That pressure gauge is a bit rich for my blood. If I were producing a consumer product that I needed to support, I would definitely be putting in the time and $$. For now, that's why i'm doing it by eyeball.
I can confirm that I am getting back pressure about 2 weeks in. The floss on the bottom starts to push up (not much, because it is compacted in well.). The precipitate seems to pick a weak area (less compacted)in the floss and starts seeping up in other areas. Then seeping outward from there. Path of least resistance.
I do have a design in mind for optimizing for maximizing surface area, but i'm a bit too busy to build it. I also don't want to poke the honey badger, since it is working flawlessly right now!
I also wanted to express again, that I feel that you had good intentions on your feedback towards this design. I think I might have read your post at an irritable state in my day or something. It didn't matter how it was written. I read it as, "Don't do this if you know what is good for you".
I definitely caution people to think about what they are doing. If people dont want to put a bit of forethought into this hobby, they should not be in it.
For me, I am replacing GFO and also getting rid of years of phosphate buildup in my rocks and sand. I am also creating a maintenance dose which will be highly controlled. Much like changing out GFO every 2 weeks. Obviously GFO would be considered the safer option because, in theory, it only removes what phosphates are in your system; and does not add anything back into your system. I use the term "in theory" because I feel that GFO reactors have their own set of complications that require constant maintenance (flow rate adjustment, pre-filtration, constant changing in high phosphate environment). GFO is also very expensive and not very viable for those on a budget. Or even those that choose to cut costs where they can.
If you have read any of my past posts, you can probably quickly pick up on my montra. Cheap, easy, efficient would probably sum it up.
I have a very busy life, and am cursed with a creative mind. I am constantly outside of the box, and usually have to pay the price because of it. The irony here is that If I chose the path of least resistance, and did things like everyone else, I would probably have more free time and would be able to better fulfill my montra. But what fun is that??
I've built my own car's. I've built my own guitar's (yet I don't enjoy playing guitar). I've built and coded my own DVR (pre-Tivo). I love cat in the hat. Long story short, I build everything. It keeps me alive.
If I had a dollar for every solution that I've created that could possibly make me rich, I'd have at least $10.
Not bad for having typed all that our on a phone! I was hoping you would chime in.
I actually think we are on the same page about flow rates. I think the lower flow rate is best. Especially given the diluted doses you are using, the lower flow rates allow for greater reaction time with the LaCl. That would also help to reduce precipitates from leaving the reactor.
I'm still a bit curious about flow reduction as the precipitate builds in the reactors over time. It would be interesting to add a pressure gauge
like these ones to the reactor to see if it increases between floss changes. I've used them as an indicator on some of the reactors I have built. It's easy to measure flow with a dosing pump but a bit more difficult when you are getting into gallons per hour or minute as opposed to liters per hour or minute. I've found that a good pressure gauge can come in handy and serve as a good indicator for when it's time to change media.
It seems like this solution is working well for you guys.
Lastly, go ahead and use the keyboard if you are so inclined Slief :thumbsup:
l LOL
