If you've ever PMed someone on the Kalmbach system, you can scroll to that 'conversation' and still reply to it. The only thing that is broken is starting new conversations.
I'm pretty sure you have both PMed and emailed me over the years...
Overmod He's got this all over the forums -- weirdly I answered the question about modeling in the Classic Trains thread (where rcdrye posed it) but not in the MR thread. Many of the dimensions are close. If you used some care in the chassis construction and made the boiler 'modular' you could probably get something that could be detailed to stand in in a club layout. The problem is that most of the detail design would in fact be off, and for what the model would cost to develop and market, I suspect most potential customers would want accuracy.
He's got this all over the forums -- weirdly I answered the question about modeling in the Classic Trains thread (where rcdrye posed it) but not in the MR thread.
Many of the dimensions are close. If you used some care in the chassis construction and made the boiler 'modular' you could probably get something that could be detailed to stand in in a club layout.
The problem is that most of the detail design would in fact be off, and for what the model would cost to develop and market, I suspect most potential customers would want accuracy.
Many of the dimensions are close. If you used some care in the chassis construction and made the boiler 'modular' you could probably get something that could be detailed and painted to stand in for one or the other if seen going by on a club layout.
The problem is that most of the detail design is in fact off, and for what the model would cost to develop and market, I suspect most potential customers would want accuracy.
The original question asked about parts for the full-size locomotives.
How many of the differences mentioned would be noticable on an HO scale locomotive, which is what the OP is asking about? Many seem to be internal.
timzNo reason to be surprised at the difference. Apparently WM used a Type A superheater and DRGW used an E.
One problem with the type E in general was that they produced 'crazy high' levels of superheat when the engines were run at sustained high output. The L-105 design was revised to have only 194 4" flues in the available sheet space -- I have no information how the element design changed, but it would be interesting to see a comparison.
Likewise, the FGA in these flues as "populated" would be interesting to see for various combustion-gas mass flows. Remember that the L-105 as built had flues with 9.62sq.in. area, compared to the WM locomotive with more conventional 23.76 -- but it had roughly four times the number of flues; the later version had over 3x the number of flues at 12.56 area. That would involve a fairly hellacious amount of induced turbulence for comparable mass flow...
OvermodWM used a more conventional 222 tubes and 60 flues at 23' length, but D&RGW (for a dual-service engine) had only 61 tubes (!) and 238 3.5" flues (!!)
I would love to see a L-105 produced- don't see any comonality though on those though. As a thought about something that might work as additional production but as Alcos- The WP class M-100 has a strong resemblance to the UP early challengers (except in the tenders) I had not compared the sizing though on drivers and cylinders
Now if we want to consider Baldwin articulated look alikes how about 2-8-8-2's WP's and the Rio Grande's L-131 and L132 were quite similar with dome and feedwater heater differences
I could not find a good builders photo online but for comparison
Jim
I don't see many likely commonalties between the L-105 and the M-2.
Driver diameter was different; engine wheelbase was different, cylinder diameter was different, firebox dimensions very different (136.5 vs. 118, likely reflecting higher rank coal available to WM). FA 4.18 early/4.15 late vs. 4.22 (and yet the WM engine, with only 250# vs. the D&RGW 255, and 1" smaller cylinders, had the reputation of being slippery and hard to work...)
The internal structure of the boiler was wildly different, too: the WM used a more conventional 222 tubes and 60 flues at 23' length, but D&RGW (for a dual-service engine) had only 61 tubes (!) and 238 3.5" flues (!!) - this was reduced in number but increased in size (191 @ 4") for the second batch in 1941. There was a similar arrangement of syphons (3 in the firebox, 2 in the chamber) but this got changed up on the later L-105s, and you're probably best off consulting actual diagrams or blueprints for the detail differences, particularly the one that got security circulators and a nominal reduction in radiant heating surface.
Somehow, commonality of parts and Baldwin doesn't seem to go together.
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