CFD Analysis of solid rocket motors

CFD Analysis of solid rocket motors

EnglishPaperback / softbackPrint on demand
Pandey, Krishna
LAP Lambert Academic Publishing
EAN: 9783659489907
Print on demand
Delivery on Friday, 28. of August 2026
CZK 1,056
Common price CZK 1,173
Discount 10%
pc
Do you want this product today?
Megabooks Praha Korunní
not available
Librairie Francophone Praha Štěpánská
not available
Megabooks Ostrava
not available
Megabooks Olomouc
not available
Megabooks Plzeň
not available
Megabooks Brno
not available
Megabooks Hradec Králové
not available
Megabooks České Budějovice
not available
Megabooks Liberec
not available

Detailed information

Determination of the grain geometry is an important and critical step in the design of solid propellant rocket motors. Because, the performance of the rocket is greatly effect by the burning surface area of the solid propellant. The performance prediction of the solid rocket motor can be achieved easily if the burn back steps of the grain are known. In this study, grain burn back analysis for 3-D star grain geometries was investigated. The method used was solid modeling (ANSYS® - DM, PRO-E and GAMBIT) of the propellant grain for predefined intervals of burn back. In this method, the initial grain geometry was modeled parametrically using ANSYS software. For every burn step, the parameters were adapted and the new grain geometry was modeled, for analysis three cases of grain geometries was considered during the combustion. By analyzing these geometries, burn area change of the grain geometry was obtained. Using this data and internal ballistic parameters, the performance of the solid propellant rocket motor in terms of motor pressure was achieved.
EAN 9783659489907
ISBN 3659489905
Binding Paperback / softback
Publisher LAP Lambert Academic Publishing
Publication date March 17, 2015
Pages 96
Language English
Dimensions 229 x 152 x 6
Readership General
Authors Pandey, Krishna; Reddy, K. Obula
Manufacturer information
The manufacturer's contact information is currently not available online, we are working intensively on the axle. If you need information, write us on [email protected], we will be happy to provide it.