C
Cozy Amnesia
Sending your exhaust into the vent leading from the central heating/cooling unit? Obviously this isn't going to be doable for everyone, but for those of us who's grow space shares the same closet/room as the utilities crap, ever though about doing this before?
This will conserve the conditioned air and constantly supply your home with a current of warm air. This is also energy efficient as well as being "green" and what-have-you. In addition, when the heater does have to turn on, it will act like as a vacuum for your grow ventillation which boosts you air current and quickly exhaust your shit.
Those are Layman's terms for some intense physics concepts I could touch up on if anybody wants me to. In it's simplest form, CFMs -- a measurement for air current -- is fully depended on two variables: the air pressure potential and the resistance to flow of air (kind of like drag). It works the same way for electric current, fluids, anything that involves "flux".
But what does this have to do with a/c vents? With a low restricting ventillation system, you can send that air damn near anywhere -- and by that I'm talking about all around the goddamn house. Guess what? Our central heating/cooling systems are already pretty efficient at this. They're made of smooth panels, they're large in area (perpendicular to the flux, that is), and they limit resistance. Get the idea?
Once the exhausted air leaves the scrubber and into the central ventillation system, it's going to meet little resistance. I have a single 65 cfm computer fan pushing air all the way through 5' of 4" vynal tubbing, up another 6' of 8" ducting, into an attic, an out some vent to the great outdoors. It moves at an all-right pace, depending on the air pressure outside, but what's important is the air pressure potential. What I'm not saying is skimp on buying a good fan because little fans will work kind-of (there is no way that my fan could pull through a scrubber). I'm just trying to point out the logistics to why this could work.
That was a big of a dragged on ran, so I'll sum it up without further ado. What do you guys think about this idea? Has anybody tried this before? This is just an idea, I haven't put it into practice yet. But I'm designing an entire new grow and this is entirely possible...
This will conserve the conditioned air and constantly supply your home with a current of warm air. This is also energy efficient as well as being "green" and what-have-you. In addition, when the heater does have to turn on, it will act like as a vacuum for your grow ventillation which boosts you air current and quickly exhaust your shit.
Those are Layman's terms for some intense physics concepts I could touch up on if anybody wants me to. In it's simplest form, CFMs -- a measurement for air current -- is fully depended on two variables: the air pressure potential and the resistance to flow of air (kind of like drag). It works the same way for electric current, fluids, anything that involves "flux".
But what does this have to do with a/c vents? With a low restricting ventillation system, you can send that air damn near anywhere -- and by that I'm talking about all around the goddamn house. Guess what? Our central heating/cooling systems are already pretty efficient at this. They're made of smooth panels, they're large in area (perpendicular to the flux, that is), and they limit resistance. Get the idea?
Once the exhausted air leaves the scrubber and into the central ventillation system, it's going to meet little resistance. I have a single 65 cfm computer fan pushing air all the way through 5' of 4" vynal tubbing, up another 6' of 8" ducting, into an attic, an out some vent to the great outdoors. It moves at an all-right pace, depending on the air pressure outside, but what's important is the air pressure potential. What I'm not saying is skimp on buying a good fan because little fans will work kind-of (there is no way that my fan could pull through a scrubber). I'm just trying to point out the logistics to why this could work.
That was a big of a dragged on ran, so I'll sum it up without further ado. What do you guys think about this idea? Has anybody tried this before? This is just an idea, I haven't put it into practice yet. But I'm designing an entire new grow and this is entirely possible...
. Also, using it heats up my grow room (up to 80 at the most, so not too bad).
