Jesús Pueblas scite author profile

An implicit harmonic balance (HB) method for modeling the unsteady nonlinear periodic flow about vibrating airfoils in turbomachinery is presented. An implicit edge-based three-dimensional Reynolds-averaged Navier–Stokes equations (RANS) solver for unstructured grids, which runs both on central processing units (CPUs) and graphics processing units (GPUs), is used. The HB method performs a spectral discretization of the time derivatives and marches in pseudotime, a new system of equations where the unknowns are the variables at different time samples. The application of the method to vibrating airfoils is discussed. It is shown that a time-spectral scheme may achieve the same temporal accuracy at a much lower computational cost than a backward finite-difference method at the expense of using more memory. The performance of the implicit solver has been assessed with several application examples. A speed-up factor of 10 is obtained between the spectral and finite-difference version of the code, whereas an additional speed-up factor of 10 is obtained when the code is ported to GPUs, totalizing a speed factor of 100. The performance of the solver in GPUs has been assessed using the tenth standard aeroelastic configuration and a transonic compressor.

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Computation of Turbomachinery Flows with a Parallel Unstructured Mesh Navier-Stokes equations Solver on GPUs

Gisbert

Corral

Pueblas

2013

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Selection of Implicit CFD Techniques for Unstructured Grids and Turbomachinery Applications

Pueblas

Corral

Gisbert

2013

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Validation of a Coupled Fluid/Solid Heat Transfer Method

Chaquet

Corral

Pastor

et al. 2011

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A coupled method for solid/fluid steady heat transfer calculations is presented. The results of the fully coupled and uncoupled simulations are compared with the experimental data obtained for the front and rear stator well of a turbine. Several cooling mass flow rates have been considered. The uncoupled methodology is described as well and the accuracy of the results for both approaches is discussed. It is concluded that even if the uncoupled approach it is conducted carefully, the coupled method is more accurate since it removes some hypotheses inherent to the uncoupled approach.

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Jesús Pueblas

Execution of a parallel edge-based Navier–Stokes solver on commodity graphics processor units

An Implicit Harmonic Balance Method in Graphics Processing Units for Oscillating Blades

Computation of Turbomachinery Flows with a Parallel Unstructured Mesh Navier-Stokes equations Solver on GPUs

Selection of Implicit CFD Techniques for Unstructured Grids and Turbomachinery Applications

Validation of a Coupled Fluid/Solid Heat Transfer Method

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