Science spotlights: Difference between revisions
From CSDMS
m (Created page with "= Science spotlights = ==TURBINS: Simulation of Gravity and Turbidity Currents==") |
|||
| Line 1: | Line 1: | ||
= Science spotlights = | = Science spotlights = | ||
__TOC__ | |||
==TURBINS: Simulation of Gravity and Turbidity Currents== | ==TURBINS: Simulation of Gravity and Turbidity Currents== | ||
{|cellspacing="0" cellpadding="2" align="left" style="color:white" width="310" | |||
|bgcolor="gray"|[[image:Nasr_Azadani_and_Meiburg.png|300px|center|link=Science spotlights]] | |||
|- | |||
|bgcolor="gray" align="left"| Comparison of the gravity current concentration fields (white corresponds to c=0 and black to c=1) in a sloping channel with ''θ'' = 15° and ''Re<sub>H</sub>'' = 750, obtained via two different numerical approaches. a): present immersed boundary approach, b): coordinates aligned with containter walls (Birman et al. (2007)). Good agreement is observed even for the small scales of the concentration field. The darker region is the maximum concentration. | |||
|} | |||
Revision as of 10:59, 9 November 2010
Science spotlights
TURBINS: Simulation of Gravity and Turbidity Currents
 |
| Comparison of the gravity current concentration fields (white corresponds to c=0 and black to c=1) in a sloping channel with θ = 15° and ReH = 750, obtained via two different numerical approaches. a): present immersed boundary approach, b): coordinates aligned with containter walls (Birman et al. (2007)). Good agreement is observed even for the small scales of the concentration field. The darker region is the maximum concentration. |
