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#41
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In comp.sys.ibm.pc.hardware.chips Floyd L. Davidson wrote:
And that *you* have little to no exposure to Arctic conditions An incorrect assumption on your part. I've lived where -40' was a normal temperature, and 0'F was a heatwave. Square tires, double plug-ins, and driving with the windows open. Ice-fog around open water. Now, I live someplace warmer. It doesn't???? It does, particularly on the east side of the Rockies. you claiming it is always high. Always is a strong word I avoid using. It is possible to get low RH cold air, but only by being colder first. Like -80'F warming to -40'. However, if you have *ever* experienced 6% relative humidity, you know that static just crackles out of everything. Yep! You can't move without generating a charge. Everything you touch gets zapped. You can't pet the cat, because it will run when you so much as look at it. And hair stands up at a distance. Now, I'm not going to figure out what's wrong with your calculations, I doubt anything is wrong with the calcs, but the assumptions might be mistaken. If you're running a humidifier (wet rug) or have a tightly sealed house, of course the humidity is going to be higher. As would [ice] fog. I lived in Tucson AZ as a teenager. Trust me, in Phoenix they have *lots* of static problems in the summer! Thanks for the data. -- Robert |
#42
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Keith R. Williams wrote:
You only heat your house to 32F (RH=44%)? ;-) :-) http://web.newsguy.com/floyd_davidso...rs/cfdataH.png (If you want to see what that is all about, though totally unrelated to this thread, http://web.newsguy.com/floyd_davidso...ors/index.html shows several other plots.) Seriously, your washing of circuit boards isn't as silly as people here seem to think. The manufacturer washes flux off in what amounts to a Pro's have beening doing that since day one. It was a little difficult back in the days of electron tubes because only the highest quality equipment used hermetically sealed coils and such, so only the high quality equipment could be put into a dish washer. We used to do it all the time with various components of troposcatter radio systems, and for years and years I had the most sensitive tropo receiver in Alaska. (This was reported year after year by the QC inspections, and I got lots of questions about how and why, but (you guessed it) they didn't believe me... :-) dish-washer. I don't think I'd want to leave a soap residue though. Analogs certainly wouldn't like that much. A DI or distilled water rinse would seem appropriate. Actually, you *do* want to leave a film of wetting agent on your motherboard. That will retain just enough moisture to dissipate static buildup (for example from the air blown into the case by fans) and will reduce the amount of dust that is attracted and sticking to the motherboard. It has about the same effect as an air ionizer. Which is to say, the motherboard will stay cleaner for longer. BTW, that's first-aid for electronics (and even cameras) after being dropped in water. Take out the batteries immediately, then dunk in DI or distilled water as soon as practical. ...cook on low heat until done. Incidentally... that is true of gasoline engines too! -- FloydL. Davidson http://web.newsguy.com/floyd_davidson Ukpeagvik (Barrow, Alaska) |
#43
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"Floyd L. Davidson" wrote:
Keith R. Williams wrote: .... snip ... What's the RH after you've heated the air to, say, 68F? ;-) Lesse... Actual Vapor Density -------------------- = RH Saturation Vapor Density At 14F (close enough) the saturation vapor density is 2.36g/m^3, so your actual vapor density is: .85 * 2.36g/m^3 or 2.01g/m^3 Raise that air to 68F (saturation density = 17.54g/m^3) 2.01g/m^3 -------- = 11% RH 17.5g/m^3 ...seems pretty dry to me. ;-) That would indeed be pretty dry. Now, your next assignment is to figure out why the air in my house *isn't* that dry! ;-) One (of many) possibilities is you don't knock the snow off your boots when you come in from the two-holer. :-) Or you keep a wet dog in front of the fire. -- Chuck F ) ) Available for consulting/temporary embedded and systems. http://cbfalconer.home.att.net USE worldnet address! |
#44
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Rob Stow wrote:
Floyd L. Davidson wrote: In Fairbanks the relative humidity can be very low. (However, at the moment... it's 17F and RH is 91%!) But in Fairbanks there is no source for water vapor /and/ it is commonly -40C or colder. Fairbanks sits inland several hundreds of miles, right between two of the largest mountain ranges in North America; hence the relative humidity is commonly low, with no wind, and in the winter there are extreme cold temperatures on a regular basis. Static is a *big* problem when it gets cold, and only a small problem with it isn't that cold. In support of that ... Where I live (Moose Jaw, SK, Canada) isn't 1000+ miles further south than Fairbanks, but -30'C days are common during Dec, Jan, and Feb, and most years we get a few days of -40'C weather. 100% or near %100 relative humidity on days like that is nothing unusual - *outdoors*. It takes trivial amounts of moisture in the air to cause near 100% RH at low temperatures like that. When it is -30'C and 100% RH, there is so little water in the air that if you heated a volume of that air up to room temperature the RH would fall to near zero. However, except when guys like me do crazy overclocking experiments outdoors on a cold day, the outdoor relative humidity is irrelevant. It is the RH *indoors* that matters, and the colder it gets outside, the harder it is to maintain a sufficient RH inside. Warm air is constantly leaking out around doors and windows, up the chimney, etc, and carrying away lots of water with it. If the water is not replenished, such as by a humidifier mounted on the furnace, it is very easy to have a 20% RH indoors even when the outdoor RH is close to 100%. Over the three coldest months of the year the humidifier for my tiny 800 square foot apartment goes through about 6 liters of water per day if I want to maintain a 40% RH. And that is over and above the humidity replenished by things like cooking, bathing, and simply breathing. That is all true. The two biggest factors controlling inside RH are the vapor barrier and the type of heating used. I'd imagine that in northern parts of Canada, just as here in Alaska, buildings have *very* good vapor barriers. That is as opposed to what is used in the Lower-48, where they think the foil backing on fiber insulation is sufficient (and it is, there!). Of course having baseboard heat and a boiler that has the air intake vented from the outside is also a *big* plus for maintaining a higher RH inside. When I lived in Fairbanks we kept a large water container on the stove top all winter long. We burned coal for heat until the last couple years I was there. Here I have forced air, but it burns natural gas, and there are only a few days of the year when the RH gets too low, so I haven't bothered to do anything special. -- FloydL. Davidson http://web.newsguy.com/floyd_davidson Ukpeagvik (Barrow, Alaska) |
#45
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In comp.sys.ibm.pc.hardware.chips Keith R. Williams wrote:
I thought "fixer" was sodium thiosulfate and some other stuff. Sodium Hypochlorite is laundry bleach and pool chlorine. Exactly right. Pretty good for a non-chemist. -- Robert |
#46
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CBFalconer wrote:
"Floyd L. Davidson" wrote: Keith R. Williams wrote: ... snip ... What's the RH after you've heated the air to, say, 68F? ;-) Lesse... Actual Vapor Density -------------------- = RH Saturation Vapor Density At 14F (close enough) the saturation vapor density is 2.36g/m^3, so your actual vapor density is: .85 * 2.36g/m^3 or 2.01g/m^3 Raise that air to 68F (saturation density = 17.54g/m^3) 2.01g/m^3 -------- = 11% RH 17.5g/m^3 ...seems pretty dry to me. ;-) That would indeed be pretty dry. Now, your next assignment is to figure out why the air in my house *isn't* that dry! ;-) One (of many) possibilities is you don't knock the snow off your boots when you come in from the two-holer. :-) Or you keep a wet dog in front of the fire. How much effect do you figure the swimming pool in the basement has? Or the hot tub with three cuties in it splashing around? And that sauna is always attracting a crowd too... It's difficult to slow down long enough to count the ways... ;-) -- FloydL. Davidson http://web.newsguy.com/floyd_davidson Ukpeagvik (Barrow, Alaska) |
#47
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Robert Redelmeier wrote:
In comp.sys.ibm.pc.hardware.chips Floyd L. Davidson wrote: And that *you* have little to no exposure to Arctic conditions An incorrect assumption on your part. I've lived where -40' was a normal temperature, and 0'F was a heatwave. Square tires, double plug-ins, and driving with the windows open. Ice-fog around open water. Now, I live someplace warmer. Interesting, given the mix of serious science and lack of awareness of some of the more common effects. It doesn't???? It does, particularly on the east side of the Rockies. you claiming it is always high. Always is a strong word I avoid using. It is possible to get low RH cold air, but only by being colder first. Like -80'F warming to -40'. But think about all those moisture laden clouds swirling around south of the Alaska Range on an average day in January... and how high they have to get before they can move across the mountains (roughly 10,000 feet) and appear over Fairbanks. (And the same effect for any air from north of Fairbanks coming from up here on the North Slope.) I'm sure the temperature change has an effect, but probably more significant in that particular case is the pressure change. The typical winter air in Fairbanks moves from the Bering Sea inland along the north side of the Alaska Range though, and I suppose it is the temperature changes that dry it out so thoroughly by the time it gets that far inland. However, if you have *ever* experienced 6% relative humidity, you know that static just crackles out of everything. Yep! You can't move without generating a charge. Everything you touch gets zapped. You can't pet the cat, because it will run when you so much as look at it. And hair stands up at a distance. Now, I'm not going to figure out what's wrong with your calculations, I doubt anything is wrong with the calcs, but the assumptions might be mistaken. The calcs are flawed. You are indeed using the mistaken assumption that what you calculated would be the RH of the air inside a house, and that isn't the case. You calculated the RH of air in a container as the temperature changed, with no other source of moisture and no exchange of air. Houses don't fit. If you're running a humidifier (wet rug) or have a tightly sealed house, of course the humidity is going to be higher. As would [ice] fog. There are few houses (and all are old) here that are *not* tightly sealed. In fact sealing them up too tight is more often a problem these days than the other way around. (Which is something that has changed in the past 3-4 decades.) I lived in Tucson AZ as a teenager. Trust me, in Phoenix they have *lots* of static problems in the summer! Thanks for the data. They get something we never see here, which is lightning strikes that hit the ground. We've had three thunder storms here in the past 5 years, and it had been 20 years before that, but what little lightning we ever do get is strictly between clouds. In Tucson there are localized lightning storms all summer long. It starts every afternoon about 1-3 PM as the air begins to cool off from the peak heat of the day. Really dramatic! I'm not sure what is normal there now, but in the 50's and 60's most homes were cooled with evaporative cooling, so the RH inside most homes would have been fairly high. Of course the RH of the outside temperature is often less than 20% -- FloydL. Davidson http://web.newsguy.com/floyd_davidson Ukpeagvik (Barrow, Alaska) |
#48
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In comp.sys.ibm.pc.hardware.chips Floyd L. Davidson wrote:
Interesting, given the mix of serious science and lack of awareness of some of the more common effects. It's easy to overlook the common. But think about all those moisture laden clouds swirling around Most of the moisture in clouds (even at warmer latitudes) is as ice crystals. Even if the ground temp is 60'F, around 8,000 ft, the temp has dropped below freezing (adiabatic lapse rate). Most (not all) clouds hang out 10-30 kft. inside a house, and that isn't the case. You calculated the RH of air in a container as the temperature changed, with no other source of moisture and no exchange of air. Houses don't fit. OK. What does? How many air changes with outside per hour (or per day) does your house do? How many lb/hr of internal water vaporisation? Assumptions are made to simplify, but may not fit. Then you need more data. There are few houses (and all are old) here that are *not* tightly sealed. In fact sealing them up too tight is more often a problem these days than the other way around. (Which is something that has changed in the past 3-4 decades.) I don't doubt it. Perhaps to some mild toxicity. They get something we never see here, which is lightning strikes that hit the ground. We've had three thunder storms here in the past 5 years, and it had been 20 years before that, but what little lightning we ever do get is strictly between clouds. Yes, I'm aware of that. Rather unsettling, thunder during winter. But lightening storms are _not_ what we're talking about here. The US Gulf Coast has plenty of those, but few problems from local static build-up that might threaten circuits. Does Phoenix in summer? 60's most homes were cooled with evaporative cooling, Swamp coolers. -- Robert |
#49
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Robert Redelmeier wrote:
They get something we never see here, which is lightning strikes that hit the ground. We've had three thunder storms here in the past 5 years, and it had been 20 years before that, but what little lightning we ever do get is strictly between clouds. Yes, I'm aware of that. Rather unsettling, thunder during winter. But lightening storms are _not_ what we're talking What has *winter* got to do with it? Hell will freeze over before there is a thunderstorm here in the winter. about here. The US Gulf Coast has plenty of those, but few problems from local static build-up that might threaten circuits. Does Phoenix in summer? Yes. It is very dry there. -- FloydL. Davidson http://web.newsguy.com/floyd_davidson Ukpeagvik (Barrow, Alaska) |
#50
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On Thu, 28 Oct 2004 20:02:15 +0000, Robert Redelmeier wrote:
In comp.sys.ibm.pc.hardware.chips Keith R. Williams wrote: I thought "fixer" was sodium thiosulfate and some other stuff. Sodium Hypochlorite is laundry bleach and pool chlorine. Exactly right. Pretty good for a non-chemist. I was quite the neighborhood chemist (and b00mb maker) some forty years ago. ;-) I *hated* freshman chemistry though. No bangs, too much gunk. Boooring! -- Keith |
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