07-10-13, 06:14 AM | #11 |
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Defo, got to weigh in on this one. First, the only issue with PEX is that of the wall thickness and its conductivity. As there is a VERY large ratio between the surface area of the tube in an average system and the walls heat transfer, the only issue is the time it takes to transfer the heat and we have lots of time because all we have to do is match the heat load. As we know, this is easily done otherwise the Germans wouldn't have gone with the system to start with as the benefits and longevity of PEX outweigh copper in cement (preferred) over copper (or anything) and aluminum plates.
For best radiant cooling, running the cold water through a fin-tube rad with a drip pan underneath it would work well if the cooling load is not great. You must remove the humidity but to do so without a fan requires way more surface area. Floor heating controls exist for cooling but you still have to get rid of the humidity and watch the set point very carefully. Last edited by Mikesolar; 07-10-13 at 06:32 AM.. |
07-10-13, 09:24 AM | #12 | |
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Unless he is prepared to encase the pex in something to serve as a heatsink to transfer the "coolness", I don't see it being of any meaningful value with regards to cooling. Just running Pex in a dead air space, even with additional controls, monitors, pumps and fans and what ever else you can think of, will provide little, if any practical cooling. Of course copper,aluminum, steel( all much better conductors) or any other piping won't do it either without a lot of extras. The idea of "radiant cooling" is a good one, but I'm reminded of a picture I saw, the redneck air conditioner. A fan ducted into a cooler filled with ice, ducted into the room. How's that for bragging rights? |
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07-10-13, 10:00 AM | #13 |
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I agree with Minimac The cooled pex with aluminum spreaders may at some point reach the dew point and rain on the ceiling wall board. Not good. If you have the space open, run ducts and drop vents from the ceiling. Install a air-handler. Some have the ECM fan multi speed that's very efficient. They are nearly silent. From your heat pump circulate the chilled water through the HX and the cool dry air will fall from the ceiling vents and condition your space with little striation. The added bonus to this is during winter heating season you can circulate hot water through the air handler for quick boost of heat as the floor will be slower to respond and heat the area. Or add some solar hot water panels and have FREE HEAT.
We have been living with this type of system for 6 yrs. and highly recommend it. Been there, Built it, Did it, Can say it works extremely well!! Randen |
08-23-13, 01:53 AM | #14 |
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Haven't read all the posts. We installed several PEX floorcooling systems in Belgium.
You don't have to install moisture sensors in the slab, they will be useless. Condensation needs measurement of the ambient temperature and RH to use this as a dewpoint controller. Dewpoint controllers are ready available on the market. Practical: we don't go lower than 18°C for the floor because otherwise this will feel unpleasant. We use 8 cm PU foam, than PE foil, tubes of 18 x 3 mm with tackers, 10 cm wide and 6 rows of 5 cm around outer walls. You can place these tubes also in the walls as long as the walls are made of stone or concrete. You will face +/- 20 to 30 W/m² cooling effect with radiant cooling. Burry PE pipes ( we use the same 18 x 3) at a depth of +/- 1 m and fill it with a glycol/water mix. You install a PHE on the radiant heating and a pump on the burried captation net outside. You then will have free cooling. |
The Following User Says Thank You to daliti For This Useful Post: | philb (08-26-13) |
08-23-13, 05:08 AM | #15 | |
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Older cooling systems just tried to keep the slab temp 2-3C cooler than the ambient regardless of the RH which doesn't work well. |
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08-23-13, 05:17 AM | #16 | |
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Anyway, in the end, it is all about measurement and controls. |
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08-23-13, 06:30 AM | #17 | |
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08-24-13, 07:48 PM | #18 | |||
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NOTE: The table is for metals in sea water! But I have always thought that for the galvanic action to work its wickedness, moisture must be present. Quote:
Reason I'm asking is that over on Build It Solar, Gary tested out a solar heat collector configuration that used stamped aluminum heat spreader plates with PEX pipes, and also an identical unit with copper pipes. The copper pipe version yielded a 15% increase in heat absorption, which in his way of thinking was not enough to justify neither the additional cost nor continuing the experiment, since cheaper PEX panels could be deployed in greater number and achieve more BTU for the buck. But to my way of thinking, 15% is a really substantial improvement... especially when you are considering radiant flooring, where the option of deploying greater radiant area may not be available as an option. In fact, I am considering extruded aluminum with copper pipes for a dry system floor. Your thoughts? -AC
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08-24-13, 07:54 PM | #19 | ||
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"18x3" means what? "...install a PHE on the radiant heating..." means what? "free cooling" Yes, that one I understand! -AC
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08-26-13, 10:26 PM | #20 |
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I'm also interested in using PEX for cooling for my container house. There's not much on the net about it. What's a good lightweight medium for pouring over PEX to make a sub floor? The more information at this stage of the game will be helpful.
Here's a primer. Radiant Floor Heating and Cooling - GreenGarageWiki and about moisture control and a link to moisture modeling software from Oak Ridge Nat'l Labs and Germany's Fraunhofer Institute of Bauphysics toward the bottom of the page. Moisture Control - GreenGarageWiki Viega Heating & Cooling Design Manual (pdf | 19.92 MB) has a very good design manual that now includes cooling. It's under installation manuals. All 184 pages. Last edited by philb; 08-26-13 at 10:56 PM.. Reason: adding link |
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