This invention relates to the design of optimal shapes of airfoils, such as turbine blades, operating in subsonic flow regimes. An airfoil, such as a propeller blade or a turbine vane or blade (collectively referred to herein as an “airfoil”), may be used in a variety of environments, including different ambient temperatures, gas densities, gas compositions, gas flow rates, pressures, and motor rotational speeds. An airfoil shape that is optimized for one environment may have sharply limited application in another environment. This invention is robust enough to provide designs of airfoils that operate satisfactorily in any class of environments and with any reasonable differences from manufacturing specifications, and that satisfy the constraints imposed on the design.

The internal rotor of a steam turbine.
The invention provides a method, and a product produced by the method, for determining a robust, optimal subsonic airfoil shape, beginning with an arbitrary initial airfoil shape and imposing the necessary constraints on the design. In one embodiment, the method implements the following steps or processes: (1) provides a specification of a desired pressure value at each of a sequence of selected locations on a perimeter of a turbine airfoil; (2) provides an initial airfoil shape; (3) provides a statement of at least one constraint that a final airfoil shape must conform to; (4) uses computational fluid dynamics (CFD) to estimate a pressure value at each of the selected perimeter locations for the initial airfoil shape; (5) uses CFD to determine the pressure distribution for airfoil shapes that are small perturbations to the initial airfoil shape; (6) uses an estimation method, such as a neural network, a support vector machine, or a combination thereof to construct a response surface that models the pressure distribution that is closer to the specified target pressure distribution; (7) uses an optimization algorithm to search the response surface for the airfoil shape having a corresponding pressure distribution; and (8) provides at least one of an alphanumeric description and a graphical description of the modified airfoil shape.

This work was done by Man Mohan Rai of Ames Research Center. NASA invites companies to inquire about partnering opportunities and licensing this patented technology. Contact the Ames Technology Partnerships Office at 1-855-627-2249 or This email address is being protected from spambots. You need JavaScript enabled to view it.. Refer to ARC-14586-1.