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Try lifting the cover without creating a vacuum. If the skirt is continuous, it will draw tight to the shell when lifting. The air draw is the cover "sucking air" in as it is lifted. This minimizes the movement or loss of air while the cover is in place and passing wind is not pulling or drawing air from under the cover. If the corners are split, the vacuum is less effective. With a continuous skirt, they at times bunch up in the corners and need to be straightened out, where split corner skirting "flaps" allowing the skirt to not bunch up at the corners. I am of the opinion that the cover skirting has a more meaningful purpose than just to shade the sun light. If I had a cover without the skirting, the wind would be getting uner it and picking it up all the time.
When the cover is closed, there's absolutely no vacuum beneath it. When you open the cover, yes, the skirt may "suck in", but that's due to air now attempting flood in to fill the larger void created by lifting the cover. As you begin to lift the cover there's isn't enough space to allow air to FREELY flow in to fill the space created by opening the cover....None of this has any bearing on the insulating ability of the cover
The vacuum you feel is the suction of air as the cover is lifted up. The wet edges enhance the seal as it is lifted, but it is all about the air that draws the vacuum. I do not believe your statement "no insulation, no vacuum whatsoever," is accurate. But then, many covers are made differently, and they vary by manufacturer.
I've never noticed any type of vacuum action with my HS cover when I open it up? I always thought there was something wrong with my cover. After listening to Doc's explanation, I'm thinking the "vacuum" that most people describe is actually stiction between the bottom of the cover and the top surface of the shell. I vaguely remember this from one of my college physics classes.Here's a Wikimedia definition: "Stiction is an informal portmanteau of the term "static friction" ([ch956]s), perhaps also influenced by the verb "stick".Two solid objects pressing against each other (but not sliding) will require some threshold of force parallel to the surface of contact in order to overcome static cohesion. Stiction is a threshold, not a continuous force."
My son just noticed the steam escaping from our tub the other day. How much $$$ money is this problem costing me. Keep in mind that I live in Edmonton Alberta and we have had a cold winter so far. Help
Although I've never seen it myself, one of our Customer Service guys tells me that this is not uncommon and can occur in many brands of cover. The Arctic cover has a full-length insulating baffle as well as two end baffles to prevent heat loss. "It's not a significant loss and won't damage the cover, so tell the customer there is no cause for concern," said the CS rep I talked to. The CSR didn't say this, but it appears from your photo that moist air is escaping through the seams. Pushing the two halves together should 'pinch' the baffle more firmly (thanks to all who already mentioned this) , and maybe in the summer you might apply some seam sealer to the seams. And if you use a cover lifter, be sure to use the Cover Savers with it, as this will prevent the seams from being stretched by the weight of the cover. To answer another question in this thread, the Arctic cover extends approximately 1" on either side. The skirt extends to cover the lip of the acrylic and the cedar rail for weather protection. The skirt itself does not offer additional insulation nor is it intended to seal the cover to the spa.
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Topic: steam escaping from tub (Read 13824 times)
