blue streak 1 Deggesty In January of 1958, I rode from Chattanooga to Bristol, leaving Chattanooga about 4:00 in the morning. As I boarded, I noticed men working on the lines under the cars, using a steam hose--it was cold that morning, but the coach was warm inside. I added some Clinchfield track before we reached Bristol; there had been a derailment south of Bristol, so we detoured over the Clinchfield from Johnson City to Frisco, Virginia, back to the Southern there and in to Gate City, and thence to Bristol. The engine was run around to the rear in Johnson City and back to the head end in Gate City. Deggestry: A question that often popped up when passenger trains diverted over other routes. Did you notice if any mail was left or picked up in either Kingsport or Gate City. ? I remember a RPO cleark telling me that those cities were sorted on the trains 45 and 46 mail cars from Chattanooga - Bristol ( PO crew change ) - WASH. Also did you get to meet the Clinchfield or SOU RR ( applachian division ) pilot crews ? EDIT Guess you got to transit natural tunnel. How late in Bristol ?
Deggesty In January of 1958, I rode from Chattanooga to Bristol, leaving Chattanooga about 4:00 in the morning. As I boarded, I noticed men working on the lines under the cars, using a steam hose--it was cold that morning, but the coach was warm inside. I added some Clinchfield track before we reached Bristol; there had been a derailment south of Bristol, so we detoured over the Clinchfield from Johnson City to Frisco, Virginia, back to the Southern there and in to Gate City, and thence to Bristol. The engine was run around to the rear in Johnson City and back to the head end in Gate City.
In January of 1958, I rode from Chattanooga to Bristol, leaving Chattanooga about 4:00 in the morning. As I boarded, I noticed men working on the lines under the cars, using a steam hose--it was cold that morning, but the coach was warm inside.
I added some Clinchfield track before we reached Bristol; there had been a derailment south of Bristol, so we detoured over the Clinchfield from Johnson City to Frisco, Virginia, back to the Southern there and in to Gate City, and thence to Bristol. The engine was run around to the rear in Johnson City and back to the head end in Gate City.
Deggestry: A question that often popped up when passenger trains diverted over other routes.
Did you notice if any mail was left or picked up in either Kingsport or Gate City. ? I remember a RPO cleark telling me that those cities were sorted on the trains 45 and 46 mail cars from Chattanooga - Bristol ( PO crew change ) - WASH.
Also did you get to meet the Clinchfield or SOU RR ( applachian division ) pilot crews ?
EDIT Guess you got to transit natural tunnel. How late in Bristol ?
It was after lunch (I do not remember just how much) before we arrived in Bristol. The diner opened for lunch some time before we arrived in Gate City. I would say we were perhaps four hours late. I do know that after detraining, I walked across State Stree, stood by the defaced sign at the base of the watchman's tower (the sign read "Now Loafing is Allowed") and took the city bus out to the college.
Johnny
BaltACD Erik_Mag NP Eddie As information, the Great Northern used 40' box cars (about 6 or 7) as air repeater cars for their winter operations. Trains had a short article on theose cars sometime (IIRC) in the latter half of the 60's. Stated reason was to reduce the time to pump up the air in cold weather as it could take a better part of an hour without the cars to assist. When I was a kid (1950's), and my Dad was a Trainmaster, I can recall numerous occasions when he got mad as some train or the other pumped air for the entirety of the Hours of Service woking time and still weren't able to create enough pressure on the caboose to be able to leave the terminal on bitterly cold nights in Northern Indiana. One thing that wasn't common in those days were air dryers treating the output from the air pumps. Without dryers water vapor in the air would get turned into enhanced water vapor in the trainline - in super cold temperatures, freezing of the trainline and/or air brake valves did happen. Adding alcohol to the air pumps intake was the 'fix' at the time. Today's locomotives and air sources all have air dryers in their system - alcohol is forbidden in trainlines these days.
Erik_Mag NP Eddie As information, the Great Northern used 40' box cars (about 6 or 7) as air repeater cars for their winter operations. Trains had a short article on theose cars sometime (IIRC) in the latter half of the 60's. Stated reason was to reduce the time to pump up the air in cold weather as it could take a better part of an hour without the cars to assist.
NP Eddie As information, the Great Northern used 40' box cars (about 6 or 7) as air repeater cars for their winter operations.
As information, the Great Northern used 40' box cars (about 6 or 7) as air repeater cars for their winter operations.
Trains had a short article on theose cars sometime (IIRC) in the latter half of the 60's. Stated reason was to reduce the time to pump up the air in cold weather as it could take a better part of an hour without the cars to assist.
When I was a kid (1950's), and my Dad was a Trainmaster, I can recall numerous occasions when he got mad as some train or the other pumped air for the entirety of the Hours of Service woking time and still weren't able to create enough pressure on the caboose to be able to leave the terminal on bitterly cold nights in Northern Indiana.
One thing that wasn't common in those days were air dryers treating the output from the air pumps. Without dryers water vapor in the air would get turned into enhanced water vapor in the trainline - in super cold temperatures, freezing of the trainline and/or air brake valves did happen. Adding alcohol to the air pumps intake was the 'fix' at the time. Today's locomotives and air sources all have air dryers in their system - alcohol is forbidden in trainlines these days.
Never too old to have a happy childhood!
Lithonia Operator I am very curious to see what the findings will be. That train had been in emergency. All the brakes should have been fully applied, right? I also read that 84 retainers had been deployed, but I'm a bit foggy on how much (or even if) that would affect a standing train.
I am very curious to see what the findings will be.
That train had been in emergency. All the brakes should have been fully applied, right? I also read that 84 retainers had been deployed, but I'm a bit foggy on how much (or even if) that would affect a standing train.
Freight car air brake control valves are direct release. They cannot be partially released, and the reservoirs cannot be recharged without releasing the brake application. The retainer is located at the end of the exhaust pipe from the brake cylinder, and when set to the "high pressure" position it will keep some air pressure (~20 PSI, about the same as a minimum application of the automatic brake) in the brake cylinder. The other position on the retainer, "slow direct", allows the brake to release completely but takes a longer time to do so. The purpose of this position is to allow the train to be recharged 'on the fly', without stopping.
I work for CN, not CP, so obviously have never been on the Field Hill. But in my experience working on other mountain grades a minimum application of the automatic brake would probably not be enough to hold a loaded train stationary on a grade of over 2%.
I suspect the rationale behind CP's policy at the time was to allow for the train to start down the grade while being held back by a combination of dynamic braking and the limited braking effort provided by the retainers. Ideally, the train would accelerate slowly enough that it would regain enough of a charge to be controlled by the time it attained 10 mph.
But there is no guarantee this would occur, especially on a bitterly cold night with a train that had already exhibited braking problems.
Lithonia Operator Isn't low pressure in the brake reservoirs the only possible culprit? Does severely cold weather cause much more leakage than usual? If so, why? IIRC the train had been sitting there for three hours.
Isn't low pressure in the brake reservoirs the only possible culprit? Does severely cold weather cause much more leakage than usual? If so, why? IIRC the train had been sitting there for three hours.
Joints in a car's air brake system are predominantly metal-on-metal seals or rubber gaskets. In the cold rubber becomes brittle and everything shrinks, causing leaks. The rubber packing cup that forms a seal around the piston inside the car's brake cylinder is of particular note in this case. If this part does not seal perfectly the air brake application will leak off, and there is no way to know in advance exactly how long this will take.
Lithonia Operator Could the reservoirs have been low on pressure from a brake application shortly before the final stop where the crew change happened, and the first crew never let the engines pump the reservoirs back up? (seems highly unlikely to me) Am I remembering correctly that no hand brakes had been applied? I'll go back and read the threads here on this.
Could the reservoirs have been low on pressure from a brake application shortly before the final stop where the crew change happened, and the first crew never let the engines pump the reservoirs back up? (seems highly unlikely to me) Am I remembering correctly that no hand brakes had been applied?
I'll go back and read the threads here on this.
That is possible, I am not aware of how the train was operated before it reached the summit of Kicking Horse Pass. But I find it unlikely that the Engineer would have started down the 'Big Hill' without first ensuring that the train was fully recharged, or at least as fully charged as it could be in the cold weather. I would think the climb upgrade from Lake Louise should have been a long enough time for the train to recharge, regardless of what had happened before then.
You are correct that no handbrakes were applied after the train stopped in emergency.
Good luck with the forums' search function. I would suggest using Google, and adding "cs.trains.com" after your search terms.
Greetings from Alberta
-an Articulate Malcontent
Lithonia Operator On a related topic: Has the final report on the Spiral Tunnels tragedy been released? I'm thinking not.
On a related topic:
Has the final report on the Spiral Tunnels tragedy been released? I'm thinking not.
It will be some time yet. Probably another year, plus delays from pandemic-related work restrictions.
The TSB has also not yet released their report on another runaway (without injuries or fatalities, so it didn't make the news) caused by air brake failure, which happened on CN a year before the fatal CP incident.
Overmod samfp1943 Years ago, the locomotive 'control system' used by Southern Rwy [ie: possibly Locotrol(?)] was mounted in a boxcar to provide an engineer control of a train's DPU's. Is this CN 0001 something like that? Much 'closer to home' the 'other' Canadian carrier (CP) is famous for 'robot' midtrain control cars. The CN idea is to provide 'easily loaded and connected' additional recharge, presumably at much higher volume and greater long-term reliability than a little locomotive compressor, in what may be cold weather on critical grades. I presume it also includes DPU-like ability to vent the trainpipe to accelerate both service and emergency applications. (It would not need 'radio' to accomplish that; the 'shockwave' propagating down the trainline after an emergency application would trigger further volume release to start setting up individual cars outward from the 'container' within the time of propagation at the effective speed of sound in the trainline -- I think quicker in cold weather. In my opinion it's good common sense to put this in a container, adequately insulated, sledded, and shockproofed, as a great deal of deployment flexibility is realized thereby (instead of using a boxcar or old baggage car or B-unit arrangement). Nothing more complicated than a single spine underframe or single well would be needed to run it like one of the CP robots anyway. If more than one is needed in a consist ... dray it in if needed and have the intermodal loading equipment drop it in for carmen (riding the dray if necessary) to connect up in a few minutes. Presumably deadhead or transfer moves (for example traffic asymmetry) can be easily handled by dropping the container on the next available space on an intermodal consist -- even easier if the thing is within weight and balance to be doublestacked, as I suspect it would be. I suspect these are not just 'dumb' but have antennas and repeater equipment to serve as 'range extenders' for DPU signals. It would be missing not one but several bets not to include radio functionality... On the other hand, as more and more locomotives 'come' with DPU capability installed, there is progressively lower reason to be able to hook non-DPU consists up via MU to a robot to make them effective remote midtrain slaves or helpers. And the use of some dedicated car, or road slug, to connect to temporary helpers is still often a better choice than a container which may be within an intermodal block or on an articulated underframe.
samfp1943 Years ago, the locomotive 'control system' used by Southern Rwy [ie: possibly Locotrol(?)] was mounted in a boxcar to provide an engineer control of a train's DPU's. Is this CN 0001 something like that?
Much 'closer to home' the 'other' Canadian carrier (CP) is famous for 'robot' midtrain control cars.
The CN idea is to provide 'easily loaded and connected' additional recharge, presumably at much higher volume and greater long-term reliability than a little locomotive compressor, in what may be cold weather on critical grades. I presume it also includes DPU-like ability to vent the trainpipe to accelerate both service and emergency applications. (It would not need 'radio' to accomplish that; the 'shockwave' propagating down the trainline after an emergency application would trigger further volume release to start setting up individual cars outward from the 'container' within the time of propagation at the effective speed of sound in the trainline -- I think quicker in cold weather.
In my opinion it's good common sense to put this in a container, adequately insulated, sledded, and shockproofed, as a great deal of deployment flexibility is realized thereby (instead of using a boxcar or old baggage car or B-unit arrangement). Nothing more complicated than a single spine underframe or single well would be needed to run it like one of the CP robots anyway. If more than one is needed in a consist ... dray it in if needed and have the intermodal loading equipment drop it in for carmen (riding the dray if necessary) to connect up in a few minutes. Presumably deadhead or transfer moves (for example traffic asymmetry) can be easily handled by dropping the container on the next available space on an intermodal consist -- even easier if the thing is within weight and balance to be doublestacked, as I suspect it would be.
I suspect these are not just 'dumb' but have antennas and repeater equipment to serve as 'range extenders' for DPU signals. It would be missing not one but several bets not to include radio functionality... On the other hand, as more and more locomotives 'come' with DPU capability installed, there is progressively lower reason to be able to hook non-DPU consists up via MU to a robot to make them effective remote midtrain slaves or helpers. And the use of some dedicated car, or road slug, to connect to temporary helpers is still often a better choice than a container which may be within an intermodal block or on an articulated underframe.
The boxcars and containers both work the same, and are commonly referred to as "air cars" on the property. Both types link to the lead locomotive using the DP computer system, and show up as a remote consist on the computer screen. I have only limited experience with them, but they are supposed to work just like the air brake system of a remote locomotive, and I haven't heard a lot of complaints about them.
In fact, the main complaint I have heard is that Engineers don't get paid the DP bonus claim (one hour's pay) for operating a train with an air car, the Company's rationale being that they do not provide "power".
I haven't personally seen one in a intermodal well car yet, but it could have happened. As you say it would be quite easy to do, and well cars already have a place to connect yard air into the brake pipe in the middle of the car.
I believe that DP locomotives already repeat radio signals to each other when you have multiple remote consists in one train, so it would seem logical that the air cars should do this too.
The air cars do not have MU connections, so they cannot function like the Locotrol I Robot cars.
As information, the Great Northern used 40' box cars (about 6 or 7) as air repeater cars for their winter operations. I worked in the BN's Northtown Diesel Material from 1981 to about 1985 and saw approximately 6 50' plug door (former BN) box cars also fitted with a diesel engine and air pump. Northtown Diesel was the shop chosen to maintain all the cars. About July or August, a pipefitter (who dealt with air pumps) would order two or three cars to Northtown Caboose Track 2 for checking and winterizing the cars. After he was done with those cars, Diesel Control would order each car to Grand Forks, Havre, or other terminal for the winter operation of those cars. In the spring, the cars returned to Northtown for summer storage.
Ed Burns from Northtown Yard.
I think it is less about the capability of the compresser and more of a function of total train line which is the limitation.
blue streak 1place that unit 2/3rds back in the train then the front locos and it can each pump up 1/3 of a train.
But it wouldn't work that way. The 'midtrain' unit would be pumping into both 'thirds' of the train adjacent to it equally, with the pressure becoming asymmetrical as 'contribution' from the two locomotives on the front eventually starts reaching the middle third of the train consist.
Situation is a bit different if you were to prevent the DPU from pumping into the trainline 'ahead', so it only does 1/3 of the recharge while the other 2/3 is handled (effectively 1/3 apiece in air mass-flow terms) by the head end power. But a moment's reflection will begin to show problems in practice -- big, illegal, irrational sorts of problems, if you were to ask me -- with setting up Westinghouse one-pipe accelerated-release brakes to let you do that.
To accomplish what you want would be to put two DPUs at the 2/3 point in the consist, with only a single engine on the point. That should give you the rough 'one-third apiece' effect, but you would start getting some interesting effects with node runout and runin that wouldn't occur to the same extent with power biased toward the front. Some of the folks with real-world Locotrol experience can comment on how well this would work for train handling.
place that unit 2/3rds back in the train then the front locos and it can each pump up 1/3 of a train. That function has become a good charastic of DPU consists. DPU On back of train has front and rear each charge up about half of a train, That is what shoud have been done on the CP runaway among other items.
samfp1943Years ago, the locomotive 'control system' used by Southern Rwy [ie: possibly Locotrol(?)] was mounted in a boxcar to provide an engineer control of a train's DPU's. Is this CN 0001 something like that?
Lithonia OperatorIs this for pumping up the brake pipe, now that we have such long trains?
I think these cars predate the current trend toward long trains - being due instead to the cold temperatures in the north country.
Larry Resident Microferroequinologist (at least at my house) Everyone goes home; Safety begins with you My Opinion. Standard Disclaimers Apply. No Expiration Date Come ride the rails with me! There's one thing about humility - the moment you think you've got it, you've lost it...
Is this for pumping up the brake pipe, now that we have such long trains?
Is it a diesel engine (not locomotive) with a compressor? And it's radio-controlled?
samfp1943Kinda strange looking: Is it simply an large air tank supply(with some sort of control gear)? Is there an auxiliary diesel engine to provide tha air supply?
As I recall, they've been using specially equipped boxcars for the same purpose for years.
Kinda strange looking: Is it simply an large air tank supply(with some sort of control gear)? Is there an auxiliary diesel engine to provide tha air supply?
Years ago, the locomotive 'control system' used by Southern Rwy [ie: possibly Locotrol(?)] was mounted in a boxcar to provide an engineer control of a train's DPU's. Is this CN 001 something like that? Or just use a regular locomotive in DPU ? This looks, sort of like, a problem looking for a solution.
CN 0001 the latest thing in CN equipment. Distributed Braking Container for mid-train air brake use.Winnipeg 2/01/2019 Taylor Woolston
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What makes you think I'm not?
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