rescwood wrote:OK ! It's decided, I take out the grinder and I transfer this stitching. Regarding the vacuum to be obtained, either the pressure drop at the level of the reactor rod is enough, or it is necessary to add a valve or a valve somewhere, is it better to restrict the air intake at the inlet of the air filter or at the inlet of the bubbler?
Here is a diagram of my installation:
In my opinion, the removal of the tapping will remove any possibility of overpressure, the minimum depression that I will obtain will correspond to the height of water in the bubbler and to the pressure drops from the reactor.
Hello
The supply valve in front of the reactor is practically useless, just to operate without a reactor or with a reactor,
if you want to compare with reactor is without reactor you just have to walk dry bubbler ..
but it is simpler to eliminate it and to have a shortest possible pipe between the outlet bulb and the reactor (to insulate for cold climates), it was not necessary to make it rise as high above the bubbler , a simple internal partition to prevent water from splashing would have been enough, this duct should be short if possible to avoid making too much condensation.
If your welds are questionable rod and centering point put a small mesh filter in the reactor outlet duct, to prevent the downstream diesel from a poorly welded pieces or filings due to vibration.
The pipe which will seek the vapor at the top of the bubbler could have been a simple vertical conduit which crosses the bubbler in hot water and which goes up in the top of the bubbler with a baffle to prevent the water, that makes a short pipe not need insulation, some place on this pipe a fine stainless steel mesh filter, the steam passes well but not the large drops of water.
For the rest I see nothing that prevents your system from working
if the pressure is sufficient in the reactor ..
Andre