Pressure-based finite-volume techniques have emerged as the methods of choice for a wide
variety of industrial applications involving incompressible fluid flow. In this paper, we trace …

Due to the decrease in steam temperature in the low-pressure steam turbine, nucleation
occurs, and liquid droplets form, reducing thermodynamic efficiency and damaging the …

A methodology to quantify the economic risk of a natural gas transmission pipeline system is
developed in this study, and the effect of the line pack is considered. The methodology is …

The thermal performance of a solar passive cooling system (SPCS) under a hot and humid
climate is experimentally and numerically evaluated. The experimental data were obtained …

In the paper we describe in detail a numerical method for the resistive
magnetohydrodynamic (MHD) equations involving viscous flow and report the results of …

This paper describes the development and validation steps of computational sub-models for
gas turbine heat transfer applications, within an open source CFD code based on the Field …

In this study, a low Mach, pressure-based solver is developed for simulation of compressible
two-phase flows. The two-dimensional solver developed on collocated grids in a finite …

Two-dimensional modeling results are presented concerning the subsonic–supersonic flow
and heat transfer within a DC plasma torch used for low-pressure (or soft vacuum) plasma …

Incompressible flow solvers are generally used for numerical analysis of cavitating flows, but
with limitations in handling compressibility effects on vapor phase. To study compressibility …

The large reconstruction stencil is one of the biggest obstacles in design and
implementation of high-order finite volume schemes on unstructured grid. To tackle this …