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 …

An existing two‐dimensional method for the prediction of steady‐state incompressible flows
in complex geometry is extended to treat also compressible flows at all speeds. The primary …

A general numerical method for the solution of complete Reynolds-averaged Navier-Stokes
equations for three-dimensional flows is described. The method uses nonorthogonal body …

The scope of the present study is to try to determine a comprehensive heat transfer
formulation, which would be able to predict adequately the heat transfer mechanism on a …

Transport processes are often characterized by the simultaneous presence of multiple
dependent variables, multiple length scales, body forces, free boundaries and strong non …

Three-dimensional and recirculating flows of direct industrial relevance and realistic
geometry are now well within the scope of CFD capabilities. However, none of the …

Modern wind farms are subjected to significant aerodynamic interference due to unsteady
wakes of individual turbines as well as the complex terrains on which they are erected. The …

A theoretical investigation is conducted to examine the way the crevice regions affect the
mean cylinder pressure, the in-cylinder temperature, and the velocity field of internal …

The present work investigates the effect of varying the combustion chamber geometry and
engine rotational speed on the gas flow and temperature field, using a new quasi …

Gas hydrates in pipelines is still a flow assurance problem in the oil and gas industry and
requires a proactive hydrate plugging risk predicting model. As an active area of research …