I’m curious how/where this data comes from, seems like it would vary a lot, e.g. Seattle and SF have some electric busses using catenary wires, Chicago has diesel-electric hybrids, Bogotá has dedicated lanes so busses aren’t sitting in traffic, etc. Different cities will have different mode share, too, so some systems will have more riders. In Chicago, the train system is distributes inequitably, leading to a higher mode share for the train in wealthy areas and a higher mode share for the bus in poorer areas.
No one’s designing specialty engines for buses. They just pick a model from their catalog(s) that is within specs, and most of those are seeing the same kinds of efficiency gains as other internal combustion engines.
If anything, they’re somewhat exempt from the higher emissions standards of cars, so they might actually be more efficient, passenger-mile-per-gallon. Or at least, that would be my first guess.
Reasons for this could be:
I’m curious how/where this data comes from, seems like it would vary a lot, e.g. Seattle and SF have some electric busses using catenary wires, Chicago has diesel-electric hybrids, Bogotá has dedicated lanes so busses aren’t sitting in traffic, etc. Different cities will have different mode share, too, so some systems will have more riders. In Chicago, the train system is distributes inequitably, leading to a higher mode share for the train in wealthy areas and a higher mode share for the bus in poorer areas.
it’s also much easier for a city to electrify its bus fleet, vs convincing private citizens to go electric with their personal cars.
No one’s designing specialty engines for buses. They just pick a model from their catalog(s) that is within specs, and most of those are seeing the same kinds of efficiency gains as other internal combustion engines.
If anything, they’re somewhat exempt from the higher emissions standards of cars, so they might actually be more efficient, passenger-mile-per-gallon. Or at least, that would be my first guess.