weeeeeeeeeeeeeeee
ok, one by one
cseeton- can you explain a little more how removing water from the air with a desiccant heats the air? How much less does warmer air decrease the evap cooling potential of that air?
It seems like there are two parts to the evap cooling thoughts. One is cooling the air coming into the greenhouse to lower the ambient temp inside the structure, thereby controlling the tank water temps. The second is evap cooling of the tanks themselves.
I would agree that the swimming pool might hold some great potential. If the pool water never gets above 80 and holds three times the total volume of the tanks in the greenhouse, it seems like I would at least be able to have the tank temps equal out. i.e. The tank temps could be brought down to 80 just because of the sheer volume of water in the swimming pool. I don't have the knowledge/ numbers/ formulas to work all of this out, but someone surely does.
By spray, do you mean a fine mist directed at the pads as opposed to constant pouring/ trickling of water over the pads?
My main concern, and from what it sounds like, everyone else's concern who is trying to figure ways to combat hot summer temps, is being prepared for the worst case scenario. The worst case may not happen or happen only once in ten years, but if it kills off a greenhouse full of corals, then the initial expense of being prepared may well have been worth it. Around here, that might be 110 with 95% humidity. Are there equations/ formulas to figure out how much temp drop you can get with different methods. Like starting with fans. I know, just from experience, that my big exhaust fan will easily drop the temp in the greenhouse by ten degrees in a matter of minutes. Some have already said there are numbers available to figure the footage needed in an underground loop, are there similar numbers available to figure how many degrees a fan will lower the temp? Evap pads? Evap pads with desiccants? etc... I think we all also want to have the cheapest solution that will effectively do the job. With so many inputs, I was figuring if we all start with a set of standards (given temp and humidity) and work from the cheap and simple solutions to the more complicated and costly, it would benefit the most amount of people.
H2OENG- this is a killer thread, but due to all of the inputs from other people, I'm just showing off pictures and learning tons.
Geothermal is not out of the question, I just want to know that a cheaper, easier solution wouldn't be adequate. In my own thoughts, I was convinced that fans and pads (and maybe the addition of the salt) would do it for me. There have been quite a few people questioning the adequacy of the cooling plan so I want to try to get some concrete numbers flowing and figure it out. I don't have allot of experience with these systems, so I can't just "look at it" and tell if it will be enough. The solar panel idea sounds like it might be easier to employ and cheaper as well. Then, do we just count on the tank's water not heating up quickly during the day? Won't the solar system heat up during the day, then when it turns on at night, create a sudden in flux of warmer water until the circulation pushes it through the system? I don't know how much difference that would make compared to the overall system volume, just a thought on my part. Would the water from the solar system then be piped through a heat exchanger like a geothermal would be?
matt- If need be, those are good ideas.
boxer85- Also good ideas, I just want to exhaust cheaper, easier methods first.
seldon- That may be true, I wouldn't know for sure. The system, I think, would still be much the same and require much the same equipment to operate and the same amount of work to set up.
Treeman- thanks for jumping in and thanks for the water testing links. Have you also seen the misting systems that set up outside the GH and mist the plastic? Combined with a shade cloth, they are supposed to be fairly effective at cooling the plastic by evaporating water from the shade cloth. Atlas sent me an experimental summary written by D.H Willits and M.M. Peet at the U of California. The original write up was in the April 1994 and December 1994 issues of The North California Commercial Flower Growers Bulletin. It supposedly made the evap cooling pads run 40% less of the time because of the cooler temps.
gpajohn-I have seen your inputs on other threads and appreciate your input here. I wish you the best in your endeavors and thanks for the links too. Maybe some of these alternatives will help get your creative juices flowing again!
Again, thanks to everybody for their input(s). I hope you keep them coming. RC is one great resource for all of us to share and benefit from.
I have pumped water from 120' down and it is only 74 degrees. At the 6' depth I have my geothermal I think it is about 77 if my gauges are right.
