Title of article
Simulation of a Standard Store Separated from Generic Wing
Author/Authors
Sheharyar, M Department of Mechanical Engineering - SMME, NUST, Islamabad, Pakistan , Uddin, E Department of Mechanical Engineering - SMME, NUST, Islamabad, Pakistan , Ali, Z Department of Mechanical Engineering - SMME, NUST, Islamabad, Pakistan , Zaheer, Q College of Aeronautical Engineering - NUST, Islamabad, Pakistan , Mubashar, A Mechanical Engineering Program - Middle East Technical University Northern Cyprus Campus, Mersin, Turkey
Pages
11
From page
1579
To page
1589
Abstract
Evaluation of store separation experimentally is expensive; time consuming and dangerous as human risks are
involved. This results in development of computational methods to simulate the store separation. Store
separation studies include store separation simulation and determination of linear and angular displacements
of store under the influence of complex and non-uniform flow field of parent aircraft. In order to validate the
methodology, the unsteady CFD results, obtained by coupling six degrees of freedom (6-DOF) with flow
solver, are compared with experimental results. Major trends are captured which are consistent with
experimental results. Variation in store trajectory has been evaluated with different combinations of forward
and rearward ejection forces. By increasing the magnitude of forward ejection force vertical displacement
increases and store separates more safely from the wing. Moreover, effects of varying parent wing
configuration on store trajectory has also been analyzed by incorporation of leading-edge flaps (LEFs). Store
always separates in nose down condition due to LEFs which increases vertical displacement of store and thus
safety related to store separation is enhanced.
Keywords
Leading edge flap , CFD analysis , Ejection forces , Coupling of flow solver , Trajectory simulation , Six degree of freedom , Store separation
Journal title
Astroparticle Physics
Serial Year
2018
Record number
2468136
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