ASSESSMENT OF MAGNETOHYDRODYNAMIC LATTICE BOLTZMANN SCHEMES IN TURBULENCE AND RECTANGULAR JETS Academic Article

abstract

• Two lattice Boltzmann method (LBM) formulations are possible to account for the effect of the magnetic field on the velocity field in magnetohydrodynamic (MHD) flows. In the body-force formulation (BFF), the magnetic field effects manifest as an external acceleration. In the extended equilibrium formulation (EEF), the effect appears through a modified equilibrium distribution function. Further, for the velocity field itself, the available choices are the single-relaxation time (SRT) and multi-relaxation time (MRT) models. Thus, for MHD-LBM, there are four possible permutations: SRT-BFF, SRT-EEF, MRT-BFF and MRT-EEF. Numerical implementation of the first three have already been presented in the literature. In this work, we, (i) develop the numerical implementation of MRT-EEF and (ii) perform an assessment of the four possible approaches. Our results indicate that the MRT-EEF is the most robust and accurate of the MHD-LBM computational schemes examined.

authors

• Girimaji, Sharath
• Richard, Jacques

published proceedings

• International Journal of Modern Physics C

author list (cited authors)

• RILEY, B. M., RICHARD, J. C., & GIRIMAJI, S. S.

citation count

• 9

complete list of authors

• RILEY, BENJAMIN M||RICHARD, JACQUES C||GIRIMAJI, SHARATH S

publication date

• August 2008

publisher

• World Scientific Publishing  Publisher

published in

• International Journal of Modern Physics C: computational physics and physical computation  Journal

keywords

• Bhatnagar–gross–krook (bgk) Collision Operator
• Lorentz Force
• Maxwell Stress Tensor
• Multiple Relaxation Time (mrt)
• Probability Distribution Function (pdf)

Digital Object Identifier (DOI)

• 10.1142/s0129183108012881

start page

• 1211

end page

• 1220

volume

• 19

issue

• 08