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#12
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Here's another picture to look at:
http://www.nws.noaa.gov/sat_tab.html Bob Gardner "john cop" wrote in message om... "Bob Gardner" wrote in message news:GwAhb.535167$cF.206989@rwcrnsc53... Look at any text on the atmosphere and you will learn that temperature decreases with altitude, cloud cover not withstanding (absent an inversion). The sun does not heat clouds. Look, I am no atmospheric expert, but the above is just a plain silly statement (less charitable types might say stupid). What do you think happens to all that energy? It ALL get reflected back into space? Clouds, which you should know even from just from watching the weather on TV, are insulators of sorts. This means that the sun's energy (the part that doesn't get reflected) get absorbed by the cloud as it is transmitted through it. If were an ideal insulating situation, the temp gradation would be linear, but, obviously, its not (gas laws and all that), but the principle is the same. My bet is the energy transfer to the clouds is greatest at the tops and reduces with altitude according to some unknowable (too many variables) function. If your statement were correct, the temp at the tops would be the same during the day as during the night which is, I think, silly. This does not mean the temp is going to rise as you climb (gas laws again). What is does mean is that the cloud's capacity to absorb moisture (or supper cooled stuff) very near the tops could be substantially greater than near the bottoms. |
#13
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"Bob Gardner" wrote in message .net...
Read this, and google on cloud temperatures. http://www.cpc.ncep.noaa.gov/product...uv_clouds.html When you look at a satellite shot, the whitest clouds are the coldest....at their tops. That is not inconsistant with anything I said. I have attended a whole bunch of international icing conferences hosted by the FAA, with meteorologists and aerodynamicists from all over the world in attendance, and I have read the papers they presented at those conferences. I have written and lectured on airframe icing. Simply stated, you are wrong. Bob Gardner Whow, does this mean you get to ignor the laws of physics or do you get to rewite them? -The sun does not heat clouds.- For this to be true, the clouds would have to be perfect transmitter of all the radiant energy that wasn't reflected. You know thats not true from the simple fact that it gets darker as you decend into the cloud. Its a silly statement. |
#14
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This is an interesting discussion. I wonder if there might be some mixing
of terms that is adding to the confusion. Let's see if we can agree on a few basics and take it from there. The dominant part of the sun's emissions that supplies heating to the earth is in the infrared end of the spectrum. While there are materials that approach being 100% IR transmissive, water is not one of them. IR is quickly absorbed in water. This is evidenced by the spectrum of light present as water thickness is increased. For example, the deeper part of a swimming pool appears bluer than the shallow part because the sun's light has transition through more water, 2 x the depth, before reaching our eyes. The deeper the water, the bluer and darker it looks (provided the water is clear). Does a cloud absorb IR radiation? Well, it's made up of water and water absorbs IR. The answer is yes, clouds absorb IR radiation. If you have any doubt, think of being outside on a hot day and what happens to the heat you feel from the sun when a cloud passes overhead. The heat on your skin from the sun drops significantly if the there is any thickness to the cloud. This does not refute the thermal satellite imagery in any way. The satellite imagery shows IR emissions. The earth's surface is much warmer than the cloud tops and the earth has pretty high IR emissivity. It registers as warmer due to its higher IR emissions. Temperature vs altitude within clouds is a different matter and is affected by several factors, some of which, like convective cooling, may overwhelm the others. Just another 2 cents into the discussion. JimC "Bob Gardner" wrote in message news:54Ihb.536556$cF.207547@rwcrnsc53... Here's another picture to look at: http://www.nws.noaa.gov/sat_tab.html Bob Gardner "john cop" wrote in message om... "Bob Gardner" wrote in message news:GwAhb.535167$cF.206989@rwcrnsc53... Look at any text on the atmosphere and you will learn that temperature decreases with altitude, cloud cover not withstanding (absent an inversion). The sun does not heat clouds. Look, I am no atmospheric expert, but the above is just a plain silly statement (less charitable types might say stupid). What do you think happens to all that energy? It ALL get reflected back into space? Clouds, which you should know even from just from watching the weather on TV, are insulators of sorts. This means that the sun's energy (the part that doesn't get reflected) get absorbed by the cloud as it is transmitted through it. If were an ideal insulating situation, the temp gradation would be linear, but, obviously, its not (gas laws and all that), but the principle is the same. My bet is the energy transfer to the clouds is greatest at the tops and reduces with altitude according to some unknowable (too many variables) function. If your statement were correct, the temp at the tops would be the same during the day as during the night which is, I think, silly. This does not mean the temp is going to rise as you climb (gas laws again). What is does mean is that the cloud's capacity to absorb moisture (or supper cooled stuff) very near the tops could be substantially greater than near the bottoms. |
#15
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Thank you. Makes sense.
In my little experience, the icing was ferocious within, in seemed, the top 10 ft of the cloud (it was probably more like 100 to 500 but who knows – it was 20 years ago and I wasn't taking notes at the time). I always assumed that it was the sun heating the vapor, droplets, whatever, and forcing them to a higher altitude so they were a very nearly at their super cooled limit. The dividing line between ferocious and minimal icing conditions was sharp and very pronounced during the decent which suggested to me, that sun heating (energy transfer, if you prefer) was the cause or at least a significant contributing factor. |
#16
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In your description of the weather it sounds as though the tops were
increasing in altitude. That suggests lifting agents, e.g. a front or convective activity, were present. With air movement of that variety it isn't likely that IR radiation absorption would be able to generate a stratified effect like you describe. It's more likely that the moisture near the top was the coldest from convective cooling and was therefore able to generate the most ice. As you descended you probably encountered increasing temps, resulting in reduced icing. Just an educated guess. JimC "john cop" wrote in message om... Thank you. Makes sense. In my little experience, the icing was ferocious within, in seemed, the top 10 ft of the cloud (it was probably more like 100 to 500 but who knows - it was 20 years ago and I wasn't taking notes at the time). I always assumed that it was the sun heating the vapor, droplets, whatever, and forcing them to a higher altitude so they were a very nearly at their super cooled limit. The dividing line between ferocious and minimal icing conditions was sharp and very pronounced during the decent which suggested to me, that sun heating (energy transfer, if you prefer) was the cause or at least a significant contributing factor. |
#17
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I don't have "little experience" flying in icing conditions...I have a lot
of experience flying pistons, turboprops, and jets in an area of the country so prone to icing (on the west slopes of the Cascades) that the Concorde was sent out here for icing certification...I flew media folks to Grant County airport for the occasion. A good source of information would be Dr. Marcia Politovich at the National Center for Atmospheric Research in Boulder, Colorado ). She is known in the aviation meteorology community as the Ice Queen, and has lots of experience flying in icing research airplanes....but then again you are not impressed by credentials. Bob Gardner "john cop" wrote in message om... Thank you. Makes sense. In my little experience, the icing was ferocious within, in seemed, the top 10 ft of the cloud (it was probably more like 100 to 500 but who knows - it was 20 years ago and I wasn't taking notes at the time). I always assumed that it was the sun heating the vapor, droplets, whatever, and forcing them to a higher altitude so they were a very nearly at their super cooled limit. The dividing line between ferocious and minimal icing conditions was sharp and very pronounced during the decent which suggested to me, that sun heating (energy transfer, if you prefer) was the cause or at least a significant contributing factor. |
#18
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I'm currently inactive also....
Same thing happened to me about the same time same place almost same airplane! I had a M20-E (super). I don't think we had all the training and information that's available today. Much had to be learned by doing. I recall one night leaving Boston on a snowy night around 11 PM. I got a weather brief from the FSS and filed.. They told me there was an inversion with altitude. After taking off I felt uncomfortable with the snow because of the St. Elmo's effect. I saw the glowing arc from the propeller and the arcing on the windshield so I requested and got another higher altitude(7000) from Boston center. This put me into solid cloud cover with 34 deg OAT. After 5 minuets or so I noticed my airspeed slowing. I looked at the wings with my flashlight and saw ice building. I then requested a higher altitude (9000). This didn't change the temperature. It only made matters worse. I heard a howling noise and a bang. My ADF antenna broke off. I looked again at the wing and saw ice "horns" about 3 inches long building on my nav lights. I then requested a higher altitude (11000) and applied full power to start a climb. I couldn't get any higher than 9500 ft or so. Not knowing what else to do I pushed the prop control into a flat pitch to try to bend the blades and break any ice off. This must have worked because I heard some banging and my airspeed came up a little. I told Boston of my problems and they cleared me to 13000. At that time an Eastern Capt. came back to me and told me he was at 16000 picking up heavy ice. I told Boston I can't fly anymore with full power I was descending 200 fpm. and need a vector to the closest airport. They steered my to Hartford and I made one of the quickest approaches in my life. I had to land crabbing looking out the small open storm window on the pilot side because the windshield iced over.. I kept the IAS over 110 in case the ice would spoil the lift. Upon landing the attendant directing me with his flashlight remarked "Whooeee where the hell was I? I saw this in books but not in real life!" I had over 3 inches of ice on the leading edges and the breather was fully blocked. The small alternate air door automatically opened. I looked up at the sky and it was perfectly clear. I went through the weather and didn't even notice. I think in retrospect I should have stayed in the snow. I'm very grateful that I had a Mooney. Not that It's better, it's just because it got me through it. The rat at Hartford deiced my plane in their heated hanger and charged me $50 bucks! Since then I never fully believed the FSS I made damn sure I got at least one pirep and I personally looked at the weather maps before leaving. "john cop" wrote in message om... Have been inactive for many years. About 20 years ago, when flying up from the south, I got suckered in. The tops slowly rose untill I was flying at over 15,000 (Mooney 201) near Cleveland, It was clear on top and the temp was in the mid 40s on the ground, and the freezing level was high enough so I wasn't worried. When cleared for decent, ice formed at an incredible rate - must have picked up over an inch of rime in seconds near the tops. Once below the sun heated top layer, the accumulation virtually quit. Breaking out below at about 4,000, the temp was already well above freezing, but no ice was dissapearing. While being vectored into the approach, I ran some test to make sure the plane was behaving normally and was capable of climbing. On hind site, I should have refused the approach clearance and waited for the ice to fall off. Anyhow, after having read accounts about people stalling on final and etc., I brought her in about 20 knots fast over the numbers and chopped everything. I damn near overran a 5,000 ft. runway - the sucker didn't want to land. Rime ice, I have since found, can lower the stall speed (raises the dragg). It increases the leading edge of the wing. This was verified by test I did for a senior project in a wind tunnel using an airfoil, rubber cement, and sugar. The Reynolds number was way off for that test, so it could be suspect. However, I had occassion to take to one of the crew of the icing planes over at NASA who confirmed all this and it sure would account for my landing problem above. Anyhow, after parking the plane, ice was still falling off in big chunks for 10 or 15 min. -----= Posted via Newsfeeds.Com, Uncensored Usenet News =----- http://www.newsfeeds.com - The #1 Newsgroup Service in the World! -----== Over 100,000 Newsgroups - 19 Different Servers! =----- |
#19
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john cop wrote:
Thank you. Makes sense. In my little experience, the icing was ferocious within, in seemed, the top 10 ft of the cloud (it was probably more like 100 to 500 but who knows – it was 20 years ago and I wasn't taking notes at the time). I always assumed that it was the sun heating the vapor, droplets, whatever, and forcing them to a higher altitude so they were a very nearly at their super cooled limit. The dividing line between ferocious and minimal icing conditions was sharp and very pronounced during the decent which suggested to me, that sun heating (energy transfer, if you prefer) was the cause or at least a significant contributing factor. The reason that the top portion of a cloud may produce the most icing... is that the cloud's formation process has resulted in the most liquid water near the top. The formation of most clouds is the result of lift, and as air lifts it cools at a very substantial rate. When the dewpoint is reached, the condensation occurs. As the air lifts more, the air becomes colder and has less capability to support water vapour... hence more condensation. If the air near the top of the cloud was lifted the furthest, then that is the air where the most liquid has been condensed. The fact that the sun may heat the top of the cloud a little, actually works against icing. By raising the temperature slightly, the air can support more vapour, and some of the liquid will evaporate. -- God grant me the serenity to accept the things I cannot change, the courage to change the things I can, and the wisdom to know the difference. --- Serenity Prayer |
#20
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"Icebound" wrote in message ble.rogers.com... snip The fact that the sun may heat the top of the cloud a little, actually works against icing. By raising the temperature slightly, the air can support more vapour, and some of the liquid will evaporate. Liquid evaporating making cold. A cloud can absorb energy without gaining temperature. |
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