Modeling and Optimization of Flow Distribution in Multistage Pipe Distributors

This study aims to develop an accurate and easy-to-use model for design and optimization of these distributors, integrating the advantages of analytical models and CFD simulation. For analytical models, the empirical correlations of pressure recovery coefficient and discharge coefficient were systematically evaluated. CFD simulations of single-stage distributors reveal the mechanisms behind flow maldistribution, i.e., the relationship between vortex evolution at branch corner and discharge coefficient. A three-phase characteristic for discharge coefficient along flow direction is found with increasing the ratio of branch length to diameter. A generalized discharge coefficient was then proposed to represent an intrinsic approach to optimize flow uniformity. Finally, the analytical model was extended to multistage distributors by a double-convergence solution strategy, and provides guidelines of design and optimization of these complex distributors for process industry.This article is protected by copyright. All rights reserved.
Source: AIChE Journal - Category: Science Authors: Tags: TRANSPORT PHENOMENA AND FLUID MECHANICS Source Type: research
More News: Science | Study