Methods to eliminate vortex formation
Answers
The only surefire way to ensure that the vortex does not form is to ensure there is no vorticity in the tank to begin with. If there is no initial vorticity, there are no vortex lines to stretch. In reality, this means you would have to have the tank sit, perfectly still, until all of the rotation disappears. This could take days, maybe longer, maybe not even possible if the environment isn't exactly consistent (ie. the temperature changes, or there's vibrations or an earthquake or something).
If the liquid is incompressible, a good assumption for oils or water, it may be possible for viscous effects to balance the production of vorticity due to stretching and prevent the vortex from forming. The vorticity transport equation for an incompressible fluid is:
Dω⃗ Dt=(ω⃗ ⋅∇)u⃗ +ν∇2ω⃗
The first term on the RHS is the vortex stretching term and the second is the dissipation of vorticity by viscous forces. If you don't want a vortex to form, you would need |ν∇2ω⃗ |≥|(ω⃗ ⋅∇)u⃗ |. You likely don't have much control over the viscosity -- your fluid is what it is, and you may not be able to change from water to oil or something. But, you can attempt to control the stretching term through careful design of the drain diameter, shape, etc..
How to actually complete such a design is beyond the scope of what we can do on this site. But given known conditions of your fluid, it should be possible to design a drain that does not produce large enough stretching terms such that viscosity will kill out any vortex that forms. Whether that design will be good for your purposes or not will depend on what you need to do.
The vortex forms due to a process called vortex stretching. Essentially as soon as the plug is pulled and the tank begins draining, a vortex forms at the center of the drain where the length of the vortex line is increased, which in turn increases the rotation rate and the familiar tornado shape forms.
The only surefire way to ensure that the vortex does not form is to ensure there is no vorticity in the tank to begin with. If there is no initial vorticity, there are no vortex lines to stretch. In reality, this means you would have to have the tank sit, perfectly still, until all of the rotation disappears. This could take days, maybe longer, maybe not even possible if the environment isn't exactly consistent (ie. the temperature changes, or there's vibrations or an earthquake or something).
If the liquid is incompressible, a good assumption for oils or water, it may be possible for viscous effects to balance the production of vorticity due to stretching and prevent the vortex from forming. The vorticity transport equation for an incompressible fluid is:
Dω⃗ Dt=(ω⃗ ⋅∇)u⃗ +ν∇2ω⃗
The first term on the RHS is the vortex stretching term and the second is the dissipation of vorticity by viscous forces. If you don't want a vortex to form, you would need |ν∇2ω⃗ |≥|(ω⃗ ⋅∇)u⃗ |. You likely don't have much control over the viscosity -- your fluid is what it is, and you may not be able to change from water to oil or something. But, you can attempt to control the stretching term through careful design of the drain diameter, shape, etc..
How to actually complete such a design is beyond the scope of what we can do on this site. But given known conditions of your fluid, it should be possible to design a drain that does not produce large enough stretching terms such that viscosity will kill out any vortex that forms. Whether that design will be good for your purposes or not will depend on what you need to do.