Sorry took so long to reply on this had to call my aunt that had all my Grandfather stuff that was a Radioman in WW2. See my Grnadmother remarried after she divorced my Dads Father and I ended up with 2 WW2 vets one served in Europe as a Ball turret Gunner and the Other was a Radioman in the Pacific. Well at the time he was on 2 Ships in the War First was a Steam powered Conveted Transtport and the Otyher was an LST diesel Powered.
Well the Steam Powered Ship was at Lyte it was after there he got the LST according to the Diary she sent me so I have to take the word of him he died in 2005. They thought they were in a Secured area since they had the Largest fleet Guarding them in TF38 under Bull Halsey. Well all of a sudden the Japanese navy showed up and was shooting the Jeep Carriers that were giving the troops air cover. Now they were at anchor just a Genarator Running for Power Cold as hell on ALL THE BOILERS had been for 30 hours no Shore Power to repair a bad piece of HP steam pipe. Got the Word to GET OUT OF THERE. In less than 1 hour they had the pressure up and the ship underway. Now remember stone cold Boilers they had to Start the Fires from Zero Pressure and move them.
Okay, but my point is that if a wood stove, with similar metallurgy, can withstand high temps in short order, it doesn't necessarily follow that a riveted/stayed/bolted boiler can withstand high temps in short order so that all that water can be gotten up to near-steam temps in a hurry. And the temperature gradient in a wood stove is not going to last long. In a firebox where a flue-sheet is proximal, beyond which is 10 tons of cold water, the gradient will be more durable for a longer period, and very sharp.
Crandell
Your wood stove is not trying to heat several thousand gallons of water from 'room temperature'....that takes a few minutes longer :)
selector I wonder, just as an aside: is the metallurgy of modern wood stoves substantially different from that of 1920 boilers? I would say not much, but it would only be a guess. In any event, I can get my wood stove darned good and hot and quickly. It makes a lot of noise, but then it has no flue sheet, stays, or rivets and bolts. Just welds. Crandell
I wonder, just as an aside: is the metallurgy of modern wood stoves substantially different from that of 1920 boilers? I would say not much, but it would only be a guess. In any event, I can get my wood stove darned good and hot and quickly. It makes a lot of noise, but then it has no flue sheet, stays, or rivets and bolts. Just welds.
Never too old to have a happy childhood!
Last year I was in a museum in Bochum, Germany. I saw a type 08 4-6-0 being fired up with scrap wood near the roundhouse. It was a half-hour walk from the museum to the train station and by the time I got there, the locomotive looked like it moved under it's own power. Does it happen that quickly? I don't know how large the water capacity was, but it was not a very large engine.
On the subject of water-tube boilers, as an ex-navy machinist's mate, stationary engineer and current boiler inspector, I can say that it is entirely possible to get steam up as fast as was done on the U.S. S. Nevada. Also, is it recorded just how long the Nevada was in port and how long it was connected to shore steam and how cold were the boilers on that day?
tomikawaTT Find some photos of CB&Q, Rock and MILW locos in storage, several parallel tracks worth, usually several locos on each track. Now, find the steam lines... I repeat - locomotives were frequently stored where house steam wasn't available, and were fired from cold right where they stood. And nobody was, "Dorking around." The people doing the job knew what they were doing, how to do it, and why. Chuck
Find some photos of CB&Q, Rock and MILW locos in storage, several parallel tracks worth, usually several locos on each track. Now, find the steam lines...
I repeat - locomotives were frequently stored where house steam wasn't available, and were fired from cold right where they stood. And nobody was, "Dorking around." The people doing the job knew what they were doing, how to do it, and why.
Chuck
I vagley remember that sometime in a past a article that was written on this subject about the steam era.
If house steam power was not available or the roundhouse was full a small steamer would be hooked to a lineup of dead locos thru the passenger steam lines (most locos had them and all N&W had them both front and back). The steam line would be turned on and heat all the locos up at the same time and a hostler or loco maintainer would light the fire and run the blowers. That would enable the steam up of a number of locos at once?
Of course if the dead locos had been drained maybe the hot loco would first have to shunt the locos to a water tower and maybe a coal tower.
To be historically accurate, The Nevada was ordered, by higher authority than the BB CO. to ground her on Hospital Point to avoid the Chance (OK, Good Possibility) that she would sink in the main channel in/out of Pearl and prevent the use of Pearl and the surviving ships therein from participating in the war to follow (continue). JWH (also retired Maj, USA)
I believe you will find that Naval steamships on shore power include steamlines that keep the boiler hot. In any case these are watertube boilers that have absolutely nothing in common with locomotive boilers other than producing steam.
Yes, this has gone WAY beyond what the original question was, so, maybe if J. David Conrad, Lynn Moedinger, Steve Sandberg, Steve Lee, or any of our modern day steam experts are reading this, maybe they can weigh in on it and tell us how it's done. I'm sure they've all had to do it at one time or another.
Considering the conditions, a lot of normal procedures are tossed out the window (or porthole, or pumped overboard with the bilge water) during combat. The USAF had a War Emergency Checklist that, among other things, cleared an aircraft for flight with one set of operating instruments. So if the pilot had a working altimeter, and the flight engineer's airspeed indicator was functional... You get the idea.
That does NOT mean that such actions are generally acceptable.
By the time U.S.S. Nevada was grounded on Hospital Point, boiler damage was the least of the C.O.'s worries. Bomb and torpedo damage was a lot higher on the priority list.
We seem to have gotten away from firing a cold locomotive, but that's understandable.
Chuck (Past USMMA engineer cadet, retired USAF maintenance superintendent)
Ed, in times of loss of life and limb, we do all sorts of things we wouldn't think of doing when times are good. We get up and charge at machine gun nests. We ride on plains in tanks silhouetted against the sky. We throw our mates out of the way of a bus bearing down on us, except in doing so, we are left in the way of the bus necessarily by Newton's old laws. Many is the boiler that also obeyed those laws when it was heated inexpertly or carelessly.
What did those sailors have to lose?
Here is something to think about. In the Attack on Pearl Harbor the USS Nevada was hooked to Shore Power at the Start of it Boilers were Cold and Dead all of them were off line she was getting power from the Base power plant. 45 Mins later She had to Steam up to Cut the lines and Move that means power for the Gdenartion of Power for the Electrical Genarotrs and the Turbines for the Screws. This after taking Multiple Bomb and Torpedo hits. The crew lit off 12 Boilers in less than 45 mins and got them all up to pressure in that time.
Mark Newton is a rairoad engineer on an excursion railroad who drives both steam and diesel. He is a certified boiler maker and steam boiler inspector. He fires and engineers steam locomotives of several kinds.
You can find his own words in this thread:
http://cs.trains.com/TRCCS/forums/p/120824/1377567.aspx#1377567
First off, define, "Rapidly." Unless you want to cause unnecessary problems, locomotives which have been in extended storage are fired up SLOWLY - twelve hours would be considered a proper start. Anything less can cause stress due to uneven heating, which can lead to anything from leaky flues and broken staybolts to cracked boiler plates.
In what way would it be cheaper to connect house steam, rather than pay one man to fire up several locomotives. You'd still have the man - the firing, boiler filling, oiling around, etc. wouldn't do themselves just because house steam was available.
I will admit that my own experience was with marine boilers, not locomotives. Water tube boilers are somewhat more forgiving than the fire tube boilers in locomotives, but we still had a, "One degree F per minute," rule for changing boiler temperature.
Now I REALLY wish that Mark was still here!
"You can count the number of present-day steam operations that have access to a power plant for preheating their locomotives on the fingers of your left elbow. Even in steam's heyday, most locos that had to be fired from zero were not connected to an external source of steam first.
Granger railroads frequently stored unneeded locomotives, stone cold with boilers drained, for months, only firing them for the rather brief period when the harvest had to be moved RIGHT NOW".
Present day steam operations are certainly not representative of how things were done in "steam's heyday" . By the way , how much of this "heyday" were you around for?
You are saying that railroads like the CB&Q, Rock island,Milwaukee road and such had no facilities to maintain engines properly? A grain harvest is not a spur of the moment, impulse thing. If they did need to heat up a bunch of engines rapidly, it would certainly be cheaper to put them on house steam than have a man dorking around with one or two engines as described.
tdmidget That link is pretty much pure fantasy. Look at the aerial photos of yards and roundhouses in Trains magazine. Prominent in every one will be the power house. This produced steam, often for electrical generation but more often to provide heat for buildings, passenger cars waiting pick up, and for heating up steam locomotives. The boiler could be connected to house steam and gradually ( as it should be) brought to boiling. Locomotives would rarely be stone cold as the fairy tale describes, because it would take days for such a mass to cool. If this occurred, the rapid heating described would cause irregular expansion , leaks, and broken staybolts . There's your answer. It rarely happened and when it did, it was a half assed, slipshod operation.
That link is pretty much pure fantasy. Look at the aerial photos of yards and roundhouses in Trains magazine. Prominent in every one will be the power house. This produced steam, often for electrical generation but more often to provide heat for buildings, passenger cars waiting pick up, and for heating up steam locomotives. The boiler could be connected to house steam and gradually ( as it should be) brought to boiling. Locomotives would rarely be stone cold as the fairy tale describes, because it would take days for such a mass to cool. If this occurred, the rapid heating described would cause irregular expansion , leaks, and broken staybolts .
There's your answer. It rarely happened and when it did, it was a half assed, slipshod operation.
Is this fantasy?
http://www.youtube.com/watch?v=q_o3-wNv7Ko
...or this....
http://www.youtube.com/watch?v=o6uxKCYu6aQ
Both show cold, no-pressure boilers being fired. Your description may have pertained to busy Class 1's where the locomotive may have been inside a roundhouse, or near to a stationary plant, but engines out in a parking track that needed to be hostled without being moved to a steam source first had to be fired this way. Depending on the volume of water to be heated, and on the railroad's policies, and on the condition of the boiler, the process can be accomplished in as little as 5 hours and anywhere on up, probably not more than 12 hours.
You can count the number of present-day steam operations that have access to a power plant for preheating their locomotives on the fingers of your left elbow. Even in steam's heyday, most locos that had to be fired from zero were not connected to an external source of steam first.
Granger railroads frequently stored unneeded locomotives, stone cold with boilers drained, for months, only firing them for the rather brief period when the harvest had to be moved RIGHT NOW.
In the hands of reasonably skilled, experienced engine men, firing a cold locomotive was NEVER a half assed, slipshod operation. If Mark Newton (who had a number of cold firings under his belt) was still on this forum he would undoubtedly have some rather blunt comments about your choice of words.
Well... yes and no... but tdmidget does bring up a good point. Certainly, for a railroad of any size that had the facilities, it was normal practice to use a stationary boiler to heat up or even keep loco boilers hot while they received some repairs. However, this link is a valid description of the process used to fire up a steam locomotive at a museum that operates somewhat infrequently. This process would have been pretty similar to what you might have seen on a shortline or logging railroad when they fired up a steamer cold - say, if it had been down for repairs, or the monthly boiler inspection / washing, or if the railroad only ran a couple of times in a week. These types of lines often didn't have the facilities to warm up the engine from a stationary boiler. Admittedly, for a shortline that ran twice weekly, the boiler would probably still be warm but the pressure would still be nothing or pretty close to it... so the process would still be about the same. Is it harder on a boiler than a gentle preheating from the powerhouse? Sure... but you do what you got to do! Plus, the kerosene burner described in the link probably doesn't put out anywhere near the heat that the boiler's atomizer is capable of under full load, so I don't think that the heat - or rate of firing described - is excessive (just my opinion, YMMV). For instance, if the turrent was supplied with air pressure to run the blower and atomizer at full capacity from cold, then you would probably see problems due to thermal stress start to show up in the boiler.
Not exactly the same size of boiler, but I used to fire a 1914 Case traction engine. Even when we were running for several days in a row, we would let the fire go out overnight since we didn't have a hostler to babysit it. The next day it would still be nice and warm, but pressure would be zero. I would build a new fire and slowly get it up to pressure without any artificial draft until I could run the blower. Since it was a farm engine, I'm sure this was how it was used through its life. Still had the original boiler with no major repairs. Again, not the same as a big locomotive, but just an example to show that a boiler doesn't have to be damaged if it is properly fired from dead cold without any preheat.
Anyway, just my two cents... I'm enjoying the discussion & link!
- James
In his book "One Man's Locomotives", Vernon Smith had a good section on starting up an 0-6-0 iron mine switcher as a fireman in the late twenties. He describes starting a fire with "waste" and oil, then adding coal from bags kept by the enginehouse. Water was fed to the tank with a hose. In a few hours the fire would be hot enough to move the engine to a central location with a coaling tower and water tank.
Do a Googe Search for the phrase:
How to boot a steam locomotive
there are several places where people have written about it. One of my favourite ones is:
http://www.sdrm.org/faqs/hostling.html
Semper Vaporo
Pkgs.
Before anything, the firebox interior must be inspected for broken staybolts and leaking flue pipes.
Assuming there is some water in the boiler, and that it can be topped up during the initial firing, you can use a large kerosene tiger torch and run a small fan atop the stack to generate flow through the flues to the smokebox.
Once the boiler has some heat and a few pounds of pressure, say 15 pounds or so, you can begin to heat the fuel oil if it is an oil burner. If a wood/coal burner, you start the fire with kindling, old cottage chairs, broomsticks, or whatever you have, get a decent fire going, and then heap coal until you have a burning coal bed. In either case, the actual fire lighting is accomplished with a burning piece of cotton waste or a rag held out near the hot fire or the atomizer and perhaps tossed down onto or near either of them. Then turn on the atomizer....it isn't on already. Oh, and stand back, too.
Care must be taken not to get a few of the flues hot before the others because the differential expansion will strain the welds. So the fire must be expertly started and then managed to get the crown sheet, rear boiler flue-sheet, and the flues warming very close to concurrently and evenly. A big no-no would be to build a hot fire and forget to ensure that water inside the boiler was covering the crown sheet.. It gets very hot, and if cold water is suddenly injected into the boiler in large quantities, the crown sheet could become shocked and break. That might not be a big problem with a largely cold and depressurized boiler that is still in the early stages of heating, but three hours later it would mean scalding, maybe death, maybe a massive explosion.
That's about as much as I (think I) know.
How is the fire started in the cold firebox of a steam locomotive that has been unused for a while?
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