Adjoint Optimization of Volumetric Sources in Steady, Supersonic Flow: Energy Addition Conference Paper

abstract

• Adjoint optimization methods have proven successful for the control of turbulence and boundary layers and in the design of airfoils and aircraft. In this paper, the adjoint equations are extended to the problem of controlling steady, inviscid, supersonic flow with volumetric source terms in the Euler equations, that is, mass, momentum, and energy addition. The adjoint solutions are shown to indicate both the optimal location for the source placement and cost gradient. In the particular case of drag reduction by energy deposition, the gradient is proportional to energy efficiency and becomes a key factor in optimization. The general form of the problem makes these results applicable to all forms of volumetric control with the goals of drag reduction, lift enhancement, and the generation of pitching moments. Copyright 2013 by Princeton University.

authors

• Limbach, Christopher
• Miles, Richard

published proceedings

• AIAA JOURNAL

author list (cited authors)

• Limbach, C. M., Martinelli, L., & Miles, R. B.

citation count

• 1

complete list of authors

• Limbach, Christopher M||Martinelli, Luigi||Miles, Richard B

publication date

• October 2013

publisher

• American Institute of Aeronautics and Astronautics (AIAA)  Publisher

published in

• AIAA Journal  Journal

keywords

• 40 Engineering
• 4001 Aerospace Engineering
• 4012 Fluid Mechanics And Thermal Engineering
• 7 Affordable And Clean Energy

Digital Object Identifier (DOI)

• 10.2514/1.J052357

start page

• 2465

end page

• 2473

volume

• 51

issue

• 10

URL

• http://dx.doi.org/10.2514/1.j052357

user-defined tag

• 7 Affordable and Clean Energy