Difference between revisions of "SpaceElevatorPower"

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*The Space Elevator by Edwards
*The Space Elevator by Edwards
*Cloudmap.jpg in file list by Edwards
*Cloudmap.jpg in file list by Edwards
*[[Image:EPIC_excerpts.doc]] report on Pacific weather studies
|Safety issues with high power laser || Outline the requirements for safe operations ||   
|Safety issues with high power laser || Outline the requirements for safe operations ||   

Revision as of 20:14, 13 July 2008

Power Beaming System

Power is needed for everything and effective delivery over 10's of thousands of kilometers is not easy. Various methods were examined and laser power beaming was selected for the baseline. This is a mature yet still rapidly evolving technology.

Value Details
Power input 20 - 150 MW Can be from any conventional source. Ocean going platforms can have this amount of power available from diesel engines. Spreadsheet on energy needed for ascent File:Energy worksht.xls
Power in laser beam 2 - 15 MW This power does not need to be in a single beam but can come from multiple beams interlaced in time (pulsed beams)
Primary Optics Segmented adaptive optics mirror similar to those in major astronomical observatories
Primary Beam diameter 10-30 meters This size is determined by the focusing required and to reduce the intensity to a relatively safe level.
Wavelength TBD nm To be matched to the type of cells and lasers available.
Tracking accuracy TBD mrad Determined by laser beam and receiver sizes.
Power source Solid-state disk laser Stacked diodes are also coming on line. See File:Ultrahigh-Average Power Solid-State Laser.pdf, File:MCDL LASE 2004 1f.pdf, File:LASE 2004 SSDL 2k final.pdf


Boeing has demonstrated operation of a 25kW laser of the kind we need and claim they can build MW lasers Beaming 9+kW lasers over short distances are to be demonstrated at the Spaceward Space Elevator Games Adaptive optics have been demonstrated with long distance capabilities

Include images and videos from the SE Games Include design write-ups

Delivering power over the distance of the elevator is a challenge but quickly being addressed by current technology.

Major Design Challenges

Additional Work Needed

Item Notes Completed and Ongoing Efforts
Categorize the available laser systems Select for overall capital and operational cost, efficiency of recievers, lifetime, weather considerations, platform stability requirements,...
Detail optics system Size, performance, cost, ... considerations.
Weather concerns for the power beaming Determine the potential down time due to weather
  • The Space Elevator by Edwards
  • Cloudmap.jpg in file list by Edwards
  • File:EPIC excerpts.doc report on Pacific weather studies
Safety issues with high power laser Outline the requirements for safe operations

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