Design Considerations of a Space Elevator Apex Anchor and GEO Node, 2017 [PDF 79 pages]. The Space Elevator Transportation System is comprised of one Earth Port with two tether termini, multiple Apex Anchors supporting 100,000 km Tethers, 14 Tether Climbers, and a single Headquarters and Primary Operations Center. The GEO Node supports the Space Elevator Transportation System with a range of overhead functions; e. g. test, safety, and support. May also be purchased.
Space Elevators: A History, 2017 [PDF 146 pages]. Under the editorship of David Raitt, this book brings together for the first time the record of people, places, developments and activities, in fiction and in fact, of the space elevator, from the early pioneers who dreamt up the concept initially some 120 years ago to the work of modern day scientists and engineers who have developed the concept into doable plans. May be purchased.
Design Considerations of a Space Elevator Earth Port, 2015 [PDF 81 pages]. The International Space Elevator Consortium conducted a year-long study on the development of a space elevator Earth Port. This report addresses the functional requirements and missions leading to a mature engineering complex along the equator. May also be purchased.
Space Elevator Architectures and Roadmaps, 2014 [PDF 95 pages]. The International Space Elevator Consortium has conducted a year-long study addressing the issues associated with how to start the development of space elevators. Five segment roadmaps are developed: Tether Climber, Tether, Marine Node, Apex Anchor and Headquarters Primary Operations Center. May also be purchased.
Space Elevators: An Assessment of the Technological Feasibility and the Way Forward, 2013 [Amazon Book Link]. This study was conducted under the auspices of the International Academy of Astronautics (IAA). There were 41 authors and 5 editors. The report answers some basic questions about the feasibility of a space elevator infrastructure: Why a space elevator? Can it be done? How would all the elements fit together to create a system of systems? What are the technical feasibility of each major space elevator element?
Design Considerations for Space Elevator Tether Climbers, 2013 [PDF 96 pages]. The International Space Elevator Consortium has conducted a year-long study addressing the issues associated with how to develop tether climbers. The study is organized as follows: Chapter 1: Introduction; Chapter 2: Tether Climber Operational Phases; Chapter 3: Sub-System Description; Chapter 4: Power Sources; Chapter 5: Conclusions and Recommendations. May also be purchased.
Space Elevator Concept of Operations, 2012 [PDF 49 pages]. The International Space Elevator Consortium presents the current thinking on how a fully developed commercial space elevator will operate. The authors conclude that operations for a space elevator have no showstoppers, have reasonable costs, and mMeet the challenges. May also be purchased.
Space Elevator Survivability, Space Debris Mitigation, 2012 [PDF 73 pages]. The International Space Elevator Consortium examines the question: Will space debris be a “show stopper” for the development of space elevator infrastructure? The answer is a resounding NO! May also be purchased.
Space Elevator Systems Architecture, 2007 [PDF 246 pages]. An initial top-level view of a Space Elevator concept through space systems architecture and space systems engineering, directed toward decision makers, engineering managers, regulators, financiers, engineers, and technicians—illustrating steps, tradeoffs, and complexities. May also be purchased.
The Space Elevator NIAC Phase 2 Final Report, 2003 [PDF 3 MB].
The Space Elevator by Bradley C. Edwards (NASA Institute for Advanced Concepts Study Phase 1 Final Report), 2000 [PDF 15 MB].
Space Elevators – An Advanced Earth-Space Infrastructure for the New Millennium, 2000 [PDF 60 MB]. Compiled by D.V. Smitherman, Jr., Marshall Space Flight Center, Huntsville, Alabama. NASA Conference Publication CP-2000–210429. This publication is based on the findings from the Advanced Space Infrastructure Workshop on Geostationary Orbiting Tether “Space Elevator” Concepts, NASA Marshall Space Flight Center, June 8–10, 1999.
1982 paper by Paul Birch on Orbital Rings, a possible precursor to a space elevator. Posted with permission from the Journal of the British Interplanetary Society. [PDF 3 MB]