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Design Considerations for Space Elevator Tether Climbers

By Cathy Swan, Peter Swan, Robert "Skip" Penny, John Knapman, Peter Glaskowsky
Design Considerations for Space Elevator Tether Climbers by Cathy Swan
About Design Considerations for Space Elevator Tether Climbers

The subject selected for this 2013 study is the Space Elevator Tether Climber. The objective of the one year study was to survey current concepts and technologies related to tether climbers, identify critical issues, questions, and concerns, assess their impact on the development of space elevators, and project towards the future. The following are a few of the conclusions: ¿ The study used the concept of "constant power" as a baseline because of its ability to lower design requirements on the tether climber. ¿ The mass breakout of 6 MT for a climber and 14 MT for customer payloads seems feasible. The estimate is that with a travel time of one week to GEO seven tether climbers can be on a tether simultaneously. ¿ The communication architecture should be integrated into the space elevator infrastructure and nodal layout. ¿ Solar power, as the sole source, appears achievable. ¿ The use of laser power as the sole source also seems achievable.

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  • Language:
  • English
  • ISBN:
  • 9781312099821
  • Binding:
  • Paperback
  • Pages:
  • 92
  • Published:
  • April 20, 2014
  • Dimensions:
  • 209x279x13 mm.
  • Weight:
  • 270 g.
Delivery: 1-2 weeks
Expected delivery: October 14, 2024

About Cathy Swan

View all books by Cathy Swan

Description of Design Considerations for Space Elevator Tether Climbers

The subject selected for this 2013 study is the Space Elevator Tether Climber. The objective of the one year study was to survey current concepts and technologies related to tether climbers, identify critical issues, questions, and concerns, assess their impact on the development of space elevators, and project towards the future. The following are a few of the conclusions:
¿ The study used the concept of "constant power" as a baseline because of its ability to lower design requirements on the tether climber.
¿ The mass breakout of 6 MT for a climber and 14 MT for customer payloads seems feasible. The estimate is that with a travel time of one week to GEO seven tether climbers can be on a tether simultaneously.
¿ The communication architecture should be integrated into the space elevator infrastructure and nodal layout.
¿ Solar power, as the sole source, appears achievable.
¿ The use of laser power as the sole source also seems achievable.

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