Turbulent Heat and Momentum Fluxes in the Urban Boundary Layer Derived from a k-epsilon Turbulence Closure ModelTurbulent Heat and Momentum Fluxes in the Urban Boundary Layer Derived from a kepsilon Turbulence Closure Model ( AugDavisurban)
The first step comprises computing for each state “p” of the automaton A its ε-closure. The second step in the method comprises modifying the outgoing transitions of each state “p” by removing those labeled with ε. The method next comprises adding to the set of transitions leaving the...
as auxiliary processor in FPGA designs and ASICs. Due to its high fmaxit can be integrated in most existing designs without crossing clock domains. When operated on a lower frequency, it will have a lot of timing slack and thus can be added to a design without compromising timing closure. ...
In this work we considered a variable density (non-Bousinessq) E-epsilon turbulence closure to describe spray-stratified marine atmospheric boundary layer dynamics under high-wind conditions of a tropical cyclone. In contrast to the lower-order Turbulent Kinetic Energy (TKE) model considered ...
Here we present the first fully coupled climate simulations that include the transport and investigate the timing and oceanic impact of the Central American Seaway shoaling and closure. We show that a narrow strait is sufficient to affect inter-oceanic circulation and leads to a sluggish ocean ...
Here we present the first fully coupled climate simulations that include the transport and investigate the timing and oceanic impact of the Central American Seaway shoaling and closure. We show that a narrow strait is sufficient to affect inter-oceanic circulation and leads to a sluggish ocean ...
Computations using a new nonlinear k-ε model (which alleviates this deficiency) are made with the TEACH program. Comparisons are made between the improved results predicted by this nonlinear k-ε model and those obtained from the linear K-ε model as well as from second-order closure models....
6B.1a A k-epsilon Turbulence Closure Model for Urban Atmospheric Boundary Layer (Formerly paper P6B.1) (2000 - AugAspen_14blt)B.a A kepsilon Turbulence Closure Model for Urban Atmospheric Boundary Layer (Formerly paper PB.) ( AugAspenblt)...
5.8 Turbulent Fluxes of Momentum, Heat and Water Vapor in the Plant Canopy Derived from a k-epsilon Turbulence Closure Model (2000 - AugDavis_24agforest)Turbulent Fluxes of Momentum
The model is used to investigate the influence of various closure assumptions on the turbulent fluxes of momentum, heat and water vapor in and outside of the plant canopy. It is found from simulations that the density stratification and volume of branch and leaves significantly influence transport...