neutrino
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Super-high temperature carbon-steel furnace
This is sort of a random idea I had a little while ago and was wondering if it could be put to practical use.
A normal gas-air flame will heat something up to about red/orange heat—about 700*C lower than the flame temperature because of the cooling effects
of the flowing gas. A charcoal fire will do something similar. The question remains: how do you heat things of significant size (not just something
like a thin wire) to white heat for a long period of time?
Reading about the Bessemer process, I got an idea. In the process, iron with a good deal of carbon and silicon in it is melted and air is blown
through it. The reaction of these elements to form their oxides heats up the iron from barely molten at the start of the reaction to completely molten
and white hot (coke furnaces couldn’t even melt the stuff half-decently). Here, you have a large pool of extremely hot material to heat that retort
to distill your phosphorus or whatever else would require prolonged ungodly temperatures.
Theoretically, all you’d have to do to keep the reaction going is add carbon (charcoal). This poses two questions: how fast will it dissolve in the
iron and is the silicon (described by Bessemer as a major heat-producing element) really necessary?
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rikkitikkitavi
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well actually it is not the gas that cools only, it is quite a lot of radiant cooling aswell.
The effect versus area is not so good for a "small " flame compared to a larger flame, so it is easy to build a oven , heated by gas that
reaches 14-1500 C (if the air is preheated) if it is just large enough.
If done as you say, yes, adding charcoal would dissolve the carbon in the iron, but at the same time iron is oxidized so you would eventually burn
away everything.
The trick is to stop in time, before to much iron is lost.
Silicon is present in the ore, and is definately an unwanted alloy element in the iron/steel (except from some special alloys) . The dissolving of
carbon would probably be quite quick , and if the air is blown into the molten iron so it bubbles through then the agitation is good, which increases
the dissolving rate substantially.
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Cyrus
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Hmm, this sounds a bit awkward when ordinary wood will get plenty hot for phosphorus. I just don't see the Bessemer process being useful for
heating. When you cool the furnace down you'll be left with a huge chunk of iron- Do you want to remelt this every time the furnace needs to be
fired up. This is just my mostly uninformed pessimistic opinion.
Coal/Coke/Wood/Charcoal/Nat. Gas/Propane/Waste oil are all plenty hot, and if that's too messy, there's always electrical heating, and then
there are arc furnaces.
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neutrino
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For some preparations of phosphorus, you need to heat a retort to a steady white heat.
I was thinking of the following startup/shutdown procedure: Start a small thermite reaction to get a small amount of very hot molten iron. Add
charcoal and more iron while blowing air through the mass of liquid iron, thus steadily building up the mass. When you’re finished, turn off the air
supply, add as much charcoal as will dissolve, and pour ingots. The high carbon content should make the next startup easier.
The thing I’m not sure about is the burning of the iron itself. I’m guessing that this shouldn’t be too much of a problem as long as there’s
enough carbon in the melt, but this is only a guess.
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Cyrus
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I'm sure you'll BAT get a nice steady white heat from coal/charcoal.
Do you have a furnace or anything currently?
Also, what are you using for the retort? Slip-cast zircon or something?
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jimwig
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more heat
1. more insulation surrounding the fire box
2. add a blast of air to the hot box
3. make firebox just large enough
4. gain experience with using furnaces. take a sculpture course using molten metal techniques
my commercial kiln (small about 12x12x8"goes to 2000F and my two small
(antique) dental furnaces will melt gold.
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neutrino
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No, I currently have nothing. What you are saying is that this will only be a marginal improvement over the standard furnace? I thought it would have
been more because Mr. Bessemer said that the standard coke furnaces of his day could only get steel partially molten, while the Bessemer process would
make it completely fluid.
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neutrino
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I did a little more research and found some more information about this. I was wrong about the ‘partially molten steel’ thing, he said it would
only get steel up to a pasty mass in the most powerful furnaces, although he was probably referring to large amounts (several tons) being processed at
once. In his description of the process, he said that the carbon is first burned off, then the reduced carbon content allows some oxidation of the
iron. So, as long as the carbon content is high enough there should be no problem with this. The silicon wasn’t even mentioned here, so it should be
insignificant.
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Twospoons
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You could melt and heat the iron white hot using an induction heater, provided you had sufficient insulation.
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jimwig
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>Do you want to remelt this every time the furnace needs to be fired up<
if I am hearing this right you cannot remelt this "plug" of iron. when small cupola furnaces are shut down the bottom is dropped leaving
nothing in the fire box. i am not familiar with the Bessemer method but the energy necessary to remelt a sizable chunk will be enormous. and btw this
is all to do with cast iron and not for steel.
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FrankRizzo
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Why not just go all-out and make an arc furnace?
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Texium
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Thread Moved 19-11-2023 at 10:19 |