News Wire: Rose says BNSF will extract efficiencies from PTC, prefers battery power to natural gas for locomotives

If all of this specialized electrification is only needed to comply with California regualtions, shouldn't shipping rates be raised for California rail customers in order to cover the extra cost of their regulations?

kgbw49

Just a couple of questions for the sake of gaining knowledge.

Would electrification of CA main lines require swapping power at Needles, Sparks, Yuma, etc.? Also, what kind of clearance is needed for the catenary above doublestacked containers? Would overpasses and tunnels have to be undercut to give clearance for doublestacks?

Thanks in advance for sharing any knowledge!

Double stacks are 20 feet 2 inches high.  My understanding is that new built overpasses are required to clear the top of rail by 25 feet.  I am certain that any number of existing tunnels and structures are less that 25 feet ATR.  How much would have to be done to install catanery for safe operation I don't know.  I don't know how much 'arc over' distance is required for safety.

Just a couple of questions for the sake of gaining knowledge.

Would electrification of CA main lines require swapping power at Needles, Sparks, Yuma, etc.? Also, what kind of clearance is needed for the catenary above doublestacked containers? Would overpasses and tunnels have to be undercut to give clearance for doublestacks?

Thanks in advance for sharing any knowledge!

CSSHEGEWISCH

Another issue that has been overlooked is the price of natural gas.  Like any commodity, its price can swing pretty widely and not necessarily in the same general pattern as crude oil.

 

It has in the past.  It probably will in the future.  But, in the long term, it competes with oil on a BTU basis.  As the gap in price drives gas consumption up, the price gap narrows.

If I were a RR, I'd leave natural gas alone.  

I'm still thinking that electrification of mainlines is a better investment than battery power.  

Some "back of the envelope" math...

Gallon of diesel has 40 hw-hrs of energy.  Loco holds 4000 gallons. Efficiency is roughly 33%.  So road loco would need to store 53,000 KW-hrs of electrical energy.  

A Tesla 10KW-hr "powerwall" battery costs $3500.  You'd need to spend $19M in batteries to build a road loco.  For a fleet of 2000 of these beasts you'd spend $38B.  If you purchased electrics at, say $5M each, you'd have $28B left over to string wire.  

Catenary is about $2 M/route-mil, so you could string wire over 14,000 miles of route.  

Electrification is a slam dunk unless batteries get an order of magnitude cheaper.

Other factors in favor of electrification over battery include no need to replace worn out batteries due to cycling.  No risk of battery fires, no need to build and install charging stations.  No "running out of fuel".

Electrics also contribute to increased velocity which reduces equipment costs.

Another issue that has been overlooked is the price of natural gas.  Like any commodity, its price can swing pretty widely and not necessarily in the same general pattern as crude oil.

samfp1943

I am a little surprised that it seems that no poster noted that current locomotive fleet utilizes its own power generation, and then dumps it off as heat[Dynamic Braking].

Sam, 'regenerative braking' is dynamic braking (which has nothing to do formally with 'dumping energy off as heat' but with providing counter EMF to motion in the motors) recovering some proportion of the braking energy, in the case of a hybrid as useful storage for propulsion.  Since a great deal of modern train handling is done with dynamic rather than friction braking, recovery of that power during the potentially long run 'to California' does represent a reasonable motive-power savings, or alternatively an absolute emissions reduction for a given required consist peak drawbar hp inside California, certainly within particular air-quality management districts.

Lead-acid batteries are functionally ill-suited to just about any railroad application; in my opinion, designing modern high-energy-density batteries with adequate cell and array cooling and strong, armored inter-cell structure is a far superior answer.  It is not particularly difficult to design a crossbar switching system for the battery that allows temperature and rise rate in individual cells to be monitored, and charging parameters adjusted in response.

'Battery Powered Locomotives'   kind of a stunning concept in the era of automotive hybridization.  IMHO.  Solar arrays(?) cantenary(?)  targets in 2020(?).  I am a little surprised that it seems that no poster noted that current locomotive fleet utilizes its own power generation, and then dumps it off as heat[Dynamic Braking]. 

Huw about NS #999 (?) A battery locomotive that they have been working on now for several years, and it still seems to be not much more than a research tool?   Is that going to be the future, I am no engineer but it seems that lead acid bateries are slowly loosing out to the more 'modern' batteries that utilize exotic combinations of metals to utilize their capacity. [ Battery types that on a small scale power the various electronic devices these days.]  In a larger size, would they be useful until they explode? Seems they would potentially, be able to turn a locomotive crew into modern  Kamikazies(?)

Natural Gar would carry its own sets of problems, and rewards, as it powered trains around the country. 

Link to TRAINS Newswire article @ http://trn.trains.com/news/news-wire/2015/01/bnsf-moves-lng-testing-north

and this linked article from Progressive Railroading @ https://www.progressiverailroading.com/csx/article/Whats-next-in-emerging-technologies-for-short-line-railroads-Quite-a-bit--49362

Electric Powered utilization would require , it seems, a re-engineering of the entire American/Canadian and Mexican railroad net.(?)

Has battery technolgy expanded so much since this discussion?

http://cs.trains.com/trn/f/111/t/261577.aspx 

I would think it easier to string wire (catenary) on main routes and use straight electrics for through trains.  Maybe having the road power to have battery capability to operate on auxilary tracks, including sidings and service tracks to cut down how many tracks need to be wired.  Let battery/hybrid engines work the less demanding service like yard and local work.

Jeff

Ulrich

...batteries could be mounted on a tender behind the locomotive.

I think that's kind of where the slug idea was going.  There would just be a couple more cables to connect or disconnect.  And you'd have that many more axles pulling, etc.

I don't see battery weight as a problem... batteries could be mounted on a tender behind the locomotive. When the batteries run down the battery tender is simply switched for another. And battieries could also be charged through regenerative braking.. further enhancing efficiencies. I hope they get on with it.. electric locomotives are the way of the future. 

Overmod

Personally I don't think the added gain from solar arrays would justify the investment, let alone the maintenance, but don't let me rain on the parade.

It was just a thought - a lot would depend on whether a solar array that would fit would be able to provide enough power to be worthwhile, even if only for charging while the unit was parked.  It might be more worthwhile to put in a solar powered charging station, using ground mounted panels.

Trying to be green, you know!

tree68

A lot will depend on how much battery can be added to such a unit before weight becomes a problem.

It's not a problem.

About the closest to a worry you have is if using 'conventional' lead-acid chemistry with all the insulation, shock protection, charging logic and so forth you need to get even AGM to work correctly in that application (most contractors that have built locomotives using it have more or less failed to produce useful results long-term).  If you get a copy of the COMSOL multiphysics 'demo disk' they have a reasonably readable technical discussion of the battery solution GE used in their full-size hybrid locomotive, and you can probably get from there to the 'legacy' versions of sodium/sulfur without too much difficulty.  Modern Li-ion strings of course are not a weight problem net of required ballasting for even minimum adhesion ... and you don't have the whole weight of the prime mover and ancillaries in a road slug in the first place.

A design decision is whether to run the motors on the 'battery vehicles' entirely from battery strings, like the old tripower units, or to work them as hybrid vehicles in conjunction with the engine/alternators either in genset or slug-mother power.  Arguments can be made either way, with regenerative braking being fully available down to almost zero road speed either way with the right motors and control electronics.

Personally I don't think the added gain from solar arrays would justify the investment, let alone the maintenance, but don't let me rain on the parade.

kgbw49

t would be interesting to see if they develop large “battery tenders” that get charged while rolling through other states

They could do like CSX and make the road slug/battery tenders capable of leading - increases flexibility.  And I think I've heard that the crews like them - nice and quiet.

While the gain wouldn't be huge, the possibility of adding solar to the top of the slug/tender exists as well, in addition to regenerative braking.  It could allow the units to be shut down while maintaining/building the charge.

A lot will depend on how much battery can be added to such a unit before weight becomes a problem.  Even so, being able to use chiefly battery in pollution problem areas (LA Basin) while running on Diesel out in the "wide open spaces" could be inviting.

kgbw49

It would be interesting to see if they develop large “battery tenders” that get charged while rolling through other states and then take over supplying the traction motors at the CA State Line.

That is an interesting idea, particularly if they are preferentially 'charged' extensively with regenerative braking energy, and the diesel prime movers are still used for baseline in California but in steady-state at least marginal emissions within CARB spec.  You would probably produce these not as "tenders" but as road slugs semi-permanently assigned to particular consists, not necessarily leading, and with traction motors enabled.

It would be interesting to see if they develop large “battery tenders” that get charged while rolling through other states and then take over supplying the traction motors at the CA State Line. The science and engineering will be interesting no matter the solution.