Cool this is exactly the kind of info I was hoping for. Since I'm still playing with a shop vac as my vacuum source I'm thinking I can make the interior of my "top hat" just a little bigger than the 2.5" hose that I'm using. Using a standard garbage can I ought to have a very nice outer diameter and the relatively thin top hat chamber ought to keep the swirl spinning nicely. I'm also going to experiment with using a subtle spiral as my interior wall in an attempt to make the air flow as uniform as possible with the new air being brought in through the inlet. The idea is to introduce the new air into a stream of "cyclone" air such that they meld at the point where the two streams would be parallel.
Does anyone have any opinions about the slot portion of the design? In the original design the bottom baffle was made out of 1/8" hardboard. I assumed that was because a thin baffle allowed cleaner airflow into the bottom of the chamber while the baffle itself kept most of the material in the bottom chamber after it had passed through the slot. I would assume a thicker board would cause more turbulence in the airflow. But wouldn't it also help to isolate the aircurrents to above the baffle? Taking the concept to the extreme, what would happen if I had a really thick baffle (like 12" thick)?
Which leads to another question...
I can see how we would want air flow as smooth as possible in the upper portion to keep particles thrown to the outside edges until they get a chance to fall, but what about the bottom portion below the baffle? Wouldn't it be a good idea to try and slow down/disturb the airflow below the baffle to give paticles a chance to fall out of the stream? I'm thinking of an inverted cone so as you fall deeper the diameter is larger so the velocity is smaller so more particles fall out of the stream, or an angled guard that diverts air below the baffle away from the drop slot making it harder for air to recirculated back in to the incoming stream from below the baffle, or even just some vertical bars installed below the baffle to with the intent of to trying to disrupt and cancel air currents below the baffle.
Thanks for the advice and the great idea.
Does anyone have any opinions about the slot portion of the design? In the original design the bottom baffle was made out of 1/8" hardboard. I assumed that was because a thin baffle allowed cleaner airflow into the bottom of the chamber while the baffle itself kept most of the material in the bottom chamber after it had passed through the slot. I would assume a thicker board would cause more turbulence in the airflow. But wouldn't it also help to isolate the aircurrents to above the baffle? Taking the concept to the extreme, what would happen if I had a really thick baffle (like 12" thick)?
Which leads to another question...
I can see how we would want air flow as smooth as possible in the upper portion to keep particles thrown to the outside edges until they get a chance to fall, but what about the bottom portion below the baffle? Wouldn't it be a good idea to try and slow down/disturb the airflow below the baffle to give paticles a chance to fall out of the stream? I'm thinking of an inverted cone so as you fall deeper the diameter is larger so the velocity is smaller so more particles fall out of the stream, or an angled guard that diverts air below the baffle away from the drop slot making it harder for air to recirculated back in to the incoming stream from below the baffle, or even just some vertical bars installed below the baffle to with the intent of to trying to disrupt and cancel air currents below the baffle.
Thanks for the advice and the great idea.