Add to ORKGRecently a new inverse design algorithm has been developed for the design of ducts, called ball-spine (BS). In the BS algorithm, the duct walls are considered as a set of virtual balls that can freely move along some specified directions, called ‘spines’. Initial geometry is guessed and the flow field is analyzed by a flow solver. Comparing the computed pressure distribution (CPD) with the target pressure distribution (TPD), new balls positions for the modified geometry are determined. This procedure is repeated until the target pressure is achieved. In the present work, the ball-spine algorithm is applied to three-dimensional design of axial compressor blades. The design procedure is tested on blades based on NACA65-410 and NACA65-610 prof...
MasterModern industrial axial compressor requires high performance for cost saving. The internal flo...
The basic tool set to design multi-stage axial compressors consists of fast codes for throughflow an...
A novel parametric control method for the compressor blade, the full-blade surface parametric method...
The blade geometry design method is an important tool to design high performance axial compressors, ...
This paper presents a new design and analysis tool that is developed to be employed during the desig...
Compressor and turbine blade design involves thermodynamical, aerodynamical and mechanical aspects, ...
An inverse method for turbomachinery blade design is presented along with the three-dimensional turb...
Direct design optimisation methods for turbomachinery blades have consistently gained in popularity ...
Current turbomachinery design systems increasingly rely on multistage Computational Fluid Dynamics (...
An aerodynamic inverse shape design of turbomachinery blading in three-dimensional viscous flow is d...
In deriving automatic numerical optimization algorithms for aerodynamic applications, it is quite im...
A short overview of the main techniques for turbomachinery blade design based on CFD is followed by ...
Numerical calculation methods are used increasingly in high-load compressor engineering to develop l...
An optimization procedure, based on a method for solving inverse problems for the design of whole mu...
Automated design methods are emerging as a powerful tool for the fluid-dynamic design of turbomachin...
MasterModern industrial axial compressor requires high performance for cost saving. The internal flo...
The basic tool set to design multi-stage axial compressors consists of fast codes for throughflow an...
A novel parametric control method for the compressor blade, the full-blade surface parametric method...
The blade geometry design method is an important tool to design high performance axial compressors, ...
This paper presents a new design and analysis tool that is developed to be employed during the desig...
Compressor and turbine blade design involves thermodynamical, aerodynamical and mechanical aspects, ...
An inverse method for turbomachinery blade design is presented along with the three-dimensional turb...
Direct design optimisation methods for turbomachinery blades have consistently gained in popularity ...
Current turbomachinery design systems increasingly rely on multistage Computational Fluid Dynamics (...
An aerodynamic inverse shape design of turbomachinery blading in three-dimensional viscous flow is d...
In deriving automatic numerical optimization algorithms for aerodynamic applications, it is quite im...
A short overview of the main techniques for turbomachinery blade design based on CFD is followed by ...
Numerical calculation methods are used increasingly in high-load compressor engineering to develop l...
An optimization procedure, based on a method for solving inverse problems for the design of whole mu...
Automated design methods are emerging as a powerful tool for the fluid-dynamic design of turbomachin...
MasterModern industrial axial compressor requires high performance for cost saving. The internal flo...
The basic tool set to design multi-stage axial compressors consists of fast codes for throughflow an...
A novel parametric control method for the compressor blade, the full-blade surface parametric method...