- Full conversion to 100% EMU + capacity increase ($440M)
- Broadband ($30M)
- Maintenance facility improvements ($36M)
- Level boarding and platform extensions ($250M)
There will be three important issues to keep an eye on:
1) Level Boarding
Level boarding is the logical next step after electrification, and a perfect complement: where electrification reduces time in motion, level boarding reduces time at rest. Every second of trip time saved is equally valuable, which is why cutting station dwell times is enormously important.
Not all level boarding solutions are created equal, and it's not enough for the height of the platform to equal the height of the train floor. To enable dense "blended" traffic on the peninsula corridor, what Caltrain needs is unassisted level boarding where persons of reduced mobility can board without the help of a conductor across an ADA-compliant gap. That means NO bridge plates, NO exterior lifts, and NO conductor assistance.
While the new EMUs will have the ability to dock at 51" platforms, staff and consultants evidently do not agree on a path forward towards system-wide level boarding. With a nine-figure amount being contemplated for platform extensions and level boarding under CalMod 2.0, the approach and transition strategy needs to be straightened out, and soon, to avoid enormous "do over" costs. And we should not let Caltrain claim that platform extensions for 8-car trains will cost a lot: the real price tag for that is in the range of $25 million.
2) Short EMUs for Frequent Off-Peak Service
|Base order (blue) and option order|
(orange) show fleet composition
for 100% electric service
Use case #1: during rush hour, to run a 70 minute SF Transbay - South San Jose schedule at 6 tph per direction with 20 minute turns at each end, you need (70+20)/60 * 6 * 2 = 18 trains in service, plus one extra train available at each end of the line to protect against cascading delays, or 20 trains available for service. Allowing for a couple of trains to be down for maintenance, we need 22 trains total @ 8 cars each.
Use case #2: off-peak service running at 80 minutes SF Transbay - South San Jose at 3 tph per direction with 20 minute turns at each end, you need (80+20)/60 * 3 * 2 = 10 trains in service, plus one extra train at each end, or 12 trains available for service. Throwing in another two trains down for maintenance, we need 14 trains total. Because it's very expensive to haul around empty seats, these must be short 4-car trains.
Supporting both of these use cases within the overall size of the Stadler order (96 cars base order + 96 cars option) requires the option order to consist primarily of 4-car EMUs, as shown in the figure at right. At peak times, 4-car EMUs would operate in pairs, mixing with the rest of the 8-car subfleet. If needed in the long term, EMUs could be extended to 12 cars by coupling 8 + 4 cars.
3) Just Say No to a Third Bike Car
Bringing a bike on Caltrain is one of the finest ways to commute; your author has done it hundreds of times. The bikes-on-board community is already gearing up to pressure Caltrain into adding a third bike car to the future 8-car EMUs, deeming the two bike cars in the base order 6-car EMUs to be inadequate. The typical argument goes that any bike "bumped" is a paying customer left behind, which is a logical argument when spare capacity is available. However, with trains at standing room only peak loads (by design!) there are plenty of potential non-bike passengers left behind. They are not "bumped" in the literal sense, since they don't even show up at the train station. Here's why: when the cost of enduring a crowded train trip becomes unbearable, the invisible hand of supply and demand pushes more and more potential riders to drive instead.
Under SRO conditions, every free bike space on the train displaces a paying passenger, a sort of "reverse bumping" effect that explains quite elegantly why, for example, the Paris RER does not and should not have dedicated bike cars. Caltrain has gone quite far enough in providing free bike space on board, and should not have a third bike car in 8-car EMUs, in everyone's interest of maximizing peak passenger capacity. In the long term, bike commuters will benefit more from world-class bike parking.