Presentation is loading. Please wait.

Presentation is loading. Please wait.

Course Summary Session: Trajectories, Chemical Rockets, Plasma Propulsion, Fusion Propulsion John F Santarius Lecture 43 Resources from Space NEEP 533/

Published bySilas Houston Modified over 8 years ago

Similar presentations

Presentation on theme: "Course Summary Session: Trajectories, Chemical Rockets, Plasma Propulsion, Fusion Propulsion John F Santarius Lecture 43 Resources from Space NEEP 533/"— Presentation transcript:

1

2 Course Summary Session: Trajectories, Chemical Rockets, Plasma Propulsion, Fusion Propulsion John F Santarius Lecture 43 Resources from Space NEEP 533/ Geology 533 / Astronomy 533 / EMA 601 University of Wisconsin

3 Efficient Solar-System Travel Requires High-Exhaust-Velocity, Low-Thrust Propulsion Electric power can be used to drive high-exhaust-velocity plasma or ion thrusters, or fusion plasmas can be directly exhausted. Electric power can be used to drive high-exhaust-velocity plasma or ion thrusters, or fusion plasmas can be directly exhausted. – Allows fast trip times or large payload fractions for long-range missions. Uses relatively small amounts of propellant, reducing total mass. Uses relatively small amounts of propellant, reducing total mass. Fusion rocket (   specific power ) 2 JFS 1999 University of Wisconsin

4 3 JFS 1999 University of Wisconsin Plasma Thrusters Give High Exhaust Velocity Electrostatic thruster Electrodynamic thruster From University of Stuttgart’s web page: www.irs.uni-stuttgart.de/RESEARCH/ EL_PROP/e_el_prop.html EL_PROP/e_el_prop.html Electrothermal thruster From Robert Jahn, Physics of Electric Propulsion (1968)

5 D- 3 He Fusion Would Outperform D-T Fusion for Space Applications High charged-particle fraction allows efficient direct conversion to thrust or electricity. High charged-particle fraction allows efficient direct conversion to thrust or electricity. – Increases useful power. – Reduces heat-rejection (radiator) mass. – Allows flexible thrust and specific-impulse tailoring. Low neutron fraction reduces radiation shielding. Low neutron fraction reduces radiation shielding. D-3He eliminates need for a tritium-breeding blanket. D-3He eliminates need for a tritium-breeding blanket. 4 JFS 1999 University of Wisconsin

6 Field-Reversed Configurations Appear Attractive for Fusion Space Propulsion From Univ. of Washington web page for the Star Thrust Experiment (STX): www.aa.washington.edu/AERP/RPPL/STX.html JFS 1999

Download ppt "Course Summary Session: Trajectories, Chemical Rockets, Plasma Propulsion, Fusion Propulsion John F Santarius Lecture 43 Resources from Space NEEP 533/"

Similar presentations

Moacir L. Ferreira Jr. July 08, 2011

Moacir L. Ferreira Jr. July 08, 2011
Nanoparticle Electric Propulsion for Space Exploration Phys 483 Monday, March 31 2008 Team 1: Perry Young, Kiyoshi Masui, Mark Hoidas, Andrew Harris.

Nanoparticle Electric Propulsion for Space Exploration Phys 483 Monday, March Team 1: Perry Young, Kiyoshi Masui, Mark Hoidas, Andrew Harris.
Lectures in Plasma Physics

Lectures in Plasma Physics
Low-thrust trajectory design ASEN5050 Astrodynamics Jon Herman.

Low-thrust trajectory design ASEN5050 Astrodynamics Jon Herman.
MAE 5391: Rocket Propulsion Overview of Propulsion Systems

MAE 5391: Rocket Propulsion Overview of Propulsion Systems
Propulsion Systems. Propulsion System A machine that produces thrust to push an object forward The amount of thrust depends on the mass flow through the.

Propulsion Systems. Propulsion System A machine that produces thrust to push an object forward The amount of thrust depends on the mass flow through the.
Space Travel of the Future WOPAT #279. What I’m going to talk about: Interplanetary travel Interstellar travel Intergalactic travel Faster than light.

Space Travel of the Future WOPAT #279. What I’m going to talk about: Interplanetary travel Interstellar travel Intergalactic travel Faster than light.
Nuclear Power Applications in Space American Nuclear Society Why Nuclear For Space Exploration? Nuclear fuels are a million times more energy dense than.

Nuclear Power Applications in Space American Nuclear Society Why Nuclear For Space Exploration? Nuclear fuels are a million times more energy dense than.
Atoms and Molecules Atoms: The smallest units of each chemical element. Positively charged protons and neutral neutrons in the nucleus. Negatively charged.

Atoms and Molecules Atoms: The smallest units of each chemical element. Positively charged protons and neutral neutrons in the nucleus. Negatively charged.
Rockets and Launch Vehicles

Rockets and Launch Vehicles
Principles of Propulsion and its Application in Space Launchers Prof. Dr.-Ing. Uwe Apel Hochschule Bremen 13.07.2012REVA Seminar1.

Principles of Propulsion and its Application in Space Launchers Prof. Dr.-Ing. Uwe Apel Hochschule Bremen REVA Seminar1.
EGR 4347 Analysis and Design of Propulsion Systems

EGR 4347 Analysis and Design of Propulsion Systems
An Introduction to Rocket

An Introduction to Rocket
Spacecraft Propulsion Dr Andrew Ketsdever Lesson 13 MAE 5595.

Spacecraft Propulsion Dr Andrew Ketsdever Lesson 13 MAE 5595.
AAE450 Senior Spacecraft Design Fred Ricchio Week 8: March 8 th, 2007 Propulsion Group Analysis of MPD Limitations.

AAE450 Senior Spacecraft Design Fred Ricchio Week 8: March 8 th, 2007 Propulsion Group Analysis of MPD Limitations.
A Comparison of Nuclear Thermal to Nuclear Electric Propulsion for Interplanetary Missions Mike Osenar Mentor: LtCol Lawrence.

A Comparison of Nuclear Thermal to Nuclear Electric Propulsion for Interplanetary Missions Mike Osenar Mentor: LtCol Lawrence.
28 October 2014 1 st Space Glasgow Research Conference, Glasgow, United Kingdom.

28 October st Space Glasgow Research Conference, Glasgow, United Kingdom.
How to facilitate contact? Recall the dilemma: direct physical contact with ET or more indirect radio communication.

How to facilitate contact? Recall the dilemma: direct physical contact with ET or more indirect radio communication.
How do most vehicles propel themselves? Tire pushes on ground, ground pushes on tire… Normal Forces and Friction.

How do most vehicles propel themselves? Tire pushes on ground, ground pushes on tire… Normal Forces and Friction.
Samara State Aerospace University (SSAU) Samara 2015 SELECTION OF DESIGN PARAMETERS AND OPTIMIZATION TRAJECTORY OF MOTION OF ELECTRIC PROPULSION SPACECRAFT.

Samara State Aerospace University (SSAU) Samara 2015 SELECTION OF DESIGN PARAMETERS AND OPTIMIZATION TRAJECTORY OF MOTION OF ELECTRIC PROPULSION SPACECRAFT.

Similar presentations

Ads by Google