Open AccessEfficient viscous design of realistic aircraft configurations
Author(s) -
Richard L. Campbell
Publication year - 1998
Publication title -
46th aiaa fluid dynamics conference
Language(s) - English
Resource type - Conference proceedings
DOI - 10.2514/6.1998-2539
Subject(s) - software portability , computer science , solver , computational fluid dynamics , process (computing) , iterative design , engineering design process , design process , engineering drawing , computational science , mechanical engineering , work in process , mathematical optimization , programming language , aerospace engineering , engineering , mathematics , operations management , scheduling (production processes)
This paper addresses the use of the Constrained Direct Iterative Surface Curvature (CDISC) design method in the aircraft design process. A discussion of some of the requirements for practical use of CFD in the design process is followed by a description of different CFD design methods, along with their relative strengths and weaknesses. A detailed description of the CDISC design method highlights some of the aspects of the method that provide computational efficiency and portability, as well as the flow and geometry constraint capabilities. In addition, an efficient approach to multipoint design, the Weighted Averaging of Geometries (WAG) method, is described and illustrated using a couple of simple examples. The CDISC and WAG methods are then applied to a complex generic business jet geometry using an unstructured grid flow solver to demonstrate the multipoint and multicomponent design capabilities of these methods. Introduction
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