Dave K. -- I invoke Ayn Rand only for that post war era when there were huge investments in not only Duplex Drives, based on what had previously been built, and coal Turbines but also Alleghenies, exceptional switchers, some remote controlled, outstanding 4-8-4's, some rebuilt steam such as C&NW Zeppelins, CPR Selkirks and simple but advanced and highly efficient branch line Pacific's and on and on.
I still have my Trains magazines where it was reported that every record in the book was smashed by the T1's on the test beds in Altoona. The look of the future was put forth in steam and it looked like the future. 6 months it lasted. Suddenly just like that it's all no good and junk. Something really smelled here. Something was stifled.
Of course Diesels in all likelihood would have been the order of the day but much later, decades perhaps.
One of the illustrative pieces of history is: what became of the engineers who so carefully worked out that New York to Philadelphia high-speed interurban? I thought, when I read it, imagine what would happen when the 'boom' in eastern Pennsylvania/New Jersey with cheap Portland cement concrete got going. What would those engineers have done with gleepsite?
And the answer is: as 'visionary' they saw very well what the use of concrete would be: they got into the good roads movement, and the engineer became one of the original authorities in paving equipment. As far as I know he never considered another railroad project...
Almost the only thing that could have replaced a government-assisted good-roads program would have been government ownership (not just regulation or subsidy) of a strategic network of 'electric railways' serving regionally. But (judging by the efforts made by steam railroads to electrify over part of their routes, most of which were pretty much done by WW1) that would need to have been done prior to the Wilsonian excuse for federal control ... and it would have been tough to apportion revenue with the then-budding power-company magnates like Insull. Whether we'd have had the excuse to use federal money for something like TVA, who knows?
People tend to forget this, but by 1928 it was very clear that the United States would be running out of gasoline-producing reserves very soon. So clear that one of the Standard Oil spinoffs spent an ungodly amount of money licensing the Fischer-Tropsch process to synthesize gasoline from coal. This would raise the cost of gasoline ... but you didn't see the rate of development in the automobile industry damped by this in the late '20s, right up to the point that the Depression arrested it for other reasons.
The other thing was the rise of 'reliable' used cars very, very cheap -- in part, a consequence of all those Model Ts produced better and cheaper each year. An interurban depends upon a large enough volume of people who don't care much when they get to someplace a few miles away, all going at the same time, without needing to transport very much. A streetcar depends upon people willing to take a long time, stopping and starting, to get someplace without walking. In both cases, when you have a cheap set of wheels not only do you have a convenient alternative to transportation but you can take others along, probably for more than a streetcar fare as you can dogleg off the car route to accommodate passengers or get over to the curb. Success of the proto-Uber jitney movement, in the teeth of City Hall taxi preservationism, is some indication of the power involved. But one of the things that kept jitneys a fad was the evolving ease with which everyone could have their own...
Well that was gentle Overmod. I full well expected a good thrashing and holes blown in my little rubber dinghy out in the ocean like that, so thanks.
Makes everyone think a bit though.
MiningmanCould it explain brand new T1's sabotage, S2 failed with no actual attempts of improvements, S1 scrapped, assured failure of coal turbines afterward... and so much more?
The BCR coal-turbine project WAS the product of that scientocracy, and became the scam that it was when the "scientists" did the analogue of grant swing and kept mooching on the member railroads for work that locomotive builders or other 'interested parties' should have taken up on their dime.
If Union Pacific couldn't get it to work, on the shoestring of shoestrings that was the locomotive 80 and then 8080 project, I suspect no one could have gotten it to work. And by the end of that effort you had no 'locomotive' builder even remotely interested in direct coal combustion who would undertake building it in quantity. A good thing, as there is NO way it could be adapted to even 1970s pollution standards within contemporary gage limitations and working conditions.
And then we can take up how miserable a thing it would be to run.
The problem with so much of 'advanced steam technology' was that it had all the materials and fabrication expense of more sophisticated approaches, but none of the practical thermal efficiency and not enough maintenance 'saving'. Lubritoria were a wonderful idea, but the gains were relative to total-loss lubrication in the first place; many water-treatment regimens were dependent on ghastly continuous blowdown, and so on: it's romantic to see one steam locomotive operating, quite another thing to have a fleet of maintained-to-a-price examples going by every day (or not going by, broken down expensively somewhere).
In my opinion the road that used modern steam best was the Nickel Plate, which to this day operates fast bridge trains at speeds right at the horsepower peak of their best locomotives. I believe the Brown paper used data from just before the time Nickel Plate dieselized; if you look at why that road gave up Berks when it did (and for what) you will have a good understanding of why the transition became inevitable by that point, for that era.
A case could be made that interurbans failed because their proponents (usually utility combines looking to capitalize on uses and excuses for wiring out their regions - something increasingly unnecessary and non-lucrative after the War) were less popular than the far more convenient and useful automotive cartel. Part of the success is documented in 'The Insolent Chariots' -- how could increasingly rattletrap trolleys compete with that juggernaut? If Los Angeles, of all places, could get rid of its system, why invoke conspiracy when the sheep did the job themselves?
Consider, again, that the Niagara was only competitive with diesel power in a very specific service; when that ceased to exist either for marketing or economic reasons, let alone a combination of both, all the collateral expense of that particular 'weapons system' increasing dramatically after 1947, you should not be surprised at unwillingness to continue.
Now, it is possible that had there been "modern" small power, perhaps the sort of thing Steins was developing in the early Thirties, with some of the advantages of modern maintenance and servicing on an appropriate scale, you might have seen more use of steam until it had been 'costed down'. But this is precisely the sort of place that dieselization became established where continued operation of small-scale railroading made sense. Steam disappeared coincidentally with All Those Canadian Railroads that are gone when you look around, not in isolation. It may be hard to distinguish which of them was doomed the more.
They survived where it made economic and fiscally responsible sense. When it didn't, steamers were cashiered. There are older diesels still being used, far less efficient than those designed to replace them. Same diff.
Perhaps it has a 1% chance of being a viable explanation but maybe that was the 1 time. It fits in its own way.
I full well expect harsh blowback and many groans. Yet as pointed out steam survived even in Western countries around the world for decades yet.
Please. I know the clout of the oil firms that shaped foreign policy, a walkl away from USA energy independence, and eventully led to the World Trade Center - Pentagon disaster, El Quada, etc. But dieslilzation of railroads?
Note that every major railroad system in the world has dieslized or electrified or a combination of both, with the choice based on economics. No major railroad system, world-wide, relies on steam power today.
Alright Wayne, let's get deep.
Ayn Rand writes the following:
"The demand to restrict technology is the demand to restrict man's mind. It is nature, ie reality, that makes both these goals impossible to achieve. Technology can be destroyed and the mind can be paralyzed but neither can be restricted. Whether and wherever such restrictions are attempted, it is the mind, not the state, that withers away."
Could this possibly be an explanation for the wholesale demise of advanced steam technology, and all steam, after WWII? How did we use the authority of government to divert technologies, energy and so on and let it be so intrusive. The federal takeover of science. Prior to WWII there was little government involvement in science. A scientocracy was formed after the success of the Manhatten project.
Could it explain brand new T1's sabotage, S2 failed with no actual attempts of improvements, S1 scrapped, assured failure of coal turbines afterward... and so much more?
The end of coal in any way to power the Nations railroads. The military industrial complex imposing their will on the railroads and not allowing even a sliver of light. Guaranteed failure and new energy source aimed at the very heart of Railroading itself.
Resistance is futile!
Jones 3D Modeling Club https://www.youtube.com/Jones3DModelingClub
I was going to jump in, but wow, the water's gotten awful deep!
I'll say this about Norfolk and Western steam and no more. The men running the N&W back in the Fifties weren't starry-eyed kids, they were mature men and seasoned railroaders. They knew the end of steam was coming, it was just a matter of when, but as long as their steamers, which they were very proud of by the way, were running well, were maintainable, and were making them money they weren't in any great rush to retire them. They took a "wait-and-see" attitude toward dieselization and paid close attention to how it was working out for everyone else. It paid off too, when they bought diesels at last they were good ones, in this case Geeps, even though trains like the "Cavalier" and the "Powhatan Arrrow" looked lousy with a Geep on the head end instead of a Class J.
It was that living embodiment of the "Peter Principle" Stuart Saunders that rushed the process and put the N&W in the red for the first time in its history. Needless to say the N&W being a coal pipeline and a guaranteed money-maker that "red" period didn't last too long.
It's possible that without Saunders coming along N&W steam might have lasted until 1965, possibly 1970, but certainly the environmental laws that were passed in the 1970's would have put an end to it. That was inevitable.
PS: I know about "Steampunk." I haven't been to one of their festivals yet, but maybe I shoulld go one of these days, it looks like fun!
I'm trying to draw a parallel with the reasons for the end of all steam in all forms, mercilessly, recklessly, without reason, even the most advanced that won the war, with other mass cover ups, whether the truth or not. One was the interests of big business that was anything but railroading, the other was government, not wanting us to know stuff, whatever it be. ( I've seen things in remote exploration camps in isolation that can't be explained )
A functioning system of Interurbans, streetcars, steam roundhouses everywhere, passenger service with dining and sleeping car service to every corner of North America from your own local station. All lost.
Folks will never give up though. The Steampunk movement is quite a little phenom even if it is just fashion and fantasy at this time. At least people are thinking. Perhaps we wil come to our senses.
Miningman So are you saying the N&W TE-1 Jawn Henry was an improved version of anything the PRR would have come up with had the V1 been built? One VP at N&W was impressed enough to push for 19 more TE-1's but got overruled. As you say a likely failed end and the same fate would have occurred to any follow up orders of the proposed V1.
MiningmanHow many steam locomotives nationwide were scrapped owing to Diesels, 100,000? 600 Mohawks on the Central alone. Gads Zooks! Steam survived 2 decades more all over the world, even in England, Western Europe and Australia. 3 and 4 decades elsewhere. Not a total expensive out dated flop after all.
Miningman We all suffered the same massive hallucination. Bring in an 'ex-spurt' and call it swamp gas. Of course, its swamp gas. Steam is no good. Diesels much better. We have not been visited by extraterrestrials, no such thing.
So are you saying the N&W TE-1 Jawn Henry was an improved version of anything the PRR would have come up with had the V1 been built?
One VP at N&W was impressed enough to push for 19 more TE-1's but got overruled. As you say a likely failed end and the same fate would have occurred to any follow up orders of the proposed V1.
The verdict is in. This is how it will be. Obviously the concept is flawed, best to buy Diesels. Buy now, pay later. Credit available because you blew all your wartime profits on reequipped passenger trains and steam of the future. Too bad. That's our territory now. Big oil, Big rubber, Big auto.
Quite genius I would say.
How many steam locomotives nationwide were scrapped owing to Diesels, 100,000? 600 Mohawks on the Central alone. Gads Zooks!
Steam survived 2 decades more all over the world, even in England, Western Europe and Australia. 3 and 4 decades elsewhere. Not a total expensive out dated flop after all.
We all suffered the same massive hallucination. Bring in an 'ex-spurt' and call it swamp gas. Of course, its swamp gas. Steam is no good. Diesels much better. We have not been visited by extraterrestrials, no such thing.
Overmod Ayaaaah, no!...It would have been completely practical to build it and it would likely have been interestingly improved in the ensuing years...
Overmod Not quite sure how you have a love scene on a Weed train, but you'd have much more time to build up to it.
OvermodTop speed of the equipment was estimated as around 150mph, but of course the train wouldn't run 'straight through' most of the time, and the times I recall seeing were in the 9-to-10-hour range. That of course is enough for 'business overnight with morning delivery' most places in the financial East even net of switching or network-routing considerations.
OvermodThe problem you face there is there's really only room for one at most in a given cross-section of those cramped little cars ... no room for most kinds of romantic action even if you had a pair of claustrophiles in the mood.
OvermodOn the other hand, it should have been possible for the Weed cars to run directly into an augmented version of the Chicago freight-tunnel system on arrival, giving some interesting plot possibilities...
Overmod Meanwhile, the Q1 never made sense except as a passenger or dual-service M&E locomotive, which made its nominal design as 'follow-on improvement to M1 capability' more telling. It's important to note how very different the detail design of the Q2 (which was expressly designed as a high-capacity wartime freight locomotive) was, and not just in dealing with the discovered issues with the Q1 configuration. One example: the rigid wheelbase, even before accounting for lateral-motion accommodation, is shorter for the Q2 than for any of the production ATSF 2-10-4s.
Overmod There are reports as late as the early '50s ('51 for sure, perhaps '52) that show detail work on this version of the turbine-electric, which I believe was even at this point being optimized for the Babcock & Wilcox chain-grate high-pressure watertube boiler……Note that derating the locomotive even from its original 8000 nominal hp (let alone the fantasy 9000+ that PRR started touting, probably to justify the reduction in train length that the huge water rate of that power would imply) to a measly 4500hp, with all that complexity, makes little more operating sense than the Heilmann locomotive did in context.…Still, I'd have liked to see them try.
Jones194518 minutes from NY to Chi-town is very impressive, but it won’t fit the tone and plot of my forthcoming sci-fi movie!
Ayaaaah, no! The 'eighteen-minute headway' was the time between trains on the proposed 'super-interurban' between New York and Philadelphia ... one of the specific points of the service being that you wouldn't have to wait long for the next train, vs. an hour for a 'Clocker'. You should research this as an extensive amount of the engineering work, including much of the requirements for the grading, was published as proof-of-concept, iirc around 1897, and is available (some in color!) on the Web. It would have been completely practical to build it and it would likely have been interestingly improved in the ensuing years...
Not quite sure how you have a love scene on a Weed train, but you'd have much more time to build up to it. Top speed of the equipment was estimated as around 150mph, but of course the train wouldn't run 'straight through' most of the time, and the times I recall seeing were in the 9-to-10-hour range. That of course is enough for 'business overnight with morning delivery' most places in the financial East even net of switching or network-routing considerations.
The problem you face there is there's really only room for one at most in a given cross-section of those cramped little cars ... no room for most kinds of romantic action even if you had a pair of claustrophiles in the mood. I also suspect that the ride would be less than comfortable, as would the 'space conditioning' provided (although I'd expect controlled-atmosphere and -temperature shipments to be recognized early on as an advantage, the ducts required for them would even further cut into the usable part of the loading gage).
On the other hand, it should have been possible for the Weed cars to run directly into an augmented version of the Chicago freight-tunnel system on arrival, giving some interesting plot possibilities...
Meanwhile, the Q1 never made sense except as a passenger or dual-service M&E locomotive, which made its nominal design as 'follow-on improvement to M1 capability' more telling. It's important to note how very different the detail design of the Q2 (which was expressly designed as a high-capacity wartime freight locomotive) was, and not just in dealing with the discovered issues with the Q1 configuration. One example: the rigid wheelbase, even before accounting for lateral-motion accommodation, is shorter for the Q2 than for any of the production ATSF 2-10-4s.
The TE-1 comes directly out of the V1 project, but it's instructive to piece together what happened to the V1 after 1944 to understand why. In this connection it helps to have read the somewhat one-sided correspondence that survives at the Hagley involving first the contretemps over the Loewy 'triplex' and the secret Baldwin project to get around the Steins patent (the 'take' at PRR was that Baldwin did hurry-up engineering to be the 'first' with a steam turbine-electric and the results sure showed, but the presence of the drawing you posted from Yank clearly shows the Baldwin, not the Steins/PRR configuration)
There is clear indication that N&W took up the idea of the V1 after PRR abandoned it (again, nominally for pure considerations of water rate) -- there is at least one cut of a 4-8-0+4-8-0 in a contemporary trade press article that can be nothing but a V1 adaptation. However, by 1950, the reports of steam-turbine development at N&W had firmly switched to the siren call of electric traction (among other reasons to motor the axles of the engine trucks; you'd think the PRR experiment with the P5b would have been a cautionary tale to them, but it wasn't. There are reports as late as the early '50s ('51 for sure, perhaps '52) that show detail work on this version of the turbine-electric, which I believe was even at this point being optimized for the Babcock & Wilcox chain-grate high-pressure watertube boiler.
The change to bogie trucks mirrors developments in electric and diesel design both at BLH and elsewhere in world practice, promising 100% adhesion, true bidirectional operation, and supposedly better riding and guiding than the V1 chassis design would provide, with cheaper construction and promised compatibility with production diesel-electrics to sweeten the pot. That in turn changed some of the carbody requirements but not the overall length, which was acceptable competitively for 1954 but not into the second-generation era which effectively started only a couple of years later. Note that derating the locomotive even from its original 8000 nominal hp (let alone the fantasy 9000+ that PRR started touting, probably to justify the reduction in train length that the huge water rate of that power would imply) to a measly 4500hp, with all that complexity, makes little more operating sense than the Heilmann locomotive did in context. (And remember that people I trust looked into the idea of expanding the B&W boiler detail design to serve 6000hp and concluded it wouldn't work...)
You may have concluded by now, as I did, that the subsequent Krauss-Maffei Amerika-Lok experiments (and then Alco's DH-643 etc.) established that mechanical Cardan-shaft drive to multiple bogie trucks was fraught with both engineering and economic issues, so even if the original V1 had been modified to that kind of undercarriage it would have been at most a highly conditional 'success'. One that shared many of the characteristics that turned out to doom conventional steam, such as even the revised issues about steam-boiler maintenance that direct-steam plants, good water treatment regimens, welded shell construction, and coherent servicing plans couldn't fully address.
Still, I'd have liked to see them try.
Miningman It kind of reminds me of UFO stuff in the late 40's 50's, where the government convinced all that we were all just sharing an illusion and those that got too close to the truth somehow suffered a fatal accident. Sorry can't get deeper tonight, been a tough 2 weeks, unable, Will pick up the challenge tomorrow.
It kind of reminds me of UFO stuff in the late 40's 50's, where the government convinced all that we were all just sharing an illusion and those that got too close to the truth somehow suffered a fatal accident.
Sorry can't get deeper tonight, been a tough 2 weeks, unable, Will pick up the challenge tomorrow.
Overmod …Note specifically that much of the UP work did not necessarily involve the very light-weight rods and expensive roller bearings as used on the T1s; in particular the application of floating bronze liners over the main pins as designed for the FEFs would give a good, positive 'tandem' solution.
OvermodThe immediate effect of the rebalance would be the practical achievement of the speed range for which the 77" drivers of the posited M1-replacement Q1 were intended, while specifically retaining the acceleration advantage of 72" drivers. (And all the paid-in capital relating to the dual-service M1 fleet...)
Overmod Would you settle for the 1870s? (Well in advance of the Chicago and New York Air Line, or the very well-developed plan for 18-minute-headway high-speed service between New York and Philadelphia from the late 1890s.) That was the Weed electric railroad, which is notable in more than a few respects as an interesting idea. It starts with the idea that real high-speed service was necessary for packages and mail, not people ...
Overmod …I certainly expect to find out much of the objective data as the T1 Trust project proceeds…
Overmod…I suspect you will then agree with me that this would have been one of the great disasters of the contemporary railroad world, far outstripping the T1 in ghastliness, after no more than a few years in "service"……Then we can get into the fly-ash and ash dump concern, the excessive working length and visibility problems, the lies about realizable top speed with a train, damping and lateral control of the trucks, and a host of other little gotchas, which were likely waiting in the wings but never got the chance, a bit like why cancer incidence was low in the 1300s because so few people lived to the age past the Hayflick limit where cancers become more prevalent...)
The reason I say N&W was its own little world is that they artificially sustained steam 'for its own sake' (or rather, coal burning power) long past the era it became de facto impossible for lesser roads to maintain all the little proprietary devices that were no longer manufactured -- the arch brick, the feedwater-heater parts, the mechanically-governed steam turbines, etc. You watch these firms dropping off, self-destructing, 'retasking' themselves in the pages of the trade press, even as you read about the soaring cost of all the labor as the consumer economy got ramped up in the late '40s. SOME of the roundhouse people had their craft honed to a science; the problem is that for each skilled person there are a plurality of scut positions, with advance being very slow, and a growing range of careers (not just job positions) available to people with even slightly more than a detectible pulse. We think big steam is noble and nostalgic ... ask the guy in the aluminized Nomex suit crawling backward into his nth hot firebox of the night whether he thinks the same. Even on railroads that tried their hardest (Nickel Plate being a dramatic example) there came a time that steam no longer worked even where it was best suited. And, significantly to me, that time was far shorter than most hard-headed industry people thought would be possible at the end of WWII.
As with the discussion of Kiefer's report we had earlier, the correct benchmark for dieselization wasn't the rush to try squirrelly first-generation power; it was the systematic implementation of second-generation horsepower and associated control systems that led all the remaining railroads with any credit (and some decidedly without, like NYO&W) to pick reasonable diesels and then standardize on what they could afford. Note how fast the door slams between 1956 and 1960, and how no one ever goes back with any scale as soon as they dieselize. Yes, that's empirical, and yes, I don't have full access to the reasons why each particular road did things the way it did. But none of the late innovations in modern steam survived more than about a decade, and I think that someone with the time and patience to investigate the actual data behind the actual trend toward dieselization would not find anything surprisingly different from the 'common sense' understanding of the factors that can be understood from essays and pieces in the trade press. There are some minor aspects of conspiracy (e.g. in saying EMDs required less care and maintenance tinkering than was the actual case in the early years) but there doesn't have to be some NCL-like conspiracy to get rid of steam. Everyone loves it in their backyard... for the weekend, until the novelty wears off. Find your 18th load of washing in a row speckled with soot and sporting the occasional scorch or burn mark ... not so much.
Problem with fat Saunders was that he was a lawyer, and he was expedient. But the whole management trend at N&W after the years Newton apprenticed was a string of lawyers with bean-counting tendencies. Who, unfortunately, knew what the beans meant when they counted them. That fooled PRR/PC into giving the Vandal the keys to a decidedly UNmaintained cluster-in-progress masquerading as a wedding. But I almost can't imagine PC trying to survive with large amounts of typical steam power, even with large numbers of Mohawks refusing to abdicate and all that. Would have been grand as long as it ran ... but it wouldn't be long, sooner or later, before it didn't. And diesels tend to fail less catastrophically, spectacularly, and finally than large steam driven economically close to its working capacity...
It gets worse. Look at power-by-the-hour plans and other guarantees associated with Welch's dash-9s and the power that came after them. Can you imagine approximating that level of routine performance with steam locomotives built to a price?
Sayeth Overmod, ....
"T1 is all the indication you need to understand that fixing the valves and steam distribution wasn't the fundamental economic issue facing the T1, or most other large Eastern steam outside of the artificial world of the N&W. I firmly believe it was not the 'slipperiness' or the differential maintenance cost of four cylinders over two that led to failure; it was the overall economics-falling-in-a-hole of the high-maintenance provision of big steam that did."
Respectfully disagree. First off N&W was far from an "artificial world", in fact the opposite. They lead the way, especially in maintenance with their lubritoriums, design, applications and construction methods of steam. If they were the only ones flipping the bird to Diesel well good for them and others should have put their egos aside, taken serious notice, and joined in. I would say they were the only ones not chasing their tail and tripping over themselves backwards and dreaming of huge profits from 'them thar cost savin Diesels'. Group think. Sanctioned too. They had to send the Vandel himself and his addle brained crookiness steeped in lawyer juice to murder the N&W steam. Atta boy, good job, wanna tear down Pennsylvania Station as a reward? Big money for you and your buddies. We can call you Vandel.
Secondly, the statement " overall economics -falling-in-a-hole of the high maintenance provision of big steam". The roundhouse crews and craftsman had their craft honed to a science, those guys just came through the war and they knew very well what they were doing, efficiently and skillfully. You going to deny the mega-fold-more cost of all those garbage Diesels, breakdowns, lost time and an enourmous capital expense down the drain that makes the T1's cost a blip. How long did all the PA's. PB's, FM anything, Baldwin Sharks and Centipedes, 244 anything Alco , Baby Faces and so on last on the Pennsy, Central and others. How much down time? Throw in lost good will, degradation of service and morale? Big bucks. Huge. Come on, it's a joke, you think this is better?
Also your closing statement is very thin.. sort of like 'because, that's why'.
Jones1945This was why PRR paid so much concern on the makeup time ability of N&W Class J.
The real 'missing link' was PRR applying high-speed balancing and running gear to an M1 or M1a in the mid-Thirties, with the evocatively numbered UP 7002 together with 2906, and some of the C&NW work done for the 400 power, as all the technological proof-of-concept and technology necessary. Note specifically that much of the UP work did not necessarily involve the very light-weight rods and expensive roller bearings as used on the T1s; in particular the application of floating bronze liners over the main pins as designed for the FEFs would give a good, positive 'tandem' solution. The immediate effect of the rebalance would be the practical achievement of the speed range for which the 77" drivers of the posited M1-replacement Q1 were intended, while specifically retaining the acceleration advantage of 72" drivers. (And all the paid-in capital relating to the dual-service M1 fleet...)
If there were a firm body of research showing just how much actual PRR passenger requirement was served by this kind of improvement (vs. 80" or 84"-drivered fantasy power) the revelation of what was possible with Glaze balancing principles would likely have resulted very quickly in application of the methodology to M1s. This together with front-end and firebox improvements might have resulted in a locomotive able to handle many upsized PRR consists as well as a brace of K4s without going to a nominally larger and heavier (with circulators and whatnot) rear boiler construction necessitating a two-axle truck. And capable of 100mph dash with the lower machinery speed of the M1 wheel...
I always mention about my fantasy HSR route in 1940s between Chicago and New York, offering 10 hours schedule for travelers, leaving both ends in the morning and arrive in the evening, or leaving at night and arrive in early morning, it probably only could happen in a sci-fi novel… or maybe a movie?
Would you settle for the 1870s? (Well in advance of the Chicago and New York Air Line, or the very well-developed plan for 18-minute-headway high-speed service between New York and Philadelphia from the late 1890s.)
That was the Weed electric railroad, which is notable in more than a few respects as an interesting idea. It starts with the idea that real high-speed service was necessary for packages and mail, not people ... and that streamlining a vehicle with small cross-section was far easier, and power and stability requirements far easier, than building de luxe express trains to run at high speed (even less cost-effective than either of those by itself!)
So, similar to a telpher or pneumatic-tube container, the Weed proposal involved small 'containers', here running unattended on narrow-gauge track. This reduced all the land-acquisition, grading, construction, and tax consequences to an extreme minimum, while preserving all the likelihood that "100%" of the lucrative business-paper market between various Eastern and Midwestern points" would go by the fastest means. The chief issue I always saw with this was security, but I think there were expedient ways (in the 19th Century, at least) to provide reasonable assurance against the usual kinds of damage or theft.
There is at least one picture 'out there' of field testing of one of the example cars, showing the general scale of the installation.
As an amusing aside, I thought when I first heard of the actual Weed proposal that it would be nifty to have the high-speed lines converge on a few central points, where the M&E would be resorted for maximum speed or minimum dwell in going to what would presumably be an REA-scale number of destinations in minimum end-to-end time. This would not be too different from what subsequently came to be the Federal Express model, but with 'mail-stop' aircraft rather than separate flights from all the originating points...
What I feel regret was that when the production T1s were put into service, they weren’t going as smooth as other steam engines like N&W Class J or NYC’s Niagaras; due to its innovative design and carelessness of Pennsy, quite a lot of rebuilt, modification and fine tune was needed ... at least one T1 [was] equipped with Franklin Type B poppet valve after rebuilt, if Pennsy thought it was as economic as diesel electric, they wouldn’t switch to diesel in 1948.
Speaking of N&W TE-1, I remember N&W wanted to order 19 more of this class, but the price of the engine was raised thus N&W given up…
Overmod…So that "71mph" is a VERY different thing in practice from a train that spends much of its time running around 70mph. (Meanwhile, conventional recip steam efficiency drops off remarkably fast above around 85-90mph, slightly above effective diameter speed, so it makes little sense to run much above that unless you have ways to monetize the actual speed or its associated time savings or can create the perception that you can (as with the Hiawathas).
Overmod I would not-so-humbly submit that the lion's share of the time reductions on the Century culminating in the low 15-hour range are attributable to operating improvements made possible by diesel-electric power. (And not just the sort of improvement that, say, a C1a with 64T tender would produce!)
Overmod As early as the 1880s (remember the context of the famous W.H. Vanderbilt quote?) railroads understood that competitive high speed was a waste of money and a source of pointless danger and damage. Technological changes coupled with the cutthroat economics in the Depression led to streamliner competition; see how fast most of that speed went away as soon as it couldn't be made to pay a premium. As with most else about a railroad, it's about the money. (And arguably should be.)
Overmod In all fairness, the situation is completely different. 5550 is explicitly an excursion locomotive, and won't be subjected to lowest-dollar operation by indifferent people in cheapest-cost service, with road damage left unattended unless and until critical. A production locomotive in the '40s needed substantial construction 'up front' and couldn't involve anything that might crack or break and let stuff fall off or, worse, get under the lead truck or the leading driver flanges.
Overmod But in the half-decade from 1945 to 1950 not just the T1, but ANY high-speed coal-burning steam locomotive became at best obsolescent, with any reciprocating power at all, including Roosen motor locomotives, becoming a dead letter. (It might have remained to be seen if the TE-1 could be evolved into a meaningful 'diesel alternative', but as it was built and operated it most certainly was not.) ……I would also note that in all the intervening years ... and not for want of brilliant design work, or trying ... heavy reciprocating power has never made a comeback on American railroads. "Plandampf" is cute, but most of it has to be 'rightsized' to work, and the least little complicating factor usually throws a wrench in the economics.
M636C At this time, the Japanese were building locomotives that looked just like this for the standard gauge in Korea: PS5 Pacific and MT1 Mountain... Peter
At this time, the Japanese were building locomotives that looked just like this for the standard gauge in Korea: PS5 Pacific and MT1 Mountain...
Peter
That's very interesting, Peter. I can't find a pic of them until I use the google translator to seaching in Korean, they really looked like PRR K4s #5038 of 1942!
OvermodThe issue was not the electrification; it was the railroad itself. Not for nothing was the 1928-on improvement plan contingent on substantial straightening and line relocations, and even then I have strong doubts that sustained fast running between slow points would have been practical for many years, far longer in the event than PRR would have had even had the Depression (and the political priority of the Washington electrification) not intervened.
OvermodThat was a squirrelly time for industrial electronics, let alone complicated control systems for complicated trains (developed in complicated Government programs). It also pays to remember how many times the Northeast Corridor had to be 'rebuilt' before it would actually support very-high-speed operation without an exordinate amount of shock and vibration to the equipment...
Overmod I call your attention to the fact that none of the fancy tin applied to this locomotive worked out in practice, except circumstantially in that cinders didn't preferentially accumulate under the front of the boiler where the angled plate was installed.
Overmod Note that I suspect the F7 could, and did, regularly reach speeds the E-4 couldn't, but these are in the very low 100s, about the same as the valve-limited ATSF 3460 class. My personal and somewhat uncharitable belief is that neither one would get much above 105mph on level track, with maybe 110 as an extreme top speed. (And an ATSF 3765 or better would probably go faster than that!)
Overmod Suspect this was conservative, as you'd be likely talking about the 'improved' J3s with roller rods and (various) disc centers. I don't particularly trust Haas (of 142+-mph-with-the-Trail-Blazer fame) when he says that both Hudsons and Niagaras regularly ran at 120mph, but I do think they would easily run well faster than 100mph when let out.
Jones1945Yes, he probably couldn't. But once the electrification was done, the facilities won't disappear after Clement left the office. How to max out the potential of the electrification was depending on PRR’s wisdom.
The issue was not the electrification; it was the railroad itself. Not for nothing was the 1928-on improvement plan contingent on substantial straightening and line relocations, and even then I have strong doubts that sustained fast running between slow points would have been practical for many years, far longer in the event than PRR would have had even had the Depression (and the political priority of the Washington electrification) not intervened.
I don't know if it is possible to extrapolate the rather cryptic data on the 1943 electrification to high speed. My impression of the plan was that it would reduce time by 'snapping' trains that would otherwise be horsepower-limited on grades, and reducing absolute grades (e.g. via the tunnel), rather than being the sort of line revision seen between New Brunswick and Trenton around the time of the Civil War (with station facilities that still look modern today... except for the primitive track!) which translate into high default speed potential. For PRR, that was always more of an electrification priority; examine the actual 'passenger' Main Line west of Philadelphia, and the Atglen and Susquehanna 'low grade' line, and you'll get a sense of what the massive Clement/Rea improvements were often intended to do.
Anyway, what happened in the history told us that Pennsy and Budd can’t even get the Metroliner to work properly, it wasn’t entirely Pennsy’s fault though.
That was a squirrelly time for industrial electronics, let alone complicated control systems for complicated trains (developed in complicated Government programs). It also pays to remember how many times the Northeast Corridor had to be 'rebuilt' before it would actually support very-high-speed operation without an exordinate amount of shock and vibration to the equipment...
Smoke deflector was not something the PRR management wanted to see on their engines, I am still wondering why.
Overmod You will note the somewhat lamentable history of 84" drivered Hudsons in practice, with C&NW notable for being unable even to reach 100mph in AAR testing... C&NW’s Hudson was almost identical to MILW’s F7, if the former’s engine couldn’t reach or hardly reach 100mph with normal passenger stock behind her, this may explain the short life of MILW’s F7.
Overmod You will note the somewhat lamentable history of 84" drivered Hudsons in practice, with C&NW notable for being unable even to reach 100mph in AAR testing...
NYC’s Hudson could reach 95mph max during a publicity test run in 1938 and they seldom and didn’t need to brag about top speed of their trains.
Even in 40s, it wasn’t hard to calculate the average speed of passenger trains, the fastest one was “merely” 71mph.
RRs needed their engine capable to maintain tight schedule; they were not looking for locomotive which could run faster than light. Even Pennsy stayed low-key or simply ignored all these speed claims from railfans.
If there are components inside the “porthole front end” than there should be some way to access to these components. If the production T1 of 1945 had feature like this (foldable front end), Pennsy didn’t need to waste so much time and man power to modify 52 of them.
“Project T1” of 1940s (not 5550) was supposed to be a demonstration of cutting-edge technologies; showing the public the future of coal burning steam locomotive. But unfortunately, it has become an imperfect full stop of steam locomotive.
Overmod Only just seeing this by reading on a larger screen. I don't even think Martin Clement could have arranged HSR to Pittsburgh……(Not that it wouldn't have been fun to watch them try!)
Overmod The only conclusion I was ever able to reach about the T1 smoke was that when the locomotives were designed and tested, the assumption was that they would always be using good PRR passenger 'gas coal'…… We do know that PRR played with smoke deflectors (I remember them on K4s and of course the 6200) but I have no idea if their versions worked, and I'd surmise not well enough since they were not applied in the widespread fashion they were on, say, NYC.
Overmod You will note the somewhat lamentable history of 84" drivered Hudsons in practice, with C&NW notable for being unable even to reach 100mph in AAR testing, and Santa Fe getting little faster even with much more heroic proportions; no one claims comparable top-speed limitation for the S1 if they are even borderline sane. The question was getting that fast, not sustaining it...)
Overmod I might mention, in passing, that studies were done to examine whether the nose of the Trust's 5550 could be built, like the nose of the Chezoom, as one piece of composite that would fold up on hinges to allow access to the components (including, if used, a more standard type of feedwater heater) on the pilot beam.
daveklepper As good as an EMD E-8? To replacd a T-1 with diesels, even just to fully replace a K-4, at least two E-8 units are required. As good as an F40P might be better.
As good as an EMD E-8? To replacd a T-1 with diesels, even just to fully replace a K-4, at least two E-8 units are required.
As good as an F40P might be better.
Yes, I think an EMD E8, maybe a A/B set, was a good candidate to compare with T1 in late 1940s. As Overmod stated in pervious post that even renowned steam engine like NYC Nigeria was barely as good as an E7 base on the result of Kiefer’s test in 1946. RRR T1 and S2 could outperform early diesel at high speed but the latter didn't have the chance to be mass produced. If 5550 can prove that a T1 using Franklin B rotary cam poppet valves can outperform and as economic as an E8, Pennsy might kept developing coal burning steam engine a few years more. (enough time to give S2 a new firebox and make it works)
Note that In 1937, AAR wanted to see what power was needed to get 1000 tons of passenger stock up to 100mph, thus a test was undertaken in 1938 and the result showed that 3370-3400 dphp were needed to maintain 100mph along the level with 1000 tons, 4000 dbhp was needed to accelerate the train to that speed within acceptable times and distance. I don't know if a 1000 tons passenger consist was still a common thing in PRR system or not after the declining of ridership since 1946, but I think an EMD E8 or A/B set (or even the E7A/B ordered in 1946) were powerful and economic enough to handle PRR's postwar (shorter) passenger consists. T1's high TE and dbhp will always be a fascinating thing on paper, but operation cost was Pennsy’s main concern, not to mention the "79 mph speed limit" thingy, thus they did pick EMD E8 and some “interesting” diesels from Baldwin and Alco instead of building more T1s.
daveklepperAs good as an F40P might be better.
Had there been any in the late Forties.
You'd still need at least two F40s, even F40Cs, to approximate the high-speed power of a T1. Even a single Charger doesn't quite get there on paper.
Of course, even a single E8 can be a 'fair comparison' if you don't care how quickly the train accelerates or what its balancing speed turns out to be... especially if the E8 'just runs' much more of the time without needing maintenance or service attention.
Jones1945PRR’s electrification of the Northeast corridor was their biggest contribution to America, the positive affection of Penny’s decision is still there. If things went according to plan, NYC, Philadelphia, Baltimore, Washington D.C, Pittsburgh would have become the largest HSR network at the time.
Only just seeing this by reading on a larger screen.
I don't even think Martin Clement could have arranged HSR to Pittsburgh. That was a different line altogether from what became the NEC. diverging from the high-speed line via a cutoff through North Philadelphia, and even with the proposed tunnel under Horse Shoe would be a difficult proposition for true high speed sustained long enough to make an important difference. (Not that it wouldn't have been fun to watch them try!)
"Balmar" (for Baltimore, Maryland) was the Franklin plant where the poppet-valve equipment was manufactured. I don't remember the full story of the fascinating interlocking ownership of the Coffin empire in locomotive auxiliaries and components, but there are some people like Dave Grover who have teased it out in all its seamy glory, including the Westinghouse role in taking down Baldwin as a locomotive manufacturer, and I encourage you to research this for a side of the 'business' that most railfans never saw.
The only conclusion I was ever able to reach about the T1 smoke was that when the locomotives were designed and tested, the assumption was that they would always be using good PRR passenger 'gas coal' and not the sort of dirty run-of-mine stuff used for lesser power. Trying to run a high-speed 4-8-4 equivalent on unwashed, unsized coal on a 92-foot grate was always going to be an exercise in soot generation, and what was inconvenient aerodynamics with a clear stack became prep for the minstrel show ... can I make fun of it like that in this new post-#metoo world? didn't work out for Schnatter even though he was quoting Harlan, so perhaps we have to watch it. We do know that PRR played with smoke deflectors (I remember them on K4s and of course the 6200) but I have no idea if their versions worked, and I'd surmise not well enough since they were not applied in the widespread fashion they were on, say, NYC.
PRR wouldn't buy Hudsons from Baldwin for the reason I gave earlier: they had just spent to get 475 K4s, including 200 from Baldwin, some as late as 1928 (into the real Hudson era). By the time they were looking at better power, it was into the era of the true high-speed 4-8-4 and there was no point in considering anything but eight-drivered power -- had the divided-drive 84"-drivered locomotive worked out there would have been no need for a trivial little Hudson, and modern balancing made an 80"-drivered locomotive perfectly fast enough for what 'used' to demand an 84" wheel. (You will note the somewhat lamentable history of 84" drivered Hudsons in practice, with C&NW notable for being unable even to reach 100mph in AAR testing, and Santa Fe getting little faster even with much more heroic proportions; no one claims comparable top-speed limitation for the S1 if they are even borderline sane. The question was getting that fast, not sustaining it...)
I might mention, in passing, that studies were done to examine whether the nose of the Trust's 5550 could be built, like the nose of the Chezoom, as one piece of composite that would fold up on hinges to allow access to the components (including, if used, a more standard type of feedwater heater) on the pilot beam. That would have made the porthole type front end much more practical, had it been used, and was considered not a meaningful deviation from historical accuracy for the purposes of the Trust's replication, at the time. It might be interesting to have seen how materials like Cycolac or "Endura" might have been used if streamlined steam had persisted a decade or two later than it did... or, for that matter, if the soybean-fiber-in-phenolic used for the body panels in Ford's hemp-powered Volkswagen analogue had panned out.
As good as an EMD E-8? To replace a T-1 with diesels, even just to fully replace a K-4, at least two E-8 units are required.
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