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The story of how liquid hydrogen was put to work is told in two great books. Part 1 is this book, "Liquid Hydrogen as a Propulsion Fuel, 1945-1959", by John L. Sloop (NASA SP-4404). Part 2 is "Taming Liquid Hydrogen: The Centaur Upper Stage Rocket: 1958-2002", by Virginia P. Dawson and Mark D. Bowles (NASA SP-2004-4230).
The author of this work illuminates the overlapping, often conflicting roles of the individual, who originates ideas, and of the group, which manages today's complex technology. Many worthwhile ideas have doubtless been lost, at least temporarily, because individuals were unable to convince committees.
Lists citations with abstracts for aerospace related reports obtained from world wide sources and announces documents that have recently been entered into the NASA Scientific and Technical Information Database.
The Rocket Lab: Maurice Zucrow, Purdue University, and America’s Race to Space focuses on the golden era of space exploration between 1946 and 1966, specifically the life and times of Purdue University’s Dr. Maurice J. Zucrow, a pioneering teacher and researcher in aerospace engineering. Zucrow taught America’s first university course in jet and rocket propulsion, wrote the field’s first textbook, and established the country’s first educational Rocket Lab. He was part of a small circle of innovators who transformed Purdue into the country’s largest engineering university, which became a cradle of astronauts. Taking a chronological and thematic approach, The Rocket Lab weaves between the local and national, drawing in rival universities, especially Harvard, MIT, Princeton, and Caltech. Also covered is Zucrow’s role in the national project system of research and development through World War II and the Cold War. At Aerojet, he was one of the country’s original project engineers, dedicated to scientific-technical expertise and the stepwise approach. He made vanguard power plant contributions to the Northrop Flying Wing, as well as the Corporal, Nike, and Atlas missiles, among others. Zucrow’s work in propulsion helped to improve the country’s arsenal of ballistic missiles and space launchers, and as a teacher, he educated the first generation of aerospace engineers. This book elevates Zucrow and the central role he played in getting the United States to space.
to the German Edition This book is based on published material, oral presentations and lecture courses, as well as the author's personal research in the specific field of space technology and in the general areas of energy storage and transfer, and cryogenics. The science and technology of liquid hydrogen-once essential prere quisites for the rapid development of space technology-are now also proving to be more and more important for the energy production of the future. Hydrogen as an energy carrier can generally mediate the existing disparity between nuclear energy and regenerative energy, both of which are indispensable for the future. Hydrogen, as a secondary energy carrier, can be produced from these primary energy sources with minimal environmental impact and without the detrimental, long-term pollution effects of current fossil fuel technology. Hydrogen, therefore, represents the ultimate in energy technology. The initial, large-scale application of hydrogen as a secondary energy was as a high-energy rocket propellant. The procedures for its large scale liquefaction, storage and employment were generally developed in the U.S. Currently in Europe similar activities are being conducted only in France. The effort in West Germany involves testing hydrogen-oxygen and hydrogen-fluorine rocket engines, studying also the physical and technical characteristics of slush hydrogen-mixture of the solid and liquid phase-and is concentrating currently on R&D applications of liquid hydrogen as an alternate fuel. Similar activities are also being conducted in Japan and Canada.