Title :
3D CFD modeling of air flow through a porous fence
Author :
Yizhong Xu ; Mustafa, Mohamad Y. ; Knight, Joseph ; Virk, Muhammad ; Haritos, George
Author_Institution :
Atmos. Icing Res. Team, Narvik Univ. Coll., Narvik, Norway
Abstract :
Numerical simulation has played an important role in systematic study on the performance of porous fences over the last three decades. In this paper, a 3D CFD model to simulate air flow through a porous fence is presented. The simulated velocity data has been tested against experimental data acquired in wind tunnel experiments under the same conditions. Good agreement has been observed between the numerical and the experimental results within the fence effective zone, demonstrating that the 3D CFD model presented in the paper is generally sound and can be used to systematically assess the performance of porous fences. It is the first step to create a CogInfocom channel through which a numerical system (CFD) has communicated with a natural cognitive system (prototype and physical experimental system), in a way that improves human cognitive abilities to comprehend air flow through porous fences.
Keywords :
cognitive systems; computational fluid dynamics; flow simulation; flow through porous media; mechanical engineering computing; numerical analysis; wind tunnels; 3D CFD modeling; CogInfocom channel; air flow through a porous fence simulation; fence effective zone; human cognitive abilities; natural cognitive system; numerical simulation; physical experimental system; wind tunnel experiments; Atmospheric modeling; Computational fluid dynamics; Numerical models; Numerical simulation; Solid modeling; Three-dimensional displays; Wind; 3D CFD simulation; CogInfoCom; porous fence; wind tunnel experiment;
Conference_Titel :
Cognitive Infocommunications (CogInfoCom), 2013 IEEE 4th International Conference on
Conference_Location :
Budapest
Print_ISBN :
978-1-4799-1543-9
DOI :
10.1109/CogInfoCom.2013.6719237
