Rocky Mountain Simulation
This page describes a numerical simulation of gravity waves over the Rocky
Mountains in Colorado.
Computational Domain
The layout of the of the simulation is shown in the figure below. Note that the computational
domain (thin white line) is rotated at 7o with respect to lines of constant
latitude.
Just the computational domain is shown in the figure below. In this plot, and those that follow the results are shown in the computational frame. The terrain is damped around the domain edges in order to achieve a fixed elevation around the perimeter.
A linear balloon flight path is depicted based on an average wind direction of 250 degrees launched from Grand Junction, Colorado.
Wind and Thermodynamic Profiles
The mean winds and temperature profile are taken from radiosonde data on
February 20th, 2020, from launch site in Grand Junction.
These profiles extend to an altitude of 23.4 km. A
third order interpolating polynomial is then used to smoothly extend the
winds above this altitude using the condition that U=V=0 at the upper
boundary. Plots of various profiles for the balloon
measurements are shown below. Note that each profile is resampled on
the 250m mesh spacing.
Wind Condition
The mean winds near the surface are increased in time. Forcing terms gradually introduce winds near the surface with the objective of achieving the wind profile within a two hour period. A hyperbolic tangent function is used in order to produce gentle acceleration of the wind near the beginning and end of the forcing period. The maximum forcing rate is equivalent to that of a linear ramp with a duration of thirty minutes.