Title of article
Modelling and simulation of the near-wall velocity of a turbulent ceiling attached plane jet after its impingement with the corner
Author/Authors
Guangyu Cao، نويسنده , , Mika Ruponen، نويسنده , , Risto Paavilainen، نويسنده , , Jarek Kurnitski، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2011
Pages
12
From page
489
To page
500
Abstract
At present, ceiling-mounted diffusers are very popular for indoor air distribution, particularly in offices, owing to greater efficiency in the distribution of the air supply and a more comfortable indoor environment. The objective of this study is to construct an effective model to design the indoor airflow of an attached plane jet after its impingement with the corner in a room. In this study, a full-scale test facility was set up to obtain detailed experimental data. One commercial CFD tool, CFX 11.0, was used to simulate the air velocity distribution of an attached plane air jet bounded by the ceiling and an insulated wall. One semi-empirical model was also constructed to predict the impingement jet velocity. The results show that bout the semi-empirical model and CFX 11.0 were able to predict the maximum velocity of an impinging jet at low Reynolds numbers, 1000 and 2000, with an inaccuracy of ±11%. However, the semi-empirical model could be more conveniently used to predict the maximum jet velocity decay after its impingement the corner in a room than CFD simulation in terms of accuracy and the time required to design the indoor airflow pattern.
Keywords
Attached plane jet , Air distribution , CFD , Jet impingement , Maximum jet velocity
Journal title
Building and Environment
Serial Year
2011
Journal title
Building and Environment
Record number
1218105
Link To Document