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The non "You know what" challenge thread

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Posted by mudchicken on Wednesday, June 3, 2020 10:36 AM

The rail unloading machines are a recent (last 10 years) creation. I'm still surprised they have any capability to move a loaded rail train. There are quite a few unemployed power threaders and rail unloading sets (3-car) hanging around Pueblo [Baxter] looking for work.

Most rail trains have two tie-down cars and only one is used (the other is for mini-rail train use and unusual circumstances). "Cages" on the end cars will set off strobe lights to stop the train if touched by a loose rail that normally would clear the cage doors by six feet. Most tie down cars use 16 bolts/nuts per rail to hold the rail in place. Tie down cars have air impact wrenches that run off train air plus small generators for lights, etc.

Most of the rail racks are friction only (greased before loading) and rollers about every 4th or 5th rack (frequently rust seized)... 

Most of the buffer cars for these rascals are old reefer cars filled with sawdust and old woodchips....OK until the soft creme filling gets wet in a leaky car and festers for a while in the heat -Ick!

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Posted by samfp1943 on Tuesday, June 2, 2020 11:37 AM

BaltACD

There is a 'lock' car near the middle of the train - rails are locked into position on that car and that car alone.  All the other cars in the train have roller or slider systems that will let the rails move in their assigned channels on those cars as necessary when traversing curves.  When time comes to unload the rails, the suitable lock on the particular rail is released and the rail is unloaded as MofW desires.  Rails will be unlocked one or two at a time in concert with MofW's unloading program.

When rails are loaded, they are threaded through specific empty channels and when completed, the rail will be locked down on the 'lock' car.

  The following linked site is from a HERZOG Co. site and has a lot of photos of what they describe as their R.U.M.  [Rail Unloading Machine]   It shows a lot of clear photos of the truck mounted machine and also sows some of the processes involved in the unloading of CWR and a pretty good ophoto of that 'Lock Car' described in this Thread.

See linked site @  https://www.herzog.com/innovation/continuous-welded-rail-distribution-machine/

I have witnessed this CWR operation unloading around here, a couple of times, on BNSF in Wichita area.

 

 

 


 

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Posted by tree68 on Tuesday, June 2, 2020 9:56 AM

Murphy Siding
Or maybe limited in speed around certain corners? The one rail train I saw locally was going slow through town and screeching around a corner.

As an example, the transfers (wyes) at Deshler are limited to 10 mph for all trains.

Most trains (and especially heavily loaded cars) will squeal on such tight curves.  Has to do with the solid axles.

 

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Posted by CShaveRR on Tuesday, June 2, 2020 8:32 AM

On the UP, loaded rail trains are limited to 40 m.p.h. (empties to 50).  This was as of 2016.

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Posted by Murphy Siding on Tuesday, June 2, 2020 7:31 AM

jeffhergert

The rail trains have a way of 'tying' down the rail for movement.  It stops the rail from coming off the train, but allows some 'flex' room for going around curves.  Still, they do use a buffer car just in case the tie down fails.

One time I had a loaded rail train that was just passing through our area.  Train managment called and asked what we showed for an air slip, where the last location was at.  We told them the location on the slip, which was also what showed on our paperwork and in the computer system.  They were afraid of that, it needed an intermediate inspection and test.  (A 'thousand miler' test.)

We pulled into the old CNW yard at Council Bluffs.  A car man got on and asked what do we do if he finds something?  I just shrugged.  What he meant was that finding something out of regulation on one car that can't be repaired in place could sideline the whole train.  You can't just set out an offending car, for reasons obvious in Balt's picture.

He started the test and inspection.  It wasn't long before he called another car man.  He said to bring a lot of brake shoes, about all he could find.  Eventually, they finished the test and inspection, lifted the blue flags and gave us a new air slip and we were on our way.

Jeff  

 

Is a rail train limited in top speed? Or maybe limited in speed around certain corners? The one rail train I saw locally was going slow through town and screeching around a corner.

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Posted by BaltACD on Monday, June 1, 2020 10:43 PM

There is a 'lock' car near the middle of the train - rails are locked into position on that car and that car alone.  All the other cars in the train have roller or slider systems that will let the rails move in their assigned channels on those cars as necessary when traversing curves.  When time comes to unload the rails, the suitable lock on the particular rail is released and the rail is unloaded as MofW desires.  Rails will be unlocked one or two at a time in concert with MofW's unloading program.

When rails are loaded, they are threaded through specific empty channels and when completed, the rail will be locked down on the 'lock' car.

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Posted by jeffhergert on Monday, June 1, 2020 9:39 PM

The rail trains have a way of 'tying' down the rail for movement.  It stops the rail from coming off the train, but allows some 'flex' room for going around curves.  Still, they do use a buffer car just in case the tie down fails.

One time I had a loaded rail train that was just passing through our area.  Train managment called and asked what we showed for an air slip, where the last location was at.  We told them the location on the slip, which was also what showed on our paperwork and in the computer system.  They were afraid of that, it needed an intermediate inspection and test.  (A 'thousand miler' test.)

We pulled into the old CNW yard at Council Bluffs.  A car man got on and asked what do we do if he finds something?  I just shrugged.  What he meant was that finding something out of regulation on one car that can't be repaired in place could sideline the whole train.  You can't just set out an offending car, for reasons obvious in Balt's picture.

He started the test and inspection.  It wasn't long before he called another car man.  He said to bring a lot of brake shoes, about all he could find.  Eventually, they finished the test and inspection, lifted the blue flags and gave us a new air slip and we were on our way.

Jeff  

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Posted by tree68 on Saturday, May 30, 2020 6:06 AM

Lithonia Operator
I'm having trouble envisioning this. What would cause a string to move back towards the "anchor" locomotive? Some kind of stretch-then-recoil force?

I'm pretty sure the rails are on rollers.  If there is no way to restrict their movement, once they get rolling, they're going to continue rolling (each rail weighs ~25 tons, depending on weight).  Once the rail begins moving, game on.  (Newton, and all that)

Add the possibility of a slight grade and you've compounded the problem.

I would imagine the car that Balt mentions has some method of clamping on the rail to stop its movement.

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Posted by BaltACD on Friday, May 29, 2020 10:43 PM

Murphy Siding
 
Lithonia Operator 
SD70Dude
CN used to unload the rail by anchoring it to a second locomotive behind the rail train, and then having the lead locomotive pull the train ahead slowly.  That practice ended after a string got away and smashed into the rear locomotive's cab, killing the Engineer. 
I'm having trouble envisioning this. What would cause a string to move back towards the "anchor" locomotive? Some kind of stretch-then-recoil force? 

And an add-on question. How do they do it differently now? I presume they put in a buffer car or two?

CSX uses a 'threader car' on one end of their rail trains for use in loading and unloading the trains in the field.  The rail trains must be operated with the threader car on the 'right' end for the work the train is to perform at its designated location(s).

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Posted by Murphy Siding on Friday, May 29, 2020 9:46 PM

Lithonia Operator

 

 
SD70Dude
CN used to unload the rail by anchoring it to a second locomotive behind the rail train, and then having the lead locomotive pull the train ahead slowly.  That practice ended after a string got away and smashed into the rear locomotive's cab, killing the Engineer.
 

 

 
I'm having trouble envisioning this. What would cause a string to move back towards the "anchor" locomotive? Some kind of stretch-then-recoil force?
 
 
 

And an add-on question. How do they do it differently now? I presume they put in a buffer car or two?

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Posted by MMLDelete on Friday, May 29, 2020 3:43 PM

SD70Dude
CN used to unload the rail by anchoring it to a second locomotive behind the rail train, and then having the lead locomotive pull the train ahead slowly.  That practice ended after a string got away and smashed into the rear locomotive's cab, killing the Engineer.

 
I'm having trouble envisioning this. What would cause a string to move back towards the "anchor" locomotive? Some kind of stretch-then-recoil force?
 
 
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Posted by jeffhergert on Sunday, May 24, 2020 7:35 PM

SD70Dude

CN's rules specifically prohibit the "gravity stretch".  So you have to go through the motions on the radio anyway.

A few years ago we got a bulletin with instructions on how to visually tell whether or not the pins have dropped, but a powered stretch is still required. 

 

Yeah, we're required to also stretch the joint.  Even when it can plainly be seen that the joint made because of the slack action sometimes involved.

The other day we had to make a rear end pickup on a 9000 ft train.  When stretching the joint we came apart close to the rear of our existing train (before the pickup) because of a faulty pin lifter lever.  A car man was called and repaired it.  Once ready to recouple, the utility brakeman working with us said to 'pin back' 15 feet to a joint.  I started moving back.  The engines had moved a couple of cars when he finally said all moving - 15 ft to a hook.

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Posted by Convicted One on Sunday, May 24, 2020 11:46 AM

BaltACD

A knuckle is a terrible thing to break

 

So, does anybody know what ultimately was done to clean this up?  My intuition tells me they would have selected the option that reopened the line the quickest, which I suspect involved cutting it up.

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Posted by tree68 on Sunday, May 24, 2020 11:22 AM

zugmann

The trick is to hit them hard enough so they stretch themselves. Whistling

I've had a couple of engineers like that...

I had one engineer who was very proud of his "light touch" hitch once (occupied passenger cars during a run-around).  Until I told him to go back out and try it again...  

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Posted by zugmann on Sunday, May 24, 2020 11:13 AM

SD70Dude
CN's rules specifically prohibit the "gravity stretch".  So you have to go through the motions on the radio anyway.

Not really a gravity stretch.  It's a powered stretch. 

It's been fun.  But it isn't much fun anymore.   Signing off for now. 


  

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Posted by SD70Dude on Sunday, May 24, 2020 10:56 AM

CN's rules specifically prohibit the "gravity stretch".  So you have to go through the motions on the radio anyway.

A few years ago we got a bulletin with instructions on how to visually tell whether or not the pins have dropped, but a powered stretch is still required. 

Greetings from Alberta

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Posted by zugmann on Sunday, May 24, 2020 8:10 AM

The trick is to hit them hard enough so they stretch themselves. Whistling

It's been fun.  But it isn't much fun anymore.   Signing off for now. 


  

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Posted by SD70Dude on Saturday, May 23, 2020 11:44 AM

Murphy Siding

     I watched a crew pull an empty lumber car out of our yard today. The conductor on the ground directed the engineer in until the engine coupled with the car. He then had the engineer back up to take out the slack before connecting hoses. Why the back up?

     The conductor also walked to the other end of the car and appeared to do something with the end of the brake hose. He also did something that held the hose up so it wouldn't drag on the ground. (I watched from a couple hundred feet back, as I know I don't care for people watching me while I work.)

Stretching is required by the rulebook.  Failure to do so each and every time can result in a failed efficiency test, discipline, or dismissal.  I think that particular rule is overkill, as one can easily see whether or not the pins have dropped.  I have never seen a joint turn out to be bad after seeing both pins drop, but I have seen a number of joints pass the stretch test, only to fail later on because the pin did not drop completely.  That situation has led to at least three derailments that were investigated by our TSB, including the fatal runaway that shut down the Englewood Railway (North America's last logger).

An air hose or anything else hanging down below rail height will set off dragging equipment detectors.  

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Posted by Overmod on Saturday, May 23, 2020 10:48 AM

BaltACD
Disturbed track structure - from the subgrade to the top of the rail is somewhat akin to having constructed something on top ball bearings - everything has movement potential in its relation to its neighbor.  The running of tonnage trains act as a vibrator to ease all the elements of the track structure into stable, lasting relations with its neighbor.  The vibratory effects of increasing amounts of tonnage stabilize the track structure for increasingly higher speeds.

To make what Balt is saying a bit clearer: Both vibration and vertical compression are important in achieving compaction.  The situation is a little different from concrete vibratory compaction where weight is less critical in achieving the desired effect (as you have a semiliquid that subsequently chemically sets up).

One approach that was tried for subgrade is so-called roller-compacted concrete (RCC) which is like a very harsh aggregate mixture that gains its strength more from rolled compression rather than vibratory screeding or whatever, and (perhaps more importantly) is 'self-healing' when it is displaced or moved in place.  In railroad applications you DO provide further vibratory compression of this material, but that is done far more effectively with multiple passing trains than at the time of placement.

(Incidentally a layer of asphalt over this sort of RCC turned out to be the 'best use of asphalt in railroad construction' that was a contest  in the mid-Seventies ... it keeps any 'draining' water preferentially out of the subgrade, but you have to be VERY careful to keep it from reaching its softening temperature ... or you'll start to get the mother of all sun kinking.) 

I have to wonder whether the relatively recent vast improvement in some heavy unit-train running (I routinely see loaded coal trains at 40mph that are barely perceptible in terms of running shock or noise) makes the process of compaction slower or less reliably certain.  The weight is certainly there.

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Posted by BaltACD on Saturday, May 23, 2020 8:13 AM

jeffhergert
 
Overmod 
Murphy Siding
Am I reading this right? There could be a slow ordered track where the train speed could be increased after part of the train has passed over it? 

See the discussion about trestles being filled in.

When track has been repaired or modified, it has to be 'settled in' to pack everything,   As the weight and vibration of the train can be highly effective in accomplishing this ... but the track geometry still variable until it has been substantially achieved ... it is not unusual for there to be a slow order until xxx tons have passed over the repair or whatever to compact it.

One can easily understand why this is a 'statutory' number and not some science-based index resulting from periodic track measurements; one can also understand why a continuous train control that is tracking the number of tons might be programmed to (1) cancel the slow order the moment the critical "ton" passes over, and (2) communicates the lifting directly to the train crew so they can resume normal PSR speed. 

Yes these locations are 'disturbed' track locations.  Places where work, such as changing out ties, has been done.  Generally, ours are 15mph for so many tons, than 30mph, then 45mph, then 60mph, then removed.  (Using an example where max speed is 70mph.)  Every increase is after x amount of tons.

Now, the dispatcher's computer must keep track of how many tons have passed over the spot.  It will upgrade to the next higher speed after calculating the magic number has been reached.  What happens is it's communicated to PTC, which updates the slows in the engine's on-board computer.  When this happens we ask the dispatcher if the speed has been raised.  Sometimes the answer is no, our train needs to fully pass over the spot before it's effective.  PTC/CAD justs jumps the gun on raising the speed.

Likewise, a track foreman who's standing at the spot can't raise the speed to the train if the restriction was issued by the dispatcher.  I've had a dispatcher issue is a 10mph slow because a previous train reported rough track.  The track foreman arrives and watches us enter the restricted spot.  He wants to see how the train rides at 25mph and asks us to increase speed.  Unless the dispatcher says to be governed by the employee in charge, the speed issued by the dispatcher has to be followed.  Had the track foreman issued the original restriction, he could authorize a higher speed. 

Jeff 

As of the time of my retirement, CADS was not equipped with any form of automatic upgrade to speed restrictions implemented account of disturbed track conditions following track work.  MofW issues and up grades the restrictions based on their keeping data on the trains that are operated over those track segments, data they obtain in conversation with the Train Dispatcher.  On CSX, passenger trains did not count in the tonnage calculations, whenever possible, passenger trains would be operated around disturbed track segments in efforts to minimize delays to them.  Qualified MofW personnel will inspect the track after the passage after the passage of the required amount of tonnage and if warranted will raise the speed of the restriction to the next level of the cascade.  Raising the speed of the restriction is not a automatic function - each upgrade to any speed restriction must be a result of inspection by a qualified inspector.

The 'Filling in a trestle' thread has discussions about soil compaction.  The cascade of slow orders when operating over distrubed track is a strategy to provide 'compaction' to the recently uncompacted track structure.  Disturbed track structure - from the subgrade to the top of the rail is somewhat akin to having constructed something on top ball bearings - everything has movement potential in its relation to its neighbor.  The running of tonnage trains act as a vibrator to ease all the elements of the track structure into stable, lasting relations with its neighbor.  The vibratory effects of increasing amounts of tonnage stabilize the track structure for increasingly higher speeds.

Insights from a incident in 2002

https://www.ntsb.gov/investigations/AccidentReports/Reports/RAB0405.pdf

 

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Posted by Deggesty on Saturday, May 23, 2020 8:00 AM

As to stretching after coupling, I have noticed it when private cars were added to Amtrak #5 in Denver. I was not on the ground, watching, but I could tell what was being done--and it seemed that whoever was doing the coupling was having trouble really coupling, what with three or four back and forth moves. I noticed this on more than one trip.

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Posted by jeffhergert on Saturday, May 23, 2020 3:24 AM

Overmod

 

 
Murphy Siding
Am I reading this right? There could be a slow ordered track where the train speed could be increased after part of the train has passed over it?

 

See the discussion about trestles being filled in.

When track has been repaired or modified, it has to be 'settled in' to pack everything,   As the weight and vibration of the train can be highly effective in accomplishing this ... but the track geometry still variable until it has been substantially achieved ... it is not unusual for there to be a slow order until xxx tons have passed over the repair or whatever to compact it.

One can easily understand why this is a 'statutory' number and not some science-based index resulting from periodic track measurements; one can also understand why a continuous train control that is tracking the number of tons might be programmed to (1) cancel the slow order the moment the critical "ton" passes over, and (2) communicates the lifting directly to the train crew so they can resume normal PSR speed.

 

Yes these locations are 'disturbed' track locations.  Places where work, such as changing out ties, has been done.  Generally, ours are 15mph for so many tons, than 30mph, then 45mph, then 60mph, then removed.  (Using an example where max speed is 70mph.)  Every increase is after x amount of tons.

Now, the dispatcher's computer must keep track of how many tons have passed over the spot.  It will upgrade to the next higher speed after calculating the magic number has been reached.  What happens is it's communicated to PTC, which updates the slows in the engine's on-board computer.  When this happens we ask the dispatcher if the speed has been raised.  Sometimes the answer is no, our train needs to fully pass over the spot before it's effective.  PTC/CAD justs jumps the gun on raising the speed.

Likewise, a track foreman who's standing at the spot can't raise the speed to the train if the restriction was issued by the dispatcher.  I've had a dispatcher issue is a 10mph slow because a previous train reported rough track.  The track foreman arrives and watches us enter the restricted spot.  He wants to see how the train rides at 25mph and asks us to increase speed.  Unless the dispatcher says to be governed by the employee in charge, the speed issued by the dispatcher has to be followed.  Had the track foreman issued the original restriction, he could authorize a higher speed. 

Jeff 

  

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Posted by tree68 on Friday, May 22, 2020 10:34 PM

Murphy Siding

     I watched a crew pull an empty lumber car out of our yard today. The conductor on the ground directed the engineer in until the engine coupled with the car. He then had the engineer back up to take out the slack before connecting hoses. Why the back up?

     The conductor also walked to the other end of the car and appeared to do something with the end of the brake hose. He also did something that held the hose up so it wouldn't drag on the ground. (I watched from a couple hundred feet back, as I know I don't care for people watching me while I work.)

If he was stretching, it's just to make sure that the hitch was good.  We do it all the time - better safe than sorry when you've got a trainload of passengers.  Sometimes the pin doesn't drop all the way.

Glad hands aren't indestructable.  We generally make sure they won't be dragging.

As for being watched - that's every day on a tourist railroad.

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Posted by Murphy Siding on Friday, May 22, 2020 10:28 PM

     I watched a crew pull an empty lumber car out of our yard today. The conductor on the ground directed the engineer in until the engine coupled with the car. He then had the engineer back up to take out the slack before connecting hoses. Why the back up?

     The conductor also walked to the other end of the car and appeared to do something with the end of the brake hose. He also did something that held the hose up so it wouldn't drag on the ground. (I watched from a couple hundred feet back, as I know I don't care for people watching me while I work.)

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Posted by BaltACD on Friday, May 22, 2020 11:25 AM

Murphy Siding
Am I reading this right? There could be a slow ordered track where the train speed could be increased after part of the train has passed over it?

So….. after the first half of the dynamite train passes over the meteorite crater, the train can accelerate back up to track speed. Mischief

The only place I have seen that type of speed restriction is in TTSI wherein certain highway road crossings have a specified speed restrictions for 'head end only'.  The restriction is interperted as, for example, 10 MPH for the head end over XYZ Street and then the train can accelerate to track speed, even though the balance of the train is still passing over XYZ Street.

Normal speed restrictions apply to the ENTIRE TRAIN passing over the area specified in the restriction.

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Posted by Murphy Siding on Friday, May 22, 2020 11:10 AM

Overmod
 
Murphy Siding
Am I reading this right? There could be a slow ordered track where the train speed could be increased after part of the train has passed over it?

 

See the discussion about trestles being filled in.

When track has been repaired or modified, it has to be 'settled in' to pack everything,   As the weight and vibration of the train can be highly effective in accomplishing this ... but the track geometry still variable until it has been substantially achieved ... it is not unusual for there to be a slow order until xxx tons have passed over the repair or whatever to compact it.

One can easily understand why this is a 'statutory' number and not some science-based index resulting from periodic track measurements; one can also understand why a continuous train control that is tracking the number of tons might be programmed to (1) cancel the slow order the moment the critical "ton" passes over, and (2) communicates the lifting directly to the train crew so they can resume normal PSR speed.

 

OK thanks. I was reading it wrong. Dunce I took it to mean something like a 10,000# train was limited to 10 mph over a certain spot until #5,000 of that train was past the spot, then the train could speed up. Not surprisingly, your explanation makes more sense.

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Posted by Overmod on Friday, May 22, 2020 8:48 AM

Murphy Siding
Am I reading this right? There could be a slow ordered track where the train speed could be increased after part of the train has passed over it?

See the discussion about trestles being filled in.

When track has been repaired or modified, it has to be 'settled in' to pack everything,   As the weight and vibration of the train can be highly effective in accomplishing this ... but the track geometry still variable until it has been substantially achieved ... it is not unusual for there to be a slow order until xxx tons have passed over the repair or whatever to compact it.

One can easily understand why this is a 'statutory' number and not some science-based index resulting from periodic track measurements; one can also understand why a continuous train control that is tracking the number of tons might be programmed to (1) cancel the slow order the moment the critical "ton" passes over, and (2) communicates the lifting directly to the train crew so they can resume normal PSR speed.

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Posted by Murphy Siding on Friday, May 22, 2020 7:46 AM

jeffhergert
 
Murphy Siding

     If PTC can tell you that you are going too fast, is it also made to have slow orders programmed in? "Hey bubb!  Ease back a bit, there's a slow order just around the bend."

 

 

 

Yes, the PTC has the temporary restrictions programmed into it.  The system is updated everytime the dispatcher updates the computer.  We get paper bulletins issued and compare them to PTC.  On those specific slows that get upgraded after so many tons have passed over them, it's not unusual to have PTC show a higher speed than what the paperwork shows. 

Until the dispatcher issues the changes to us, we have to follow the slower speed listed in the paperwork.

Jeff

 

Am I reading this right? There could be a slow ordered track where the train speed could be increased after part of the train has passed over it?

So….. after the first half of the dynamite train passes over the meteorite crater, the train can accelerate back up to track speed. Mischief

Thanks to Chris / CopCarSS for my avatar.

  • Member since
    October 2006
  • From: Allentown, PA
  • 9,810 posts
Posted by Paul_D_North_Jr on Thursday, May 21, 2020 8:27 PM

Murphy Siding
. . . Would an engineer be more or less likely to feel a train on the ground at lower speeds?

Quite a few years back one of my foremen was asked to check out a diverging switch point that was reported to have been worn blunt instead of the usual 1/4" almost-a-knife-edge.  It was, but the story about how it was discovered was more interesting.  The engineer of the plant (Delmarva Power & Light, Edgemoor Generating Station, now gone for several years) switcher (an early model end-cab EMD) felt the lead wheel underneath him start to climb up onto the point - instead of following the point into the turnout curve - and stopped immediately.  He then reversed and backed that wheel down off the point, then notified our foreman.  A welder with his machine and a grinder corrected that defect in a couple hours.

- PDN. 

"This Fascinating Railroad Business" (title of 1943 book by Robert Selph Henry of the AAR)

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