/NASSLARD2D

NASSLARD2D is a computational model for the simulation of laminar flows over complex boundaries using a ghost-cell immersed boundary method

Primary LanguageFortranGNU General Public License v3.0GPL-3.0

NASSLARD2D

This repository provides the NASSLARD2D solver.

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Features

A ghost-cell immersed boundary method is used for the numerical simulation of laminar flows interacting with a stationary solid boundary. The numerical method employs a second order accurate two-step projection algorithm to solve Navier-Stokes equations on a staggered grid system. The laminar flow over a stationary circular cylinder is simulated to demonstrate the accuracy of the present numerical method, and the results are compared with previous numerical and analytical results for different Reynolds numbers. The comparisons show that the present immersed boundary method and the computer code can accurately simulate the flow over rigid bodies with complex geometries.

How to Cite

The NASSLARD2D solver should be referenced using the following conference papers and journal articles:

  1. Demirel E. and Aydin İ. (2009). "Global volume conservation in unsteady free surface flows with energy absorbing far end boundaries." International Journal for Numerical Methods in Fluids: 698-708.

  2. Demirel E and Aydin İ. Hydrodynamic response of dam reservoir system to sinusoidal ground oscillations. 9th International Congress on Advances in Civil Engineering, September 2009.

  3. Demirel E and Aydin İ. Simulation of nonlinear free surface waves with non-reflecting outflow boundary. 8th International Congress On Advances In Civil Engineering, September 2009.

  4. Aydin İ. and Demirel E. (2012). "Hydrodynamic Modeling of Dam Reservoir Response during Earthquakes." Journal of Engineering Mechanics (ASCE): 164-174.

  5. Demirel E. Hydrodynamic Analysis of Earthquake Excited Dam Reservoirs with Sloping Face. Proceedings of the World Congress on Engineering and Computer Science 2012 Vol II WCECS 2012

  6. Demirel E. (2015). "Numerical simulation of earthquake excited dam reservoirs with irregular geometries using an immersed boundary method." Soil Dynamics and Earthquake Engineering: 80-90.

  7. Demirel E. Numerical Simulation of Flow over Complex Boundaries Using a Ghost Cell Immersed Boundary Method. International Conference on Civil and Environmental Engineering, May 2015.

  8. Demirel E. and Aydin İ. (2016). "Numerical Simulation and Formulation of Wave Run Up on Dam Face due to Ground Oscillations Using Major Earthquake Acceleration Records." Journal of Engineering Mechanics (ASCE): 142-148.

Developers

Ender Demirel, PhD