A few notes before continuing on:
1) No attempt was made to model the impact of inclines upon train performance.
2) An aggressive stance was taken towards acceleration and braking which may not be the actual practice with Amtrak.
3) The information that I am using to construct the timetable is several years out of date (and a newer Metrolink timetable has replaced it); there are track improvements that are not reflected in it.
4) This is not a professional level simulation (it is, in fact, using spreadsheets to solve it as a set of physics problems) and while I think that the output is generally going to be substantially accurate, it shouldn't be treated anything at all like it's gospel.
5) I've done this with a unidirectional track assumption, which meant going onto a siding with a couple of Coaster stations where the northbound platform is on a siding a bit than the mainline where the Surfliner (normally) doesn't stop, which does slow the train somewhat over a purely optimal run.
Lastly, I would like to thank the folks at the Railway Performance Society, especially David Stannard and John Heaton, for their assistance with British train performance.
To begin with, here's a profile of the Surfliner corridor up to Los Angeles. Note that while there is a maximum speed of 90 miles per hour, there are a number of slow downs which severely limit the amount of time spent at that speed and resulting in the current average speed of only 46.5 miles per hour.
For reference, the following is a list of stations on the corridor with normal Amtrak stations in bold.
San Diego Santa Fe 0.0 miles
San Diego Old Town 3.3 miles
Sorrento Valley 18.5 miles
Solana Beach 25.7 miles
Encinitas 29.8 miles
Poinsettia 34.2 miles
Carlsbad Village 38.3 miles
Oceanside 41.1 miles
San Clemente Pier 62.7 miles
San Juan Capistrano 70.3 miles
Laguna Niguel 73.8 miles
Irvine 82.5 miles
Tustin 88.0 miles
Santa Ana 92.3 miles
Orange 94.9 miles
Anaheim 96.9 miles
Fullerton 102.2 miles
Buena Park 107.3 miles
Santa Fe Springs 112.6 miles
Commerce 119.1 miles
Los Angeles 128.8 miles
Now let's look at that with the performance of Amtrak's current equipment overlaid upon it.
Acceleration was derived from the Fairmount DMU study (with some extrapolation) and the minimum breaking specifications for the Next Generation Bilevels (page 37). Both acceleration and braking may be understated, especially as the Fairmount study train set tops out at only 90mph and the Surfliner equipment is rated for 110mph. However, rounding up every arrival to the next minute (which is probably overly conservative), adding two minutes of dwell time at every station (except Old Town), and adding a 7% pad into the Los Angeles arrival time produces a run time of 2:49, comparing well with the actual best scheduled time of 2:45. On the other hand, the model appears to be somewhat faster than the actual trains on during the journey with an accumulation of 1-3 minute errors; compare with the first run of the day for example
Amtrak 763 | Model Push-Pull | Difference | Intermediate Differences | |
San Diego |
0h 0m
|
0h 0m
|
0h 0m
|
0h 0m
|
Old Town |
0h 7m
|
0h 6m
|
-0h 1m
|
-0h 1m
|
Solana Beach |
0h 38m
|
0h 35m
|
-0h 3m
|
-0h 2m
|
Oceanside |
0h 57m
|
0h 52m
|
-0h 5m
|
-0h 2m
|
San Juan Capistrano |
1h 29m
|
1h 21m
|
-0h 8m
|
-0h 3m
|
Irvine |
1h 43m
|
1h 34m
|
-0h 9m
|
-0h 1m
|
Santa Ana |
1h 54m
|
1h 46m
|
-0h 8m
|
0h 1m
|
Anaheim |
2h 3m
|
1h 56m
|
-0h 7m
|
0h 1m
|
Fullerton |
2h 12m
|
2h 5m
|
-0h 7m
|
0h 0m
|
Los Angeles |
2h 45m
|
2h 49m
|
0h 4m
|
0h 11m
|
On the other hand, using Amtrak's best run between each city would show the model to be a bit slow, but not overly so except for Fullerton to Los Angeles. I take it to indicate that the model is grossly accurate with probable errors in dwell or padding assumptions.
Best runs | Model Push-Pull | Difference | Intermediate Differences | |
San Diego |
0h 0m
|
0h 0m
|
0h 0m
|
0h 0m
|
Old Town |
0h 6m
|
0h 6m
|
0h 0m
|
0h 0m
|
Solana Beach |
0h 35m
|
0h 35m
|
0h 0m
|
0h 0m
|
Oceanside |
0h 49m
|
0h 52m
|
0h 3m
|
0h 3m
|
San Juan Capistrano |
1h 19m
|
1h 21m
|
0h 2m
|
-0h 1m
|
Irvine |
1h 33m
|
1h 34m
|
0h 1m
|
-0h 1m
|
Santa Ana |
1h 43m
|
1h 46m
|
0h 3m
|
0h 2m
|
Anaheim |
1h 51m
|
1h 56m
|
0h 5m
|
0h 2m
|
Fullerton |
2h 0m
|
2h 5m
|
0h 5m
|
0h 0m
|
Los Angeles |
2h 34m
|
2h 49m
|
0h 15m
|
0h 10m
|
When it comes to improving the run times, the most straightforward thing for LOSSAN to do would be to do as All Aboard Florida is doing and simply run each train with two locomotives. EMD was kind enough to provide acceleration curves in their protest letter and this was used to create the improved push-pull model, retaining the braking from the earlier one. Out of an abundance of caution, I used the curves for two EMD F125s hauling 1,360,000 pounds (eight cars) with 600kW of HEP rather than those that they produced for the competing Siemens Charger. As it is, Metrolink is purchasing F125s for its own use, which will make the use appropriate in the forthcoming commuter edition of this, and there are no plans to deploy Siemens Chargers on the Surfliner (second to last page). It should be noted that this model unfairly penalizes the proposal somewhat as the current planning is to lengthen the Surfliners to only 7 cars, not 8.
It's immediately obvious that adding another locomotive is superior, but dwell time and padding requirements prevent the improvement from being as great as it visually appears. Still, there's a consistent one minute reduction for nearly all stations, leading to a 13 minute (8%) reduction in total travel time.
Model Push-Pull | Improved Push-Pull | Difference | Intermediate Differences | |
San Diego |
0h 0m
|
0h 0m
|
0h 0m
|
0h 0m
|
Old Town |
0h 6m
|
0h 5m
|
0h 1m
|
0h 1m
|
Solana Beach |
0h 35m
|
0h 32m
|
0h 3m
|
0h 2m
|
Oceanside |
0h 52m
|
0h 48m
|
0h 4m
|
0h 1m
|
San Juan Capistrano |
1h 21m
|
1h 16m
|
0h 5m
|
0h 1m
|
Irvine |
1h 34m
|
1h 28m
|
0h 6m
|
0h 1m
|
Santa Ana |
1h 46m
|
1h 39m
|
0h 7m
|
0h 1m
|
Anaheim |
1h 56m
|
1h 48m
|
0h 8m
|
0h 1m
|
Fullerton |
2h 5m
|
1h 56m
|
0h 9m
|
0h 1m
|
Los Angeles |
2h 49m
|
2h 36m
|
0h 13m
|
0h 4m
|
There's two different ways we can go about expensing this option. The first is simply to estimate the expense of purchasing two locomotives for each of the nine Surfliner train sets, an additional two for protection and maintenance reserve, and seven cars to replace the current single level Amfleet/Horizon set. With one cab, one café, and five coaches, the cars would come out to $19.3 million (see Table 9.2 on page 3 of attachment C for prices) while the locomotives, at $7 million each, would raise the total price to $159.3 million, approximately $12.2 million per minute saved. However, the Surfliner and Superliner cars currently making up the other 8 consists aren't exactly spring chickens themselves and will be needing replacement in the relatively near future; something that might as well be done while purchasing the new cars to lengthen them. In that case, using the existing cars for maintenance reserves, it would cost $219.7 million (accounting for the new bilevels already on order) to replace and lengthen every train set, for a cost of $16.9 million per minute cut from the schedule.
Of course, if we're going to replace everything, why not just go whole hog and go with a DMU? Lower weight and distributed traction allows us to have even faster acceleration and we don't waste any space with locomotives. There is the slight downside of passengers reporting increased engine noise and vibration however.
Using the more conservative lower bound level acceleration of the Class 221 is still more than enough to rapidly outperform a beefed up push-pull train with an overall 18 minute (11%) reduction in travel time (braking was a constant 2 mphps, the source for which I've lost at some point in the six months between creating the model and writing this up). Given how far off the Los Angeles padding appears to be however, the actual result may be even better in the real world.
Model Push-Pull | Model DMU | Difference | Intermediate Differences | |
San Diego |
0h 0m
|
0h 0m
|
0h 0m
|
0h 0m
|
Old Town |
0h 6m
|
0h 5m
|
0h 1m
|
0h 1m
|
Solana Beach |
0h 35m
|
0h 32m
|
0h 3m
|
0h 2m
|
Oceanside |
0h 52m
|
0h 47m
|
0h 5m
|
0h 2m
|
San Juan Capistrano |
1h 21m
|
1h 13m
|
0h 8m
|
0h 3m
|
Irvine |
1h 34m
|
1h 25m
|
0h 9m
|
0h 1m
|
Santa Ana |
1h 46m
|
1h 35m
|
0h 11m
|
0h 2m
|
Anaheim |
1h 56m
|
1h 43m
|
0h 13m
|
0h 2m
|
Fullerton |
2h 5m
|
1h 51m
|
0h 14m
|
0h 1m
|
Los Angeles |
2h 49m
|
2h 31m
|
0h 18m
|
0h 4m
|
In 2002, HSBC Rail purchased 127 Class 222 Meridian DEMUs derived from the same family of vehicles for £154 million. At 2002 exchange rates that would be approximately $231.5 million or $303.9 million in 2014 dollars. This would make the price per car $2.4 million (alternately, the Class 395 cost $3.3 million per carriage with similar exchange and inflation though this may include some maintenance). Per Wikipedia, two conjoined 5-car sets would come closest to matching the current Surfliner capacity and ten such sets (9 for operations and one reserve) would cost $240 million (or $330 million with the alternative calculation). Simply purchasing new locomotives is more cost effective, but it isn't by much as the DMU option ranges $13.3-18.3 million per minute saved.
What about electrification however? The short and simple answer on electrification is that it won't be terribly cost-effective, compared to the other options. In addition to the cost of rolling stock, catenary would need to be installed over the corridor and several multibillion dollar tunneling projects already roughly scheduled for ordinary capacity increases would get lumped in, both for pragmatism, NIMBY complaints, and environmental reasons. But let's hand wave this for a moment to see what might be; we'll pretend that California has awoken to a thunderous "Fiat electris!" and a bill for the newly installed catenary.
First, I must admit that I'm not overly thrilled with the modeling of the EMU. Acceleration (taken from page 17) doesn't quite match up with other sources and there's just something that feels off about it. Braking was 2.91 mphps in accordance with information from the TGV (page 128). For intercity rail, I am assuming that high speed vehicles are used as an extension of the California high speed rail system; if the Surfliner is to have its own separate electric trains then slower but faster accelerating trains would make more sense. As it is, electrification, with no other track improvements, only cuts an additional three minutes from the schedule, though it does now come below two and a half hours.
Model Push-Pull | Model EMU | Difference | Intermediate Differences | |
San Diego |
0h 0m
|
0h 0m
|
0h 0m
|
0h 0m
|
Old Town |
0h 6m
|
0h 5m
|
0h 1m
|
0h 1m
|
Solana Beach |
0h 35m
|
0h 30m
|
0h 5m
|
0h 4m
|
Oceanside |
0h 52m
|
0h 45m
|
0h 7m
|
0h 2m
|
San Juan Capistrano |
1h 21m
|
1h 11m
|
0h 10m
|
0h 3m
|
Irvine |
1h 34m
|
1h 23m
|
0h 11m
|
0h 1m
|
Santa Ana |
1h 46m
|
1h 33m
|
0h 13m
|
0h 2m
|
Anaheim |
1h 56m
|
1h 41m
|
0h 15m
|
0h 2m
|
Fullerton |
2h 5m
|
1h 49m
|
0h 16m
|
0h 1m
|
Los Angeles |
2h 49m
|
2h 28m
|
0h 21m
|
0h 5m
|
Using the High Speed Rail Authority's estimate of $45 million per set and assuming that ten sets would remain necessary, we would have a price of $450 million just for the rolling stock, $21.4 million per minute saved. But at approximately $3.6 million per route-mile for electric traction (calculated from here), we have an additional $463.7 million to account for ($913.7 million total) raising it to $43.5 million per minute saved. Even worse, an improved push-pull or DMU is able to continue north of Los Angeles to Santa Barbara and San Luis Obispo without needing a diesel locomotive to be brought in to tow it and is able to make improvements on that segment as well; an electric train is not able to do so without spending a significant sum electrifying that portion as well.
In short, reequipping the Pacific Surfliner with a new fleet of diesel multiple unit trainsets provides the greatest reduction in travel time at reasonable cost and may provide the greatest reduction in travel time for the least expense, depending on the actual costs and how existing equipment is accounted for. The next post, hopefully in less than six months, will look at Coaster and Metrolink rolling stock while further posts will deal with track improvements.
Models may be found here. The Numbers files are the originals, Excel versions are provided as well but may have conversion errors. Additionally, I used Metrolink's Timetable No. 7 and BNSF's California and Los Angeles Divisions Timetable #3.