Prodyot K. Basu scite author profile

A numerical model of the lattice Boltzmann method ͑LBM͒ utilizing least-squares finite-element method in space and the Crank-Nicolson method in time is developed. This method is able to solve fluid flow in domains that contain complex or irregular geometric boundaries by using the flexibility and numerical stability of a finite-element method, while employing accurate least-squares optimization. Fourth-order accuracy in space and second-order accuracy in time are derived for a pure advection equation on a uniform mesh; while high stability is implied from a von Neumann linearized stability analysis. Implemented on unstructured mesh through an innovative element-by-element approach, the proposed method requires fewer grid points and less memory compared to traditional LBM. Accurate numerical results are presented through two-dimensional incompressible Poiseuille flow, Couette flow, and flow past a circular cylinder. Finally, the proposed method is applied to estimate the permeability of a randomly generated porous media, which further demonstrates its inherent geometric flexibility.

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Accurate finite element modeling of pretensioned prestressed concrete beams

Yapar

Basu

Nordendale

2015

Engineering Structures

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Prodyot K. Basu

Automobile body reinforcement by finite element optimization

Least-squares finite-element lattice Boltzmann method

Stochastic modeling of the permeability of randomly generated porous media

Least-squares finite-element scheme for the lattice Boltzmann method on an unstructured mesh

Accurate finite element modeling of pretensioned prestressed concrete beams

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