Relations Of Combustion Dead Time To Engine Variables For A 20 000 Pound Thrust Gaseous Hydrogen

Relations of Combustion Dead Time to Engine Variables for a 20,000-pound-thrust Gaseous-hydrogen

Author : Daniel I. Drain

Publisher :

Page : 28 pages

File Size : 16,28 MB

Release : 1961

Category :

ISBN :

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Experiments were conducted on an uncooled 20,000lb-thrust gaseous-H and LOX rocket engine over a range of chamber pressure from 45 to 300 psia and oxidant-fuel ratio from 2 to 7. Combustion dead times were measured and compared with dead times calculated from frequency data for two assumed combustion models. Measured combustion dead time decreased with increasing chamber pressure at constant oxidant-fuel ratio or LOX injection velocity. This dead time also decreased with oxidant-fuel ratio at constant chamber pressure or O injection velocity. For the engine model where combustion dead time was considered to be the inverse of twice the measured chamberpressure frequency, only a fair agreement with the measured dead time was obtained. When the measured chamber-pressure frequencies were corrected for gas-dynamics effects in terms of the gas residence time, close agreement with the measured dead times was obtained. (Author).





NASA Technical Note

Author :

Publisher :

Page : 392 pages

File Size : 30,14 MB

Release : 1970

Category :

ISBN :

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Liquid Rocket Engine Combustion Instability

Author : Vigor Young

Publisher : AIAA

Page : 606 pages

File Size : 12,78 MB

Release : 1995

Category : Liquid propellant rockets

ISBN : 9781600864186

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Annotation Since the invention of the V-2 rocket during World War II, combustion instabilities have been recognized as one of the most difficult problems in the development of liquid propellant rocket engines. This book is the first published in the United States on the subject since NASA's Liquid Rocket Combustion Instability (NASA SP-194) in 1972. In this book, experts cover four major subject areas: engine phenomenology and case studies, fundamental mechanisms of combustion instability, combustion instability analysis, and engine and component testing. Especially noteworthy is the inclusion of technical information from Russia and China--a first.



Combustion and Propulsion

Author : Robert Paterson Hagerty

Publisher :

Page : 726 pages

File Size : 47,60 MB

Release : 1963

Category : Airplanes

ISBN :

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