Directory UMM :Data Elmu:jurnal:A:Advances In Water Resources:Vol23.Issue6.2000:
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The GEM has been developed as a ¯exible, hybrid numerical approach, that utilizes the ®nite element methodology to achieve optimum, inter-nodal connectivity in the problem domain,
We develop a discontinuous ®nite element method for advection±diusion equations arising in contaminant transport problems, based on the Local Discontinuous Galerkin (LDG) method
Referring to the governing equations for the porous ¯ow, (3)±(5), the major dierences between the present dynamic model and previous quasi-static model are the pore ¯uid and
Large eddy simulations of turbulent ¯ow and transport in the atmospheric boundary layer were conducted over heterogeneous sources of heat and water vapor to identify the
For fBm media, this size dependence can be explained using an eective variance that increases with increasing size of the ¯ow system.. However, the magnitudes of the
When applying the technique, the principal time scale is de®ned to be twice the scale in the time-scale half plane where the dierence between the normalized (i.e. sum of the
The method is based on partitioning of the R±G dierence variance into the er- ror of the radar grid-averaged estimate, and the area- point background originating from the
Nitroglycerine is a nitric oxide donor that acts directly on vascular smooth muscle to elicit vasodilation. The vasodilation will cause a decrease in total peripheral resistance,
