Investigation of swirl injectors and supersonic nozzles for the development of a meso-scale thrust chamber / Ahmad Hussein Abdul Hamid

Abdul Hamid, Ahmad Hussein (2008) Investigation of swirl injectors and supersonic nozzles for the development of a meso-scale thrust chamber / Ahmad Hussein Abdul Hamid. Masters thesis, Universiti Teknologi MARA.

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Abstract

Issues of propellant atomizing, mixing and viscous loss become increasingly more
important as the thrust chamber are reduced in size. Two main components in thrust
chamber have been identified as critical since small differences in its design can result in
dramatically different performance. They are injector and nozzle, which have been
greatly studied by many researchers experimentally or numerically.
Current research examines the performance of two solid cone and one hollow cone swirl
injectors and 22 convergent-divergent nozzles for thrust chamber application. The spray
characteristics of these injectors were investigated by means of cold flow test and the
flow inside the nozzles were numerically analyzed by means of computational model that
utilizes Spalart-AUmaras model as turbulence model, which was designed specifically for
aerospace applications. In addition, optimization of the nozzle's performance was
investigated, where nozzle divergence angle was reduced if flow separation occurs inside
nozzle.
Main objectives of injector cold flow test lay on the determination of flow discharge
coefficients, spray cone angle and spray break up length of each injector at different
injection pressure. Results show an approximate direct proportion between Reynolds
number and discharge coefficient. However, introducing purely axial stream inside
injector's swirl chamber does not necessarily increase the coefficient of discharge.
Experiment also indicates that increase in injection pressure increased the spray angle.
However, at higher injection pressure, both solid cone injectors experience slight
decreases in spray angle as the liquid film at the nozzle outlet contracted. Further
investigation leads to general conclusion that breakup length decreased with an increase
in injection pressure where hollow cone spray produces the longest liquid film.
From nozzles analysis, there was significant improvement in nozzle's performance as a
result of optimization is foreseen. It is concluded that in order to operate the thrust
chamber efficiently, the nozzle geometry must be contoured to prevent flow separation.
Actual testing of thrust chamber was performed by means of combustion test utilizing a
specially designed test stand and feed systems. Although the test did not provide
quantitative performance data of thrust chamber, the functionality and reliability of the
feed system had been proved.

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Item Type: Thesis (Masters)
Creators:
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Abdul Hamid, Ahmad Hussein
UNSPECIFIED
Subjects: T Technology > TJ Mechanical engineering and machinery
Divisions: Universiti Teknologi MARA, Shah Alam > Faculty of Mechanical Engineering
Item ID: 544
Uncontrolled Keywords: Propellant, thrust chamber, swirl injectors, computational model, Spalart-AUmaras
URI: https://ir.uitm.edu.my/id/eprint/544

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