High consumption coal in Steam Locomotives
#1
Posted 14 November 2017 - 04:38 AM
Would it be a mistake?
Thank you.
#2
Posted 14 November 2017 - 05:32 AM
#3
Posted 14 November 2017 - 07:44 AM
Most use Standard Steam or Steamlocomotive dot and there are very basic specs available . If the engine code for OR is based on those specs then why are there so many ensuing problems ?
The formulas in the code shouldn't require more than those specs available . If some of the extra specs are required by the formulas then why doesn"t OR calculate those internally .
If the Simmer has to redo all his steam engine files ever time that there is a code change - - - this could be 50 or more locomotives - - - I believe you will find the support for the steam section of OR diminish greatly because the average simmer is not a " dyed in the wool " rivet counter , technician or mathematician .
This will especially concern the newer generation of Simmers and many of the old timers also .
Give us a template for the required basic specifications that OR demands for comfortable steam operation and performance .
That will satisfy the majority and then the people that want to enhance their locomotive operation can carry on with their extra modifications .
Don't make the steam locomotive a chore to operate . Remember ORTS is supposed to be a pleasurable event to be enjoyed by all - - - not a chore to be enjoyed by a few dedicated perfectionists .
Just my humble opinion - - - - There's a saying in the plumbing community - - -
" The more complicated you make the plumbing - - The easier it is to plug the drain "
#4
Posted 14 November 2017 - 08:56 AM
I see nothing wrong with the OR steam code regarding fuel and water usage at this point in time. It is all dependent on train weight, track grade and control settings.
As long as the data in the eng file is correct, and the driving style is not heavy handed, there should be no need to go making changes to eng file data unless there is a fundamental change to the OR steam code, and I cant see that happening unless something else is discovered that has been missed out.
#5
Posted 15 November 2017 - 03:37 AM
Thank you for your explanations. My good friend Xavi has been writing previous questions until I've been able register.
Perhaps I have not kwnown to explain well this problem.
In Spain, we say "one image is better that one thousand words" But I can't upload two consecutive screenshots (I don't know why) where you could watch what I mean. I would agree with you throttle is very open and cut-off too much high; but you could see with a coal use of 2.8 metric tons per hour, we have used... a 50 % coal capacity tender! in only two minutes trip! Coal capacity tender is 32 metric tons. A simple mathematical operation show us this is impossible.
Well, I hope I've been able explain well what I mean.
Thanks again.
#7
Posted 15 November 2017 - 10:36 AM
Travelling at 42.4 mph, I would have expected the Reverser setting to be quite a lot lower than 71% - something between 30% & 40%.
Also, why is the Engine Brake showing Release 53% - shouldn't it be 100%?
Cheers,
Ged
#8
Posted 16 November 2017 - 01:30 AM
Well, I was testing a spanish freigth locomotive "Santa Fe" class, in bad conditions: 21" gradient, and pulling 780 metric tons freigth train. I used original route Europe 2 of MSTS. In normal conditions, I never open cut off 70%. I would like 25 - 40%, in according to gradient.
Brakes to 53%? yes, I'm sure I have forgotten release them; I have to learn a lot yet.
I love to study locomotive fisics; test their limits. And for this motive I do these test.
Thank you.
#9
Posted 16 November 2017 - 03:09 AM
xavivilla, on 15 November 2017 - 09:38 AM, said:
In effect the locomotive is exceeding its capabilities.
You will notice that the locomotive is using 42t/h of steam, but only producing 26t/h of steam. Eventually you will start to drop boiler pressure, and stop. This is also the reason why you are using some much coal as the locomotive is attempting to meet your requirements to produce more steam by burning much more coal.
To do a realistic performance test you need to research or find the following info about the steamer -
i) Load
ii) Gradient up which the locomotive is climbing
iii) maximum speed that can be maintained when climbing the grade.
A good working timetable might help with this information.
For example in some testing that the OR test group has done, one older style locomotive could only haul 200 tons up a 1 in 60 grade at a maximum speed of approximately 25mph. More modern locomotives might achieve perhaps 2x this performance as a rough estimate. Often locomotives needed to "double head" on steeper grades if the train tonnage was to be maintained.
Trying to drive flat out up a gradient with too large a load is sure to fail, so in your scenario you will need to either reduce your load or your speed or both.
#10
Posted 16 November 2017 - 03:34 AM
Hobo, on 14 November 2017 - 07:44 AM, said:
The OR code is based upon a philosophy of two types of configurations - BASIC and ADVANCED.
BASIC uses the readily available information such as what you have described This then defines an "average" configuration.
ADVANCED allows "rivet counters" as you call them to explore more deeply the performance of the locomotive.
Steam locomotive were always empirically designed, ie they were built and then tested to check performance. There were a number of design ratios used, however these were only approximations and often varied. Hence no two locomotives ever performed exactly the same.
Hobo, on 14 November 2017 - 07:44 AM, said:
There shouldn't be a need to deviate from the BASIC configuration with any of the code changes, unless the user elects to change the settings.
Hobo, on 14 November 2017 - 07:44 AM, said:
I agree that it shouldn't be a chore to operate, however some realistic expectations of the locomotives capabilities need to be understood.
For example, it will only cause frustrations for ALL concerned (users, and those trying to assist them), if say, an unrealistic attempt is make to climb a 1 in 30 grade, with a 1000 ton load at 70 mph.