Decaying Homogeneous Isotropic Turbulence - 2D
In this example we consider decaying homogeneous isotropic turbulence, similar to the cases considered in [1] and [2]. The initial velocity field is created randomly, but with a specific energy spectrum. Due to viscous dissipation, the turbulent features eventually group to form larger visible eddies.
Packages
We just need IncompressibleNavierStokes and a Makie plotting backend.
julia
using CairoMakie
using IncompressibleNavierStokes
Setup
julia
n = 256
ax = LinRange(0.0, 1.0, n + 1)
setup = Setup(; x = (ax, ax), Re = 4e3);
ustart = random_field(setup, 0.0);
Solve unsteady problem
julia
state, outputs = solve_unsteady(;
setup,
ustart,
tlims = (0.0, 1.0),
processors = (
rtp = realtimeplotter(; setup, nupdate = 10),
ehist = realtimeplotter(;
setup,
plot = energy_history_plot,
nupdate = 10,
displayfig = false,
),
espec = realtimeplotter(;
setup,
plot = energy_spectrum_plot,
nupdate = 10,
displayfig = false,
),
log = timelogger(; nupdate = 100),
),
);
[ Info: t = 0.102932 Δt = 0.0011 umax = 3.2 itertime = 0.025
[ Info: t = 0.211985 Δt = 0.0011 umax = 3.3 itertime = 0.015
[ Info: t = 0.328719 Δt = 0.0012 umax = 2.8 itertime = 0.014
[ Info: t = 0.451139 Δt = 0.0013 umax = 2.8 itertime = 0.015
[ Info: t = 0.579938 Δt = 0.0014 umax = 2.5 itertime = 0.014
[ Info: t = 0.711602 Δt = 0.0012 umax = 3 itertime = 0.014
[ Info: t = 0.837342 Δt = 0.0014 umax = 2.6 itertime = 0.014
[ Info: t = 0.982979 Δt = 0.0015 umax = 2.4 itertime = 0.015
Post-process
We may visualize or export the computed fields
Energy history
julia
outputs.ehist
Energy spectrum
julia
outputs.espec
Plot field
julia
fieldplot(state; setup)
Copy-pasteable code
Below is the full code for this example stripped of comments and output.
julia
using GLMakie
using IncompressibleNavierStokes
n = 256
ax = LinRange(0.0, 1.0, n + 1)
setup = Setup(; x = (ax, ax), Re = 4e3);
ustart = random_field(setup, 0.0);
state, outputs = solve_unsteady(;
setup,
ustart,
tlims = (0.0, 1.0),
processors = (
rtp = realtimeplotter(; setup, nupdate = 10),
ehist = realtimeplotter(;
setup,
plot = energy_history_plot,
nupdate = 10,
displayfig = false,
),
espec = realtimeplotter(;
setup,
plot = energy_spectrum_plot,
nupdate = 10,
displayfig = false,
),
log = timelogger(; nupdate = 100),
),
);
outputs.ehist
outputs.espec
fieldplot(state; setup)
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