model


Lecture 39 - Chamber Pressure in Solid Propellant Rocket Engine


Lecture 40 - Types of Propellant Grains


Lecture 41 - Types of Solid Propellant Grains and Evolution of Burning Surface


Lecture 42 - Burning Stability and Ignition System in SPRE


Lecture 43 - Liquid Propellant Rocket Engine: Basic Configuration and Types


Lecture 44 - Injection System in LPRE


Lecture 45 - Atomization of Liquid Propellants


Lecture 46 - Types of Injection System in LPRE


Lecture 47 - Analysis of Impinging Atomizer


Lecture 48 - Injection Distributor and Combustion Process in LPRE


Lecture 49 - Variation of Gas Specific Volume and Combustion Chamber Geometry


Lecture 50 - Liquid Propellant Feed System in LPRE


Lecture 51 - Turbo-Pump Feed Configuration


Lecture 52 - Ignition System in LPRE


Lecture 53 - Cooling of Thrust Chamber and Nozzle of a Rocket Engine


Lecture 54 - Cooling System of Rocket Engine (Continued...)


Lecture 55 - Modes of Heat Transfer through combustion Chamber Wall and Nozzle Wall


Lecture 56 - Heat Transfer Analysis of Cooling System


Lecture 57 - Hybrid Propellant Rocket Engine


Lecture 58 - Regression Rate of Solid Fuel Grain in HPRE and Types of Port Configurations


Lecture 59 - Non-Chemical Rocket Engine


Lecture 60 - Electromagnetic Thruster, Nuclear and Solar Rocket Engine