Lectures related to Liquid Bi-propellant Propulsion Systems: Fundamentals and Architectures

Chemical Propulsion Systems: An Overview

Covers the principles and applications of chemical propulsion systems in space missions.

Explores spacecraft propulsion principles, including thrust, acceleration, efficiency, and chemical propulsion in space mission design.

Introduction to Space Propulsion Systems and Design

Introduces space propulsion systems, their design principles, and the importance of project management in aerospace engineering.

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Space Mission Design: Lunar Exploration and Propulsion Techniques

Discusses lunar exploration, spacecraft propulsion techniques, and the mechanics of space mission design.

Introduction to Space Propulsion Systems

Introduces the principles and applications of space propulsion systems.

Space Mission Design and Operations

Explores space mission design, propulsion, and re-entry techniques, including aerocapture and electric propulsion.

Spacecraft Propulsion: Basics and Applications

Covers the basics of spacecraft propulsion, including rocket motors, engines, and Mars mission propellant.

Designing a 200 N Bi-Propellant Thruster: Key Considerations

Covers the design process for a 200 N bi-propellant thruster, focusing on key parameters and methodologies for effective performance.

Rocket Physics Fundamentals

Covers the fundamentals of rocket physics, including center of mass, momentum, and rocket speed.

Variable Mass System and Accelerated Frames

Explores variable mass systems, rocket thrust, takeoff conditions, and accelerated frames.

Variable Mass System: Rocket

Covers the mechanics of rockets ejecting mass at a constant rate.

Space Mission Design and Operations

Covers spacecraft propulsion, interplanetary transfer, aerodynamic braking, and orbit insertion techniques in space missions.

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Space Mission Design and Operations

Covers space mission design, spacecraft energy, orbits, and maneuvers, including gravity effects, tethers, and interplanetary trajectories.

Thruster-based Attitude Control

Covers the design and operation of thruster-based attitude control systems for spacecraft.

Feasibility of electric driven turbopumps for the bi-liquid engine

Explores the feasibility of electrically driven turbopumps for a bi-liquid engine in a sounding rocket, covering design, state-of-the-art comparisons, requirements, and future work.

Bi-liquid rocket engine: SLM manufacturing

Explores the EPFL Rocket Team's bi-liquid rocket engine design for space travel.

Lessons from Space Exploration

Explores space launchers, satellite injection, rocket propulsion, and launcher history, focusing on the Ariane family and ESA's ISS contributions.

Nuclear and Electric Propulsion

Explores nuclear and electric propulsion systems for space missions using hydrogen, xenon, and argon propellants.