A Computational Fluid Dynamics Study on the Gas Mixing Capabilities of a Multiple Inlet System-Reference-Cited by-同舟云学术

A Computational Fluid Dynamics Study on the Gas Mixing Capabilities of a Multiple Inlet System

Published:2015-10-01 Issue:3 Volume:138 Page:
ISSN:0098-2202
Container-title:Journal of Fluids Engineering
language:en
Short-container-title:

Author:

Lindner Gert¹,Schmelter Sonja¹,Model Regine¹,Nowak Andreas²,Ebert Volker³,Bär Markus¹

Affiliation:

1. Mathematical Modeling and Data Analysis, Physikalisch-Technische Bundesanstalt (PTB), Abbestr. 2-12, Berlin 10587, Germany e-mail:

2. Analytics and Thermodynamic State Behaviour of Gases, Physikalisch-Technische Bundesanstalt (PTB), Bundesallee 100, Braunschweig 38116, Germany e-mail:

3. Analytics and Thermodynamic State Behaviour of Gases, Physikalisch-Technische Bundesanstalt (PTB), Bundesallee 100, Braunschweig 38116, Germany; Institute for Reactive Flows and Diagnostics, RSM, Technische Universität Darmstadt, Jovanka-Bontschits-Str. 2, Darmstadt 64287, Germany e-mail:

Abstract

The mixing behavior of three gas streams was investigated numerically by computational fluid dynamics (CFD) for 16 different geometries to gain insight for the construction of soot measuring systems. The overall goal was to find the design that leads to the fastest mixing of all incoming gas components for a given pipe length by numerical simulations. For this purpose, a main pipe with two symmetrically arranged side inlet pipes was considered, where the angle of inclination of the side pipes and the inflow conditions were varied. Upon the change of the angle of inclination, a transition from a conform to a counter flow is observed. As a variant of the simulation setup, the junction of the three pipes was enclosed by a spherical mixing chamber. The dependency on the angle is much less pronounced in the presence of the additional spherical chamber, which, however, in most cases results in a slower mixing of the gas streams. We found, in general, that the required pipe length to reach a sufficiently homogeneous gas mixture decreases with increasing inclination angles exhibiting the best performance at obtuse angles.

Publisher

ASME International

Subject

Mechanical Engineering

Link

http://asmedigitalcollection.asme.org/fluidsengineering/article-pdf/doi/10.1115/1.4031380/6196770/fe_138_03_031302.pdf

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