A realizable second-order advection method with variable flux limiters for moment transport equations

TL;DR

This paper introduces a second-order TVD advection method with variable flux limiters that ensures the realizability of moments in transport equations, overcoming key limitations of traditional schemes.

Contribution

It proposes a novel flux limiter scheme that maintains realizability and second-order TVD properties for higher-order moments in moment transport equations.

Findings

Preserves realizability of moments in 1D and 2D simulations.

Achieves high-order TVD property for third-order moments.

Conditionally extends to fourth- and fifth-order moments.

Abstract

A second-order total variation diminishing (TVD) method with variable flux limiters is proposed to overcome the non-realizability issue, which has been one of major obstacles in applying the conventional second-order TVD schemes to the moment transport equations. In the present method, a realizable moment set at a cell face is reconstructed by allowing the flexible selection of the flux limiter values within the second-order TVD region. Necessary conditions for the variable flux limiter scheme to simultaneously satisfy the realizability and the second-order TVD property for the third-order moment set are proposed. The strategy for satisfying the second-order TVD property is conditionally extended to the fourth- and fifth-order moments. The proposed method is verified and compared with other high-order realizable schemes in one- and two-dimensional configurations, and is found to preserve the realizability of moments while satisfying the high-order TVD property for the third-order moment set and conditionally for the fourth- and fifth-order moments.