I’m sure there’s information galore out there concerning operating multiple diesel units.
When a train is operating with multiple locomotives, are all of the MU hoses connected between the lead and secondary (and so on…) locomotives?
What functions are controlled on the secondary locomotives? I’m sure that speed control of the prime mover is foremost, but what other functions? Do railroads use the secondary locomotive’s prime mover to generate electricity for the lead locomotives motors, or is that strictly for the secondary locomotive’s motors?
I’ve got probably a million questions, but since I can’t climb into the cab to ask the crews…besides, here I know I’ll get a wealth of information from you.
I’m sure some of the old heads will get on this in detail, Joe, but very quickly: yes, all the hoses or cables are connected. The trailing locomotives are controlled by the engineer in the lead locomotive, through the cables, and almost all of their controls are active, just remoted. In newer set-ups, all or most of the various alarms are remoted back to the lead engine. The only thing which is slightly different is the air brake setup on the trailing units, which is altered by the brake valve on the trailing unit so that the lead unit can control both the train and independent air…
Actually, you have a duplicate set of hoses on each side of the coupler, and only one of those sets needs be connected. So you have those three or four hoses, one standard M.U. cable, and the train line to connect, and you’re all set.
It’s probably more standardized now than it was even a few years ago. CNW used to have an electric gong instead of the standard bell, and that was trainlined…ring the gong in the lead unit and the whole lashup would sound off. But if you tried ringing the gong with a foreign unit in the consist (Chessie units are the ones I remember), the results–though I can’t remember exactly what happened–were disastrous!
Back in the dark ages of field-loop dynamic braking, you had to set that up, too. But I haven’t seen that in over 30 years.
Units can not supply electricity for traction to each other except in a few specific instances where they are so wired. “Slug” units are units with traction motors but no prime mover, and take their electricity from a mother unit via heavy cables.
Everything you need to make the trailing unit do work is available from the lead unit: power, dynamic braking, sanding.
The way you set up a lash of engines to be mu’ ed is simple enough. first thing is take the chains from each unit and hook them up. ( these are the chains on the walk way between loco so you wont fall) then you go down to the dirty part between engines first thing i do is hook up the mu cable.( this is also known as the train line) then i will reach down and get the brake hose ( this is what most call the train line) and hook that up. then there are 3 little hoses that need hooking up. the inside one is the main resevoir hose ( and as a engineer i cant remeber the names i just do it. and know what they do) the next one i think is call act ( actuating hose for applying the engine brakes only) and then the A&P hose ( apply and release) this is for bailing the engine brakes when only using the automatic brake . the sand hose is no longer used it is done thru the mu cable electicly. after all these are hooked up and cut in you go into the cab set the unit up in trail and auto brake cut out. flip all stand switches to open. ( this is to make sure we can kill the consist from lead unit otherwise they would just keep running no matter what) and then we would set the headlight switch to desiered position. if this was a middle unit turn it to single or itermidate. of it was the rear unit turn it to long hood or short hood trail ( ge units only) or controlled from other unit coupled at either end ( emd only ) if it is a lead unit it would be long hood lead or short hood lead ( ge units only ) or it would say contolling unit couple at long hood or controlling unit couple at short hood end ( emd) this set up is only for headlight operation. and is not nessesary to do if you dont care if you have headlights on rear unit. then you go back to the head end and do a brake test independant and automatic. with each of there functions. this is it. a load test is optional and is done in differant ways i wont get into.
Now the way they operate is done by the lead unit what ever the lead unit is doing
clear up a point for me. If you chain or rope tow a car, you can put the car in neutral and don’t have to turn it on (at least this was back a few years on the older cars) If you have 7 engines, are all of them running even if 3 of them are dead in tow? For simplification, do they run in neutral, so they aren’t “working” with the others? ( I figure they have to be “on” since the power has to run through them to the others.)
No, units do not have to be running, the power is transmitted through them via the MU cable and go on to the following units in the consist.
On Norfolk Southern, rules require that the independent be set up so that it will operate only on the three leading units when any one of those units is a six axle. The independent is not to work on any trailing units beyond those three. Of course, they didn’t really bother to tell us how to make this work, only to not do it, and it’s sometimes a challenge to get them set up right.
The following refers only to SD40-2 and earlier CNW locos.
Mookie, et.al.
The CNW installed a “power saver” switch on many of it’s pre-1990 locos. What this switch did was allow the locomotive to remain on-line (thereby preserving wheel-slip and other alarm indications), but the loco remained in the first-notch position at all times.
When a loco is “isolated”, it is taken out of the electrical loop (although the mu signals pass thru), and no alarms will sound in the lead unit. So the engineer would have no idea if the wheels locked up, fell off, or the engine blew up.
“Dead-in-tow” means the unit is shut down completely. Isolated means the unit is running, but not functioning in any way that affects operations.
don’t use the analogy with a towed car having its transmission in neutral. because these are diesel ELECTRICS. Each diesel electric is a mineature power plant with controls and electric motors added. Since the transmission between diesel and wheels is electric, if a particular unit is either isolated or cold, there won’t be any current reaching the motors, whether the diesel is running in idle (isolated) or cold. Just the pass through electric control signals in the control cables (but not electric power for the motors in these cables) and the variations in air pressure in the brake trainline. Dave
Just to add to the confusion – and perhaps a bit of clarification as well? – there are four ways a locomotive in tow can be configured: running, ‘power saver’, isolated, and dead in tow. If it is running, it is going to be following the lead of the lead engine in all respects, and will contribute its share to pulling the train, braking, and whatever. If it is in power saver, it won’t be helping much, but all the alarms will be turned on. It is isolated, the prime mover is running – idling – but other than that it is just a large heavy box car. It is is dead in tow, the prime mover isn’t running and it is just a large heavy box car. The MU cables are run (usually!) between all the units, so that any unit which is running or in power saver can talk to the lead engine. That help any?
I have read this 4 times and still not sure what it says - but I will go at it from a different angle. Are all diesel locomotives diesel electrics? I am going to assume that they are, because of the ? traction motors?
After that - you lost me.
Our imaginary set-up of 7 engines with 3 dead in tow - the power will pass thru them, but not reach the motors in the electrical parts, ie traction motors or control signals. They are dead in tow and have no motors running. They are isolated and have some power, but they stay in run 1? Am I even close?
I know it rare for me to actually post on a train topic…but I was actually reading about this last night…please correct me if I’m wrong…
As I understand it, some first generation deisels could not be MU’d. Baldwin Sharknoses apparently were used as helpers alot, but had incompatible MU systems with EMDs, so had to be used in ABA sets alone. I imagine that there were other non compatible units…
I also read that some railroads run the lowest HP loco as the lead of a consist to prevent overloading it…the example I saw was an F3 leading a F7 then a GP18. If either the F7 or GP was master it could overload the F3…is this still done?
---- your 7 units with 4 live and 3 otherwise. If the unit is broken and the motor won’t run, it goes DIT (Dead-In-Tow).
If for any one of several reasons, the unit is operable but must (or should) not be used for power, it is “isolated”, all of the controlls are hooked up as described above, but the diesel motor simply idles and generates no electricity for the traction motors.
I put “Isolated” in quotes because it can mean any one of several setups also described above - such as PowerSaver. Since and engine at idle burns fuel and does no productive work, there must be a reason that the penny pinching railroad would do such a numbskul thing, and that reason is - with the engine running the unit provides wheel slip protection. About the only thing that is worse than flat wheels on a locomotive is a derailed locomotive.
You leave the engine running to provide wheel slip protection and in cold weather to keep it from freezing up. When the temperature is below freezing and you shut down the locomotive completely, you have to drain it to keep it from freezing. Once you drain it, you can’t start it until you fill it back up with water. So in cold weather unless the unit is mechaincally bad, you will leave it running when its being moved as surplus.
The really numbskull thing would be to shut it down and not drain it, causing freeze damage to the engine.
Nearly all diesel locomotives on North American railroads are diesel electrics. The Kraus Maffai (spelling?) diesel mechanical, which were supposedly built to mu with USA diesel electrics but seldom did, were exceptions 9didn’t last long) and so are some small industrial switch engines that don’t have any mu capability. The Budd RDC and the new Colorado Railcar are also diesel mechanicals and can mu with like equpment only. For these few exceptions only, the analogies with an automobile have some validity. Don’t ask me how they arranged to have the Kraus Maffai mu with diesel electrics, the complexity of the control circuits to do that would be way beyond my pressent understanding of normal diesel electric control circuits which are familiar to me and which are basically similar and compatible for EMD, Alco, Fairbanks Morse, GE, and most Baldwins, allowing all these locomotives to lashed up together and pretty much share the load properly. Even then, any engineer would probably agree that best performance is always obtained with all power being similar because of different characteristcs: power/weight ratio and thus factor of adhesion, nature of wheel slip protection, throttle response time and generator loading time, resistance of armatures and field coils and back-emf characteristics of the motors, short time permissable overload characteristcs, and then all this over again for dynamic brakes and whether the locomotive has them or not! Oh yes, transition speeds at various degrees of load, almost forgot that! (Transition: motors connected in series and then in series parallel or even to full parallel, to help the generator operate at high efficiency at different track speeds, adding field shunting for maximum speed.) Dave Klepper
this is not totally true. the independant brake has to operate on all engines the only exception on this is when the engine is a noncomplying engine. and then it deals with the number of axels and type of wheel if i remeber correctly. the way you cut the engine out is to cut out the brake on the trucks ( look close there is a axel c/o **** on each engine for this and only for that truck ) but dont forget to cut this back in. just because a engine is dead in tow doesnt make it non complying.
Mookie a engine that is isolated is just that isolated it running but doing nothing. the brakes will work but that is it. it wont be in notch 1 it is idling and providing air for the train. if i have your 7 engines ( this may get complicated just bare with me) and for simplicity lets just pair them up …
all engines are 6 axel units. but due to type of wheel engine 1,2,3,6,7 are high adheshion units and are considered as being equivalent to 8 axel ( dont try and figure it out just take my word for it. but if you must know on high adhesion axels they are considered 1 1/3 per axel so 1 1/3 x 6 = 8 ) now on trains you are not allowed to have more than 24 powered axels on line( ns anyways) and no more than 18 axels in dy
Holy Crap! And I thought mu just meant “multiple unit”.
Wabash, the amount of technical information you have about runnin trains is utterly amazing! [bow][bow]
I have learned more in this one short thread about the operations I see and take for granted almost every day, it gives me a great deal more understanding and appreciation for what you all do!! And that’s just getting the damn things hooked together!!!