Streety McCarface
Senior Member
I'm pretty sure the hybrid buses are lemons (especially the older buses) and that we're just testing out battery buses now. We genuinely don't know how the battery-operated buses will fare in Toronto. This is how we do things, we don't procure a huge order for an unproven technology without testing it and ensuring its longevity first, because it may have awful consequences for us in the future.
There are far more challenges when using battery-operated trains than you seem to think, you're not just installing batteries into a train and calling it a battery train. Batteries themselves are extremely heavy and take up a lot of space, and you require 25 tonnes of batteries to run a train for 2 hrs with a factor of safety of 2. EMUs already distribute the weight of the locomotive among its cars (in the form of traction motors and additional electric infrastructure), so this is 25 tones of additional weight added to the train. If we extend the use of the locomotive to all-day without charging (which is extremely impractical), then we'd require 200 additional tonnes of dead weight — the equivalent mass of 4 EMUs. This has to be factored into rail wear (which is close to negligible but not quite there), additional capacity requirements, electricity usage (as if batteries weren't inefficient enough), and cost. There's also the additional cost of this type of rolling stock, finding a suitable vendor, and charging infrastructure. Battery charging itself is very challenging in cold weather climates, and it may not be practical for such a large train here in Toronto. When you have additional weight you require heavier traction motors (further increasing cost).
Lifecycle costs are a whole different issue. Electric infrastructure can last almost a century before needing a full replacement, while a battery-operated train may only last 20 years. Batteries for a train that would run all day would cost an additional 4 million dollars at current prices, assuming cost decreases don't occur faster than inflation, that could cost GO transit an additional 1.8 billion dollars on batteries alone. (I didn't include maintenance for either because it's too hard to estimate with the resources I currently have, though I'd expect battery maintenance to be far more expensive).
If you're talking about just throwing batteries on the existing trains and calling it a day, that's not really possible. Again, you'd be adding about 17 tonnes of batteries per biLevel coach. That is enough to warrant a complete structural strengthening for the entire coach. This doesn't even include the additional weight of electric traction motors, inverters, pantographs, and other electric train components. You'd have to start from scratch. If you're willing to find a train manufacturer that's willing to build at least 320 heavy rail, battery-operated vehicles that conform to Transport Canada standards, are not prohibitively expensive and have the capacity required to run our transit system, please, be my guest.
Battery-operated trains may have the potential to run on spur lines (maybe a future Bolton line, maybe it can be run through the Georgetown spur and rejoin electrified rail along the Guelph spur, maybe to Bowmanville, possibly to Niagara Falls), but there are far too many impracticalities and unknowns to justify investing in them right now, especially when the technology doesn't fit the needs of our system.
