My aero theory

Greeenhat said:

Hi all. Been lurking on and off for a few years now, soaking in all the knowledge I can. I have a few grows under my belt with varying degrees of success. Been a long time and always solo. But I have a theory. I've noticed most LP aero setups fall into 2 major categories: an aquamist style, net pots/neoprene collar cut in the lid of a tote, mister/sprayer/mini sprinkler manifold in the root zone that also happens to be the rez. Or the second being an aero/NFT hybrid, normally with fence posts of pvc. My idea would be to take the former setup only use 2 totes, 1 for the root zone and drain it back to a separated rez. This, in theory, would keep roots from ever being suspended in liquid so more oxygen. Obviously still run sprayers on the appropriate regimen. The root zone could even have active exhaust to keep o2 flowing. The point of all this would be more o2 in the root zone while still giving water/nutes. Is this a practice I havent read about? Would it not a work for some reason I overlooked?

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Greeenhat said:

Hi all. Been lurking on and off for a few years now, soaking in all the knowledge I can. I have a few grows under my belt with varying degrees of success. Been a long time and always solo. But I have a theory. I've noticed most LP aero setups fall into 2 major categories: an aquamist style, net pots/neoprene collar cut in the lid of a tote, mister/sprayer/mini sprinkler manifold in the root zone that also happens to be the rez. Or the second being an aero/NFT hybrid, normally with fence posts of pvc. My idea would be to take the former setup only use 2 totes, 1 for the root zone and drain it back to a separated rez. This, in theory, would keep roots from ever being suspended in liquid so more oxygen. Obviously still run sprayers on the appropriate regimen. The root zone could even have active exhaust to keep o2 flowing. The point of all this would be more o2 in the root zone while still giving water/nutes. Is this a practice I havent read about? Would it not a work for some reason I overlooked?

Click to expand...

nxsov180db said:

I've built setups such as you describe, I built the root chamber out of plywood and lined the inside with plastic and had it drain into a large cooler that I used as a reservoir. I always thought about using some sort of very low cfm fan or even on of those oxygen generators to exchange the air in the root chamber but when I asked about it on here I was told that the roots will never deplete the oxygen inside the root chamber because a root chamber is never 100% sealed therefore that is apparently enough air exchange on its own.. I also was thinking of using a air pump inside of a freezer to help exchange air and also keep temps down inside the root chamber...

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Atomizer said:

Insulation works both ways, it can prevent heat escaping. A poly liner reduces the avenues available for air exchange and for heat to escape. In most well sealed hpa chamber designs, the fresh air typically enters passively via the drain and exits via the netpots. The flowrate is governed by the temperature difference, vent area and height difference, it doesnt equate to much but its important to have it.
If you use neoprene pucks you effectively seal the main exits and the heat naturally accumulates at the top of the chamber which isnt good. I build all my aero chambers along the same lines as an air pot so all but one surface (the top) is completely open to air exchange. A close weave waterproof fabric with an open area of 10-20% is enough to confine the mist and allow abundant air exchange. Other benefits include, 100% drainage as the entire floor area becomes a drain. Passive evaporative cooling as excess moisture evaporates from the fabric, Like an air pot, roots that make it to the chamber walls or floor are air pruned, causing the tips to die off. The plant responds by throwing out new branches back along the root.
After side by side testing the airpot design against a poly lined chamber made from rigid 2" PIR foil faced insulation board, i converted all my chambers.

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Atomizer said:

Insulation works both ways, it can prevent heat escaping. A poly liner reduces the avenues available for air exchange and for heat to escape. In most well sealed hpa chamber designs, the fresh air typically enters passively via the drain and exits via the netpots. The flowrate is governed by the temperature difference, vent area and height difference, it doesnt equate to much but its important to have it.
If you use neoprene pucks you effectively seal the main exits and the heat naturally accumulates at the top of the chamber which isnt good. I build all my aero chambers along the same lines as an air pot so all but one surface (the top) is completely open to air exchange. A close weave waterproof fabric with an open area of 10-20% is enough to confine the mist and allow abundant air exchange. Other benefits include, 100% drainage as the entire floor area becomes a drain. Passive evaporative cooling as excess moisture evaporates from the fabric, Like an air pot, roots that make it to the chamber walls or floor are air pruned, causing the tips to die off. The plant responds by throwing out new branches back along the root.
After side by side testing the airpot design against a poly lined chamber made from rigid 2" PIR foil faced insulation board, i converted all my chambers.

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Atomizer said:

The permeable fabric forming the chamber wall is black and the black and white poly (panda film) that forms the vertical "ducts" goes black side in (white side out). The B&W poly is stapled to 1" x 1" vertical pvc battons (electrical trunking) that extend slightly above and below the chamber. The battons provide a 1" gap between the fabric wall and the poly duct outer wall. Light can only enter the duct from the top and in order to reach the chamber interior it has to turn 90 degrees using 2 non reflective black surfaces and then penetrate the fabric . The fabric has much less open area than any mesh but if you look at some mesh at an acute angle it appears to be a solid sheet with no holes in it
The best stuff to use for the chamber framing is greenhouse wiggle wire type extrusion, its designed to hold poly, insect screening, shadecloth etc very securely. It makes the job a lot easier and is widely available in the states.

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