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Fractals! (sort of :-)
TheMrBlinx 11 months ago
watch it
mrnil555 1 year ago
Nice vid, but in reality, bulletes aren't that no-moving stuff. They do quite a sophisticated movement.
keresztul 2 years ago
This comment has received too many negative votes show
this fake..
whotookmynickkokokai 2 years ago
HI,
would you please inform me what method did you use in your simulation. and what is the spacial and temporal order of accuracy.
regards
havayetaze 3 years ago
great vid
im bored on cam p7
ITAPEVI 3 years ago
I thnk due to the finiteness of the top and bottom boundaries, the shockwave is deflected downwards thus giving rise to vortices...am i right?
bhushi14 3 years ago
are u using a farfield boundary condition?
bhushi14 3 years ago
cause of SWBLI.. look it up!!!
kiscky 3 years ago
Gharalam says he has not studied supersonic flow yet, and you answer him telling that "it's because of the SWBLI". He got you, be sure.
kiscky means Shock wave - boundary layer interaction.
cheers
Ness1986 3 years ago 3
Reeally nice, I should have used that solver when I tried to simulate the apollo reentry capsule instead of RK K-epsilon solver...took eterenity to get the solution to converge...
Jeffie433 4 years ago
somebody has something about with biological cells?
catofo 4 years ago
The initial shockwave is non linear. Pipe or no pipe, there's a fly in the ointment.
medfexer 4 years ago
The bowshock is not supposed to be linear; the bullet is blunt-nosed, not pointed.
michaelpowen 4 years ago 3
This is an amazing case of wave interaction!!!!!
You can call me freaky, but i´m watching it many times, this vid is REALLY instructive and contains a lot of concepts, so it neets to be viewed again and again and again...
PrandtlGlawert 4 years ago
great .. and can somebody explain about the eddies. around
sriramvelumani 4 years ago
is this some comercial code or your own code.If its ur work hats off man,well otherwise too!!
instirahul 4 years ago
Very nice simulation! Can you share some more details abouthe solver, the mesh and the boundary conditions, please. Thanks!
AliquidDignum 4 years ago
The mesh is straight cartesian, if I recall correctly (this simulation was made about 4 years ago). The solver is PPM-LR, piecewise-parabolic method (Collela & Woodward), with a Lagrangian remap. I honestly can't recall if this particular run was adiabatic or isothermal. The boundary conditions are simple reflection symmetry, even for the solid object.
michaelpowen 4 years ago
The movie looks very good. The vortex shedding in the wake was captured very well.
tarazkazakh 4 years ago
I'm freaking out
whateverittakesjohn 5 years ago