The NSS Space Settlement Journal has commenced publication this month, beginning with two new papers:
A Contemporary Analysis of the O’Neill – Glaser Model for Space-based Solar Power and Habitat Construction by Peter A. Curreri, NASA Marshall Space Flight Center, and Michael K. Detweiler, Amadeus Consulting
Abstract: Solar Power Satellites, SPS, is a technology that promises unlimited energy free from chemical pollution and green house gas emissions. First expounded by Peter Glaser in 1969, the economic viability was in doubt primarily due to Earth launch costs. Concurrently Gerard O’Neill demonstrated that using 1970’s technologies, SPS could be economically viable if space based materials and labor were utilized, but only after large investments in in-space infrastructure. More recently the O’Neill – Glaser model was reevaluated finding that optimization of space worker habitat size results in substantially improved economics. This paper compares the optimized O’Neill – Glaser economic model with that of Earth launched SPS for the classical electrical power scenario and for the more ambitious scenario to arrest global climate change. The conclusion is that for the energy levels necessary to mitigate global increases in CO2, Earth launched SPS are not economically viable (even with more advanced technologies and more optimistic decreases in launch costs), however with this increase in energy demand the space derived SPS become even more economically compelling and in addition enhance human survival probabilities by enabling a substantial human population to live in space.
Abstract: The development of an economically viable space-based solar power (SBSP) system is critical to the Earth’s future and for future space development. PowerSat technology is also critical to supporting sustainable private and government space ventures, including space lift, space exploration and space infrastructure development. Such a system would greatly expand the need for space lift capability from small reusable launch vehicles for SBSP satellite maintenance to large expendable launch vehicles for deploying GW class SBSP satellites into orbit. The technology needed for SBSP is also needed for in-space solar electric transportation systems needed for space colonization as the technology is the same. The hope has been that gradual improvement in photovoltaic or other technologies such as thermal systems would solve the mass to orbit problem for SBSP systems. However, this in itself does not appear sufficient to make SBSP economically viable. This paper presents a new architectural option for SBSP using a Sun -synchronous orbit (SS-O), wireless power transmission (WPT) and a space power relay (SPR). This new concept is called The Space Grid. The Space Grid relies on the use of two separate satellite constellations. The power satellite (PowerSat) constellation is placed in SS-O dusk to dawn orbit at 800km and has access to constant sunlight and is used to produce the power. The Equatorial reflector satellite (ReflectorSat) constellation is in a 4,000km equatorial orbit and is used to distribute the power to the rectenna on the Earth’s surface. The power is produced by the PowerSats in SS-O and beamed to the ReflectorSats in equatorial orbit and then bounced to the rectenna on the ground. This combination allows for the production and distribution of power to the Earth’s surface without the problems normally associated with non-Geostationary (GEO) PowerSat concepts and without having to place the PowerSats in GEO. The Space Grid reduces the mass of a PowerSat transmitter by approximately 67% by moving it closer then past GEO concepts and allows for higher power levels and therefore much smaller (60%) and less costly rectenna on the ground and reduces the minimum size from 5GW to only 2GW allowing quicker deployment of space energy to solve the Earth’s energy problems. WPT transmission could be microwave or laser but for this paper microwave will be used for easier comparison with past concepts.
The NSS Space Settlement Journal is an online, high-quality, peer-reviewed journal. NASA Liaison for the Journal is Simon “Pete” Worden, NASA Ames Research Center. Editors of the Journal are:
Al Globus, San Jose State University, Editor in Chief
Fred Becker, National Space Society
Anita Gale, International Space Settlement Design Competition
Peter Garretson, National Space Society
Mark Hopkins, National Space Society
John Lewis, University of Arizona
Scott Pace, George Washington University
Joseph Palaia, 4Frontiers Corporation
See Call for Papers if you are interested in contributing to the Journal.