Author: National Aeronautics and Space Adm Nasa
Publisher:
Published: 2018-10-19
Total Pages: 28
ISBN-13: 9781728955339
DOWNLOAD EBOOK →A two-part overview of progress in space radiator technologies is presented. The first part reviews and compares the innovative heat-rejection system concepts proposed during the past decade, some of which have been developed to the breadboard demonstration stage. Included are space-constructable radiators with heat pipes, variable-surface-area radiators, rotating solid radiators, moving-belt radiators, rotating film radiators, liquid droplet radiators, Curie point radiators, and rotating bubble-membrane radiators. The second part summarizes a multielement project including focused hardware development under the Civil Space Technology Initiative (CSTI) High Capacity Power program carried out by the NASA Lewis Research Center and its contractors to develop lightweight space radiators in support of Space Exploration Initiative (SEI) power systems technology. Juhasz, Albert J. and Peterson, George P. Glenn Research Center RTOP 583-02-21...
Author: Mohamed S. El-Genk
Publisher: American Institute of Physics
Published: 1994
Total Pages: 488
ISBN-13:
DOWNLOAD EBOOK →Market: Researchers in nuclear power, physicists, chemical and nuclear engineers, students, and policy makers. The papers in this volume summarize key technological advancements that occurred during the ten years from 1984 to 1993 in such areas as heat pipe technology, fuels, space nuclear safety, dynamic power conversion systems, and advanced radiator technologies for spacecraft power systems. In light of new industry initiatives to form a consortia and the possibility of bi-modal space nuclear power and propulsion systems, this informative volume will be an invaluable reference source.
Author: Jianyin Miao
Publisher: Springer
Published: 2021-08-20
Total Pages: 360
ISBN-13: 9789811549861
DOWNLOAD EBOOK →This book presents fundamental theories, design and testing methodologies, and engineering applications concerning spacecraft thermal control systems, helping readers gain a comprehensive understanding of spacecraft thermal control systems and technologies. With abundant design methods, advanced technologies and typical applications to help them grasp the basic concepts and principles of engineering applications, it is mainly intended for engineering and technical staff engaged in spacecraft thermal control areas. The book discusses the thermal environments commonly used for space flight missions, rules and regulations for system design, thermal analysis and simulation, and thermal testing methods, as well as the design and validation of the thermal control systems for Chinese spacecraft, such as the Shenzhou spacecraft and Chang’e Lunar Lander and Rover. It also introduces them to communication and remote sensing satellites and presents advanced thermal control technologies developed in recent years, including heat transfer, heat insulation, heating, refrigeration and thermal sensor technologies. Addressing the design and validation of thermal control systems for various types of Chinese spacecraft, the book offers a valuable theoretical and practical reference guide for researchers and engineers alike.