Title of article :
Application of the ball-spine algorithm to design an axial-flow comprssor blade
Author/Authors :
Madadi، Ali نويسنده he is a PhD degree candidate of Mechanical Engineering at Amirkabir University of Technology, , , Kermani، Mohammad Jafar نويسنده he is Associate Professor in Amirkabir University of Technology , , Nili-Ahmadabadi، Mahdi نويسنده he is Assistant Professor and faculty member of the Mechanical Engineering Department of the Isfahan University of Technology, ,
Issue Information :
دوماهنامه با شماره پیاپی 0 سال 2014
Abstract :
In this paper, a novel inverse design algorithm, called a ball spine algorithm,
is developed to design the blade to blade
ow passage of axial-
ow compressors. The
algorithm considers the blade surfaces as a set of virtual balls that move freely along
the speci�ed directions, called ʹspinesʹ. To start the solution, an initial guess for the
blade geometry is required. Then, the blade-to-blade
ow �eld is solved using an inhouse
inviscid solver. Comparing the Computed Pressure Distribution (CPD) with the
Target Pressure Distribution (TPD) over the blade surfaces gives guidelines in di�erential
movements for the balls to obtain a modi�ed geometry. For the modi�ed geometry, new
grids are automatically generated by an algebraic-elliptic grid-generator. The sequence
is repeated until the target pressure is met. An error parameter, �PD, indicating the
di�erence between CPD and TPD along the suction and pressure surfaces, is computed,
while the blade geometry evolves toward the target geometry. For the initial guess, �PD
is obtained as 13700 Pa, while, after 100 generations, �PD is reduced to 222 Pa.
Journal title :
Scientia Iranica(Transactions B:Mechanical Engineering)
Journal title :
Scientia Iranica(Transactions B:Mechanical Engineering)
