Towered
Superstar
Wouldn't it be more useful to add another E/W line if ever OL is at capacity... say on College?
Mini DRL along Dundas - from Dundas West station to Broadview station.
Wouldn't it be more useful to add another E/W line if ever OL is at capacity... say on College?
I don't think people are ignoring it, it's just been stated many times in this thread that the capacity of a 4 track mainline railway corridor is going to be more than sufficient for a very long time. Signalling and operational upgrades should happen well before we need more than 4 tracks heading downtown. We should also be investing in new or upgraded corridors before we reach the capacity of the GO corridor.
Multiple generations, if ever.What would you say is 'a very long time'?
While the Ontario Line may - and I stress, *may* - be able to reach that number, there is absolutely, positively nothing inherent to the design of the TR cars - or any other subway car ever used in Toronto - limiting them to 120 second headways. Anyone who suggests such a thing really doesn't understand how those systems work.The difference is that the OL will be able to reach 90 second frequencies and the TR tech will only be able to do 120.
It may not be exclusively the only reason why, but I would suggest that it factors in quite strongly, yes.Just speculating, do you think they are making Queen and probably Osgoode stations so deep to avoid the issues they encountered underpinning line 1 at Eglinton station?
I'm not sure I understand the skepticism. It's not unprecedented to operate at 40 tph, and the line is being designed for it from the ground up, not as a retrofit.While the Ontario Line may - and I stress, *may* - be able to reach that number, there is absolutely, positively nothing inherent to the design of the TR cars - or any other subway car ever used in Toronto - limiting them to 120 second headways. Anyone who suggests such a thing really doesn't understand how those systems work.
The assumption is that the TRs won't reach 90s is because the line's infrastructure, not the train alone, is not designed to handle that frequency. My understanding is that the time a train takes to clear the platform plays a big role. This gives shorter trains an advanatge.While the Ontario Line may - and I stress, *may* - be able to reach that number, there is absolutely, positively nothing inherent to the design of the TR cars - or any other subway car ever used in Toronto - limiting them to 120 second headways. Anyone who suggests such a thing really doesn't understand how those systems work.
It may not be exclusively the only reason why, but I would suggest that it factors in quite strongly, yes.
Dan
Really?Multiple generations, if ever.
Hopefully Metrolinx was thinking ahead on this. Should be easy to add for Yonge N because it as grade but expensive if not already planned for at Richmond Hill.For the current subway: The possibility to retrofit that is unclear. Steve Munro stated in 2006 that achieving 120-second headways on the current subway lines is difficult, and 90s is impossible because the terminals are not designed to handle them. I don't know if that has/will change with the current extensions.
Than can be provided by a properly operated quad track corridor? Of course they will need to add capacity to that corridor, but you can do a lot with quad track.Really?
There may never be a need for more capacity on one of GO's busiest routes?
We can run 24 tph on *2* tracks, we have at one point hit . . . 4 tph!Really?
There may never be a need for more capacity on one of GO's busiest routes?
Taking a few assumptions, a GO train capacity is ~2000 seats. If we assume long dwells we will run a train every 5 minutes(12tph) putting capacity at 24,000 pphpd.i am wondering, maybe others are too, but yes the go corridor is 4 tracks, 2 are specifically for stouville and 2 are for LSE.
Essentiallsy 2 separate 2 track corridors with long 300m trains. Express trains are included in this as well
whats the theoretical capacity of that?
It's not unprecedented although it's certainly not common either, and as you point out, this line is being built from the ground up.I'm not sure I understand the skepticism. It's not unprecedented to operate at 40 tph, and the line is being designed for it from the ground up, not as a retrofit.
Edit to add: we shouldn't discount how useful the increased reliability of OL will be. Huge reduction in service disruptions due to PSDs keeping people and trash off the tracks. I don't often ride the subway but it seems like a disproportionate amount of the time there are service disruptions. I went to a game at Scotiabank a few weeks ago and had to walk from Dundas because of not 1 but 2 incidents on Line 1.
Sure, it's the infrastructure. The vehicles themselves don't have a bearing.The assumption is that the TRs won't reach 90s is because the line's infrastructure, not the train alone, is not designed to handle that frequency. My understanding is that the time a train takes to clear the platform plays a big role. This gives shorter trains an advanatge.
For the current subway: The possibility to retrofit that is unclear. Steve Munro stated in 2006 that achieving 120-second headways on the current subway lines is difficult, and 90s is impossible because the terminals are not designed to handle them. I don't know if that has/will change with the current extensions.
i am wondering, maybe others are too, but yes the go corridor is 4 tracks, 2 are specifically for stouville and 2 are for LSE.
Essentiallsy 2 separate 2 track corridors with long 300m trains. Express trains are included in this as well
whats the theoretical capacity of that?
actually, that was the setup they were planning for. remember the cross platform transfers with the straddled OL at east harbour?That's not the best way to allocate the capacity on that line - it would be far more efficient to allocate one set of tracks to local/stopping trains, and one set of tracks to express trains. This way, the trains on each set of tracks will have a similar set of stopping patterns and speeds and performance.