In the present study the geometric flexibility and the ability to compute realistic qualitative results in simulating viscous, incompressible flows with immersed boundaries has been demonstrated. The method is tested by computing a flow over a surface-mounted fence in a fully developed planar channel flow at low Reynolds number. Under these circumstances, good agreement between experimental and numerical results is obtained. The eventual aim of this work is to study the transition of a confined, laminar flame, interacting with an obstacle, to a turbulent deflagration.

Numerical Simulations of a Channel Flow with 2D Wall-Mounted Obstacles

F S Marra;
2000

Abstract

In the present study the geometric flexibility and the ability to compute realistic qualitative results in simulating viscous, incompressible flows with immersed boundaries has been demonstrated. The method is tested by computing a flow over a surface-mounted fence in a fully developed planar channel flow at low Reynolds number. Under these circumstances, good agreement between experimental and numerical results is obtained. The eventual aim of this work is to study the transition of a confined, laminar flame, interacting with an obstacle, to a turbulent deflagration.
2000
Istituto di Ricerche sulla Combustione - IRC - Sede Napoli
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/212951
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