Hello there,
I'm looking to create an accurate pressure washer spray or as accurate as possible. I've modeled out the pressure washer, I just need the water coming out to look like a pressure washer spray instead of a garden hose.
Hi,
You can try using a motion field to give some extra velocity to the liquid as it leaves the nozzle -- see Control velocity with Bifröst motion fields. For this situation, I'd set the shape to cylinder, then scale and position it to cover the nozzle and parent it. Turn off Direction and use Along Axis instead.
Remember that scene scale plays a big role in how the simulation works -- read more about that in Bifröst simulations and scene scale.
Also with very high velocities, you'll probably need to increase the time steps in the bifrostLiquidProperties to get a smooth result. You should try to use as few as you can get away with or else the simulation time will be unnecessarily long, but in this situation I expect they'll need to be fairly high.
I hope that helps,
gray
Hi @flueret,
Some tips for this type of effect: High pressure / velocity sprays are very difficult to simulate well with a FLIP method. This is due to the high amount of detail and velocity involved. It’s not that it can’t be done with a FLIP solver, it’s that the amount of resolution and substeps you’ll need to resolve this well is very high. Instead, I would suggest doing this with a “dumb” particle solve and add in forces to break up your particles. There’s two main forces that you’ll want to replicate: air resistance and water cohesion.
Air resistance is what you’ll want to break up the spray and add turbulence. I would recommend using an aero simulation that emits from the particles. You can then advect more particles into that to make mist.
For cohesion, this is more of a look thing than a sim thing. Basically, you want your particles in the main spray to clump a bit. You can do this by adding a self attraction force, or you can just vary emission so they look clumped. Mesh them so that the close by particles clump into droplets.
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