The Real Evergreen Line Story

Summary: Most people are still asking the question of why the province decided to suddenly switch the Evergreen Line to SkyTrain technology in 2008. I think we should be asking questions about why the LRT design process suddenly stopped, with no reason, back in 2007.


It’s coming to our region, but it’s opening in 2017, which just happens to be yet another delay in a consecutive series. These Evergreen Line delays have injected a new wave of doubt among transit observers here in Metro Vancouver, who may remember a time not too long ago when the Evergreen Line was comparable to a hot potato – hardly anyone could come to an agreement about it.

During the late 2000s the Evergreen Line went through numerous hurdles that we worry about in transit issues today; ranging from funding shortages to planning issues to a lack of clarity in the political commitment to the line itself.

But, to some people, I can imagine the most perplexing thing about the Evergreen Line story was the controversial change from an at-grade Light Rail Transit system, to the currently-being built extension of the existing SkyTrain system. It took people by surprise, changed the focus of the discussion and was so significant that it caught the attention of transit bloggers in other Canadian cities.

The move was controversial because of the creation of a new business case released by the provincial government (hereafter referred to as the “2008 business case”) that overrode a previous business case released by TransLink (the “2006 business case”) for the Evergreen Line as an LRT. A following, final business case by the province(the “2010 business case”) adopted the results of the 2008 business case without making major changes to or addressing its supposed issues.

The new business case explained that its recommendation for SkyTrain (ALRT) on the current corridor was based on 4 key findings:

  1. Ridership – ALRT will produce two and a half times the ridership of Light Rail Transit (LRT) technology; this is consistent with the ridership goals in the Provincial Transit Plan.
  2. Travel Time – ALRT will move people almost twice as fast as LRT (in the NW corridor).
  3. Benefits and Cost – ALRT will achieve greater ridership and improved travel times at a capital cost of $1.4 billion, with overall benefit-cost ratio that favour ALRT over LRT.
  4. System Integration – ALRT will integrate into TransLink’s existing SkyTrain system more efficiently than LRT.

Light Rail advocates who looked into the study insisted that the new analysis, in its rejection of what was supposed to be a sound business case, was biased in favour of SkyTrain – some of which alleged that the switch was a result of insider connections, shady agreements, and other under-the-radar proceedings. 2008 was a time when it wasn’t as clear to people that SkyTrain isn’t a proprietary transit technology and it was probably no surprise that critics of the decision came in waves.

They were joined by others, including City Councils of the time, who expressed concern about some aspects of the newer business case. Two particular major players come into mind:

1. The City of Burnaby released a staff report that injected doubt into the Evergreen Line’s cost estimates, ridership estimates and evaluation. (See [HERE] for report)

“This report recommends that the Province and TransLink undertake to re-evaluate the choice of technology and prepare a business case of LRT technology for the Evergreen Line based on the concerns and questions raised in this report with regard to service speed, ridership estimates, operating and capital costs, inter-operability, community service and other factors.”

2. A Portland-based transportation engineer named Gerald Fox alleged that the analysis had been manipulated to favour SkyTrain. (The original letter was posted [HERE]).

“It is interesting how TransLink has used this cunning method of manipulating analysis to justify SkyTrain in corridor after corridor, and has thus succeeded in keeping its proprietary rail system expanding.”

At the time, no one could present an argument strong enough to combat what seemed to be a legitimate series of concerns on the SkyTrain proposal. The decisions of 2008 and the surrounding controversy continue to be reflected in the words of today’s writers, most recently surfacing with the announcement of the recent Evergreen Line delay and the ongoing SkyTrain versus LRT debate in Surrey.

However, when the Auditor General of British Columbia was asked to look into the Evergreen Line technology switch, the Auditor General’s finished report in 2013 concluded that while some information was missing, the switch to SkyTrain was the right decision.

The Auditor General summarized the missing information as a shortfall in explaining the following:

  • Options’ risks, costs and benefits;
  • Assumptions underpinning SkyTrain ridership;
  • Wider transit system risks and dependencies; and
  • How agencies would measure performance

In the approximately 3 years since this Audit was released and the 7 years since the decision to switch to SkyTrain, new information has been released that makes it possible to fill in all four of these gaps, as well as the other concerns raised by critics and the City of Burnaby.

In an effort to compile this new information, I performed the research myself, which included extensively looking into all business cases (2006, 2008 and 2010) and other supporting evidence (including all 61 archived pages of the original Evergreen Line LRT discussion thread on Skyscraperpage).  With the conclusion that the Evergreen Line business case was not manipulated to favour SkyTrain, I present my results below.

1. Were SkyTrain and LRT compared properly?

The first and foremost concern by the auditor general was that the SkyTrain and LRT options may not have been compared properly – as sufficient information on aspects like ridership wasn’t provided. An explanation of how the ridership estimates were conceived was not provided in the 2008 business case, but there is little reason to believe that the 2008 business case was wrong in assumptions.

The City of Burnaby’s staff report probably best summarized the issues that were raised surrounding the comparison. However, much of the research I performed has explained these perceived shortfalls:

Capital cost estimates

As the capital cost estimates for LRT increased from $970 million (2006 business case) to $1.25 billion (2008 business case) with little explanation, the City of Burnaby complained that this increase was unreasonable – especially as it brought the cost difference with SkyTrain down to a mere $150 million (12%). Light Rail advocates and critics, including Gerald Fox, complained that the cost increase was manipulated to favour SkyTrain.

It was noted in the 2006 study that the cost estimate of then was done at a 90% preliminary design stage – not a fully detailed design stage presenting a finalized cost. It thus seems conceivable that costs increased while the final alternative was being analyzed for the 2008 business case.

Recently I performed some research on the capital costs of Canadian rail transit systems. With several rapid transit and light rail systems now proposed across the country, I took the opportunity to compile an inflation-adjusted comparison of the project capital costs – adjusting each project for the amount of grade-separation (tunnelled or elevated) and using that as a guideline to compare the costs. This extensive research took me several weeks to complete as I had to manually measure most of the proposals to assess the amount of grade-separation.

See: Capital costs of Canadian rail transit systems

Unsurprisingly, I reached the conclusion that with the steepest trend in perecentage-to-cost, bored tunnel is the most expensive alignment to construct.

The Evergreen Line, no matter whether it were to be SkyTrain or Light Rail Transit, has a 2km bored tunnel as a part of its alignment through the mountainous terrain between Burquitlam and Port Moody. This accounts for about 20% of the entire route.

The Evergreen Line's 2006 estimate is marked by the "$99" at the bottom left. The 2008 estimate is the $112 above it.

(Open to enlarge) – The Evergreen Line’s 2006 estimate is marked by the “$99” at the bottom left. The 2008 estimate is the $112 above it.

My measurements indicated that the 2006 cost-per-km estimates were the lowest of the other projects. The estimate was significantly below other projects with a ~20% bored tunnel percentage, and below the average trend line that related percentage in a tunnel to rapid transit cost per km.

In other words, the 2006 cost estimates are too low and were probably incorrect.

And now that we know how much trouble it took to construct the Evergreen Line’s 2km tunnel, it’s certain that the LRT project’s final cost would have come closer to $1.25 billion. LRT tunnels need to account for pantographs and higher vehicle heights; whereas the linear motors used on our SkyTrain technology lines are more optimal for tunnels as the train is lower and closer to the ground. As a result, an LRT tunnel would have been larger and more complex and would have likely lead to additional potential problems.

Just imagine what kind of liability chaos there’d be if a sinkhole did open under a home above the tunnel route. It hasn’t happened with our SkyTrain tunnel, but it’d be more likely under a larger tunnel (and larger tunnel boring machine) needed for an LRT.

Operating costs

The operating costs rose from $12.21 million in 2006 to $15.3 million in 2008 (both measurements were in 2007 dollars). While it doesn’t seem that anyone in particular raised this as an issue, the cost increase can be explained by a difference in service frequency.

The 2006 business case’s estimate was based on a 6 minute initial operating frequency. The 2008 business case’s operating costs were based on a higher 5 minute initial operating frequency. Whereas the 2008 cost estimates are 25% higher while a 5 minute frequency is 20% higher than 6, the newer numbers seem just about right to me.

Travel times

The City of Burnaby’s assessment of travel times suggested that the SkyTrain alternative’s travel time estimates were far too high and the LRT alternative’s estimates were far too low. It provided this graphic to show the disparity:

Evergreen Line graphic

Open to enlarge

Burnaby complained that the Evergreen Line’s LRT speed estimates were lower than two existing LRT systems in Canada (Calgary and Edmonton). However, most of Calgary and Edmonton’s LRT systems are built off-street, and with gated crossings and absolute priority like railway systems. Most of the Evergreen Line as an LRT would be in the middle of streets and would have to follow the roadway speed limits (typically 50-60km/h). Naturally, this would result in slower average speeds than Calgary and Edmonton, where trains may run at 80km/h on dedicated rights-of-way.

While the SkyTrain alternative had much higher average speeds than the current system (with its average of 43km/h), the addition of Lincoln Station has added some length to the travel time to the extent that the Evegreen Line’s end-to-end travel time is now usually described as 15 minutes – an average speed of 43.6km/h.

Even then, at the end of the day these differences aren’t really dictated by the transit technology. The Evergreen Line will have the system’s longest station-less segment, which is largely in part due to the 2km tunnel between Burquitlam and Port Moody stations. The higher average speeds near here would be comparable to other long sections crossing geographical features, such as the 2.3km SkyBridge segment on the Expo Line over the Fraser River.

Maximum speed

Gerald Fox also raised an issue that the stated maximum LRT speed in the 2008 business case (60km/h) was lower than the potential speed limits that could be achieved in the off-street, 2km tunnel. The 2006 business case accounted for faster running speeds of up to 80km/h inside the tunnel.

However, the end-to-end travel time estimates in the 2008 business case were actually lower than that of the 2006 business case by 0.4 minutes.

Thus the 60km/h expression was probably meant to highlight the speed on most of the on-street sections (outside of the tunnel).

In conclusion

Based on the data I’ve collected above it doesn’t seem that SkyTrain and LRT were compared unfairly. There could’ve been better distribution of the info at hand, and some improvements in the planning process (like the addition of Lincoln Station from the beginning). However, no skewering of the numbers and manipulation to favour SkyTrain has taken place.

2. Was ridership over-estimated?

Ridership was an additional concern raised by the City of Burnaby, which complained that the ridership estimates for the SkyTrain option (at 2.1 million passengers annually/km) were too high,  and that the LRT ridership estimates were too low.

Open to enlarge

Open to enlarge

The LRT ridership estimates were said to be too low because they were lower than two existing Canadian LRT systems (40% lower than Calgary, and 9% lower than Edmonton). For the same reasons as I explained above, it’s not possible to put the Edmonton and Calgary systems in the same category as an Evergreen Line LRT. The Evergreen Line LRT is largely on-street; the Calgary and Edmonton systems are not, and tend to run on exclusive rights-of-way at speeds of 80km/h.

This leaves the high ridership estimates with the SkyTrain system. The auditor general raised an issue that the SkyTrain ridership assumptions with the Evergreen Line were made with assumptions that a completed transit network would be built by 2021 following the Provincial Transit Plan. This included SkyTrain extensions in Broadway and Surrey, neither of which will be built by 2021 based on the current situation.

Burnaby complained that at 2.10 million annual passengers per km, the estimates were higher than the existing SkyTrain system (1.60 million annual passengers per km) and thus much higher than would be realistic.

It’s important to note that the SkyTrain ridership estimate in Burnaby’s report was taken before the Canada Line to Richmond was introduced in 2009. The Canada Line’s opening broke ridership records with ridership almost immediately shooting up to its current level of 40.2 million passengers per year or over 120,000 per weekday – numbers that were well ahead of schedule even beat entire, city-wide LRT systems in ridership.

When this annual ridership is worked out per-km, the Canada Line is carrying 2.10 million annual passengers per km – the same amount that was projected for the Evergreen Line.

As costly as infrastructure like the Canada Line SkyTrain is, the investment has been proven worthy by the benefits to the tens of thousands of people using the system daily. The investment confidence that has resulted in our SkyTrain system expansions needs to be applied to the whole system.

As costly as infrastructure like the Canada Line SkyTrain is, the investment has been proven worthy by the benefits to the tens of thousands of people using the system daily.

A huge part of the reason the Canada Line was so successful was because efforts by the City of Richmond to make the elevated segment on No. 3 Road at-grade (like a light rail system) were defeated, resulting in the construction of a fully grade-separated line. The full grade-separation enabled higher trip speeds, which have been cited in rider surveys as the #1 most-liked aspect of the Canada Line system – outpacing every other favourable aspect mentioned by riders.

The Evergreen Line’s SkyTrain switch decision was largely based on favouring the faster travel-times and transferless journeys of a SkyTrain system. It’s thus conceivable that the Evergreen Line could see the same kind of ridership success that the Canada Line did.

3. Were the risks properly and thoroughly assessed?

The auditor general commented that the 2008 and 2010 business cases did not provide information on the risks that came with connecting Evergreen Line outcomes with the performance of other parts of our regional transit system. In particular, the Evergreen Line’s performance estimates did not account for the potential impacts of:

  1. the level and coverage of bus connector services on ridership;
  2. parking at the more popular Evergreen stations;
  3. changes to the West Coast Express (WCE), which provides peak commuter services for passengers who want to travel between the northeast Metro Vancouver and downtown Vancouver
  4. Evergreen services on those parts of the SkyTrain system that are near or at capacity in the commuting peak periods (for example, around Broadway station).

These concerns present significant risks and it is of my opinion that they should have been addressed.

However, accounting for these risks whenever a large transit priority is laid out in our region doesn’t seem to be common practice. The transit projects of today have continued the practice of tying performance estimates to grandiose plans for the rest of the regional transit system, like the transit vision crafted by the Regional Mayors’ Council that was defeated in the March 2015 referendum.

When the referendum went down the toilet, so too did the additional commitments to connecting bus service that would have been critical to the success of the included rapid transit projects. It’s raised concern among decision-makers such as Coquitlam Mayor Richard Stewart, for example, who raised a concern with the potential costs of increasing parking as additional bus services connecting to the Evergreen Line were rejected along with the other proposals.

Nevertheless, local governments have forged ahead in planning for these lines, despite the new risks created with the lack of a regional vision component. As I believe that there will be opportunities in the future to return to those other critical transit priorities, continuing planning is the best practice for moving these projects; it has certainly moved the Evergreen Line.

4.  How are we going to measure performance?

The last issue concerned the collection of performance data to measure performance after the line’s opening. No framework had been set in the 2008 and 2010 business cases, and the lack of such a framework would have a consequence on future transit planning.

However, the Auditor did acknowledge in his report that a framework could still be completed in time for the line’s opening. Although it remains to be said if the province has followed through on this recommendation, this issue isn’t relatively as much of a concern as the others as it has an immediate, clear solution.


So what’s the real “Evergreen Line Story”?

When the Evergreen Line was changed to a SkyTrain extension project in 2008, the switch came after an extended halt in design work and public consultation.

Like today’s rapid transit projects, the Evergreen Line was determined through a multiple-account evaluation that includes a Phase 1 (draft option comparison), Phase 2 (detailed option comparison) and a Phase 3 (finalized option comparison and detailed design). The 2006 study was finalized at the phase 2 stage, and it noted that its cost estimates were done at the 90% preliminary design stage.

After that, there was silence in the project design work.

At the time, there were plenty of issues around project funding (which can be backtracked to on the Skyscraperpage archives). I can understand delays with transit funding (still a very big issue with projects today) but the funding issue shouldn’t have delayed detailed design work on the Evergreen Line LRT project. We didn’t hear anything from planners, politicians or anyone involved regarding the project’s design until rumours of a major announcement surfaced in January 2008. The final business case that was then released in February had been completed by the province rather than TransLink.

So it honestly has me raising questions: what exactly was going on in there? Why did Evergreen Line design works come to a stop, and why didn’t the next phase of consultations take place? Perhaps the planners at TransLink realize they under-estimated the LRT costs, and had nervousy about going public with the news? Did local governments start losing confidence in the at-grade project’s business case?

There’s all these disconnects that don’t seem to make sense, and I would argue that this should have been of far greater concern than the provincial government’s decision to switch the project to SkyTrain. It’s not the province’s fault the planning department of the time had decided to cut us off for just over a year on the project’s progress. It’s almost as if the sudden switch to SkyTrain was a measure to deal with these problems.

All I do know is that in October 2007, the B.C. Finance minister came to the public with a statement that the Evergreen Line’s progress had indeed been frozen, but that it wasn’t due to the funding shortfall

“The premier did say last week that the Evergreen will be built,” Taylor said. “The funding is not holding it up. They haven’t decided on exactly the route and exactly the stops. So, we have made the commitment to financially be there when everybody’s ready to go.”

Evergreen Line not held up by funding, finance minister says – Coquitlam NOW

This almost certainly indicates that the LRT planning department had run into issues with the design, since the 2006 business case had anticipated the start of construction by September 2007.

Instead, in October 2007 the design hadn’t been finished and the planners in-charge “hadn’t decided on exactly the route and exactly the stops.”

You be the judge, but it sounds a heck of a lot like that the province managed to narrowly get us out of an Evergreen Line LRT fiasco in its decision to build SkyTrain instead.


Jaded by SkyTrain and a lack of LRT

There hasn’t been a single, grade-level Light Rail project approved in this region except for the currently proposed project in Surrey, and that’s probably what has raised the irk of some people who have been enthusiastic about the idea of at-grade rail. It’s probably why there’s a commonly-held belief that only provincial government overrides result in SkyTrain, and that at-grade Light Rail systems don’t have major shortfalls of their own that have resulted in their rejection here in Metro Vancouver so far.

At-grade rail advocates argue that the lack of at-grade rail infrastructure in this region really caused us to lose out on transit benefits (i.e. we could have built a bigger transit network!) but at this point that’s entirely debatable.

I think part of this is because the benefits of SkyTrain (and how we’ve built it) don’t seem to be that clear to decision-makers, planners and transit enthusiasts in our region.

Despite the constant use of grade-separation and SkyTrain technology, Metro Vancouver’s SkyTrain network expanded at a faster pace than any other system in Canada. Vancouver’s rapid transit growth has lead Canadian cities – and when the Evergreen Line opens to the public next year, we’ll have the longest rapid transit system in Canada spanning nearly 80km – and the longest driverless transit network in the world. The lower operating costs of driverless trains make it possible to keep expanding our transit network without bankrupting our operating budget on the cost of drivers.

SkyTrain also has the highest ridership of any rapid transit system in North America that isn’t classified as “heavy” rail. At nearly 9,000 boarding passengers per kilometre, SkyTrain outperforms every single at-grade rail system in Canada and the U.S.

SkyTrain ridership/km vs. other transit systems

Data is from the American Public Transit Association (Q3 2014) unless stated

City System name (type) Weekday daily boardings Daily boardings/mile
Vancouver SkyTrain (driverless) 377,900 8,870
Calgary C-Train (LRT) 310,700 8,510
Boston MBTA light rail (LRT) 214,500 8,250
Edmonton Light Rail Transit (LRT) 98,144* 7,550
Toronto Streetcar (on-street) 281,900 5,525
San Francisco Muni Metro (LRT) 145,500 4,076
Houston METRORail (LRT) 45,700 3,571
Newark Newark/Hudson Bergen LRT 72,939** 3,143
Minneapolis METRO Light Rail (LRT) 64,500 2,938
Los Angeles Metro Rail (LRT) 203,400 2,892
Seattle Link Light Rail (LRT) 40,300 2,330
Portland MAX, Streetcar (LRT) 113,900 2,330
San Diego Trolley (LRT) 124,100 2,320
Phoenix Valley Metro (LRT) 41,200 2,060

* Q3 numbers were not reported. Data from Edmonton Transit, collected during the same period, used instead.
** Q3 numbers were not reported. NJ Transit’s own FY2014 data is used in place (the same number is reported in APTA’s Q4 ridership report).


On top of everything, SkyTrain has made us one of the most successful metropolitan areas in transit ridership with an annual ridership per capita that is 3rd highest on this continent (beat only by New York City and Greater Toronto)

Region Population Annual Ridership
(thousands)
Annual Ridership
(per capita)
New York City 19,831,858 3,893,854 196
Greater Toronto 5,583,064 1,003,230 180
Metro Vancouver 2,313,328 363,163 157
Calgary 1,120,225 157,325 140
Montreal 3,824,221 433,710 113
Boston 4,640,802 399,594 86
Washington, DC 5,860,342 456,915 78
San Francisco Bay 6,349,948 476,219 75
Chicago 9,522,434 658,203 69
Philadelphia 6,018,800 336,981 56
Los Angeles 13,052,921 620,903 48
Seattle/Puget Sound Region 3,807,148 175,215 46

Data above from South Fraser Blog

Now that I’ve finished with my thoughts, I’d like to see anyone try to claim that decisions resulting in SkyTrain projects over LRT are solely a result of senior-government overrides.

…or that anyone’s manipulating data to favour SkyTrain in rapid transit studies. Because that’s simply not true.


Featured: Evergreen Line construction image posted by nname on SkyscraperPage

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Next-generation buses coming to 96 B-Line

I am pleased to announce that I’ve received word through forum networks such as Skyscraperpage and CPTDB that new buses coming to Surrey Transit Centre will be 60-foot hybrid articulated buses for the 96 B-Line.

This newest bus order is being assigned to both Surrey and Burnaby Transit Centres to replace old articulated buses due for retirement, and the first buses will be arriving later this month. They will be similar to the 12000-series Xcelsior XDE60s (pictured above) currently being used on routes in Richmond and Vancouver.

The new buses will feature a hybrid diesel-electric transmission to improve energy-efficiency and solve the ride jerky-ness of plain diesel buses, offering smoother and higher quality rides. LED lighting will be used along with a better-optimized seating layout. Finally, these buses will be air-conditioned, giving Surrey riders a more comfortable experience in warmer summer months.

coast_mountain_bus_company_8001-a

96 B-Line waiting to depart Guildford Exchange

Surrey’s 96 B-Line, linking Newton Exchange with Guildford Town Centre through Surrey Central, was originally made possible with a transfer of 11 of the region’s oldest articulated buses (S8001-8011) to Surrey Transit Centre in late 2013. These buses were the first “B-Line” buses brought to the region to service the #99 B-Line back in 1998.

Due to their age, the old buses aren’t always available; standard-size buses are often used as a substitute when one of the articulated buses is in for repairs or maintenance.

The upcoming XDE60’s will let the old buses be retired, while giving the city 12 of the fleet’s newest articulated buses (one additional bus!). This will ensure that every bus running on the 96 is articulated.

Surrey Plan Full Cleaned Up FINAL CROP BRT MAP

[OPEN TO ENLARGE] Concept of rapid bus service instead of LRT on King George Blvd/104 Ave.

I look forward to the arrivals of S15001-S15012. As a regular 96 B-Line user I’m excited for the new transit experience that these new buses will bring for Surrey transit riders.

I’m also excited for the potential they have in demonstrating BRT (bus rapid transit) as an option for improving transit the city. As some of you know, I have been a strong proponent of a BRT network and SkyTrain expansion over the currently proposed Light Rail Transit network in Surrey.

A Bus Rapid Transit network would reduce transfers by enabling buses to through-run onto corridors like 72nd Ave or continuously down King George Blvd. to White Rock Centre. Riders on the corridor could then use buses for longer-distance commutes with less transferring. This would also cut down on the amount of transfer line-ups that crowd buses and space at transit centres such as Newton Exchange.

It would be less disruptive to build BRT infrastructure compared to LRT infrastructure, with the potential to build gradually and avoid the service disruptions riders would face with edge-to-edge street construction required for an LRT system. A BRT system would also cost less to operate; City officials have still not demonstrated what the plan is to pay for $22 million in annual deficits for operations of the city’s LRT network.

b822206843z-1_20151116110958_000_g0j1j560t-3_gallery

This is an actual photo of LRT construction work in Kitchener-Waterloo, Ontario, and shows the reality that Surrey commuters will have to face if the City moves ahead with an LRT.

Rapid bus, SkyTrain best option for Langley

So I thought I’d put up a newsletter that the Langley Times published today, along with some added sources/notes.

For anyone that’s curious, I intend to be doing some more blogging on the BCER Interurban very shortly.

LETTERS TO THE EDITOR – Langley Times

Rapid bus, SkyTrain connection still Langley’s best option

Editor: Re: LRT announcement ignores less costly interurban option (The Times, Oct. 2)

We should welcome good transit ideas here in Langley, but there’s a reason that TramTrain isn’t one of them.

TramTrain was possible in Karlsruhe because it’s surrounded by numerous electrified regional railways. We don’t actually have that here in Vancouver; and while the BCER Interurban may seem like a tempting choice, it ran three times a day [1] and wasn’t built to service today’s cities [2].

When the province and TransLink conducted the Surrey Rapid Transit Study, the Interurban was denied because it would cost millions to retrofit yet still fall short on providing useful connections and service frequency [3]. In other words, it would be a giant waste of money.

What we do have are numerous fast highways on which we could operate inexpensive rapid buses. One of those, the Trans-Canada, now has the Fraser Valley Express (FVX) service from Carvolth Exchange to Chilliwack. This service is now providing the alternative that valley commuters asked for — but when it came time to consult locals about the FVX, Rail for the Valley did not participate [4].

That’s because Rail for the Valley’s TramTrain and LRT advocacy doesn’t come from a genuine desire to make transit better — but rather an opposition to extending SkyTrain to Langley, even though it will do the most for transit commuters.

Our SkyTrain system boasts a ridership that is higher than any LRT system in Canada and the US. That’s why over 50 cities worldwide have followed our lead by successfully employing ALRT-style driverless metros [5][6].

As an extension of an existing system, SkyTrain would have the lowest addition in annual operating costs [7]. Without transfers, commuters starting at Langley Centre Station could reach Waterfront Station within 60 minutes [8]. That’s the kind of travel time improvement that’ll get people really wanting to use public transit, and generate the fare revenue to recoup costs.

I’m all for good transit ideas; but when it comes to what will objectively serve Surrey and Langley best, rapid buses and SkyTrain are the way to go.

Daryl Dela Cruz,
Campaign manager
skytrainforsurrey.org

Footnotes

  1. BCER article in Canadian Rail No. 534 issued Jan-Feb 2010 with the writer and 4-time BCER book author, Henry Ewert, stating himself that Fraser Valley interurban trains ran 3 times per day (Mirrored on Exporail.org)
  2. An earlier technical assessment found numerous technical/construct-ability issues with interurban rail. Mirrored [HERE]
  3. Surrey Rapid Transit Study: “Compared to other alternatives, lower population and employment densities along much of the corridor and a less direct connection to Surrey City Centre would result in lower transportation benefits.” See last page of Phase II Information Boards
  4. The BC Transit Public Engagement Reports for the Fraser Valley Express, Abbotsford-Mission (CFVT) Transit Future Plan and the Abbotsford-Mission (CFVT) Efficiency Review indicate that there has been no participation by members of Rail for the Valley and other associated initiatives, with no comments on potential Interurban Rail service.
  5. The Automated Metro Observatory regularly reports on the worldwide progress of driverless transit systems. There is an expectation that the amount of fully driver-less metro systems will triple by the year 2025.
  6. In addition, numerous cities worldwide have implemented the same linear induction motor propulsion technology used by SkyTrain. A full list is on this blog: List of Linear Induction Motor rapid transit systems
  7. Funding Still Missing for LRT Operating Costs news release – SkyTrain for Surrey
  8. Based on Surrey Rapid Transit Study travel time estimates.

Surrey’s LRT “Plan B” doesn’t work

The media has done plenty of reporting on Mayor Linda Hepner’s desire to pursue a Canada Line P3 model to fund proposed Light Rail in Surrey, due the recent NO vote in the transit plebiscite.

Before decisions are taken from examples in this manner, I think it’s important to also take in the context of that example. In some of my most popular posts on this blog I’ve noted how a lack of context has done so much to skewer opinions and affect decisions in our region.

The Canada Line P3 was a successful P3 because its ridership and fare revenue exceeded projections.

The Canada Line’s P3 system works like this: The private partner signs on to build the line and operate for 30 years, and makes a capital investment to reduce the public funding burden. This capital investment in the project is returned as a profit through the performance payments made during operation.

If fare revenue from ridership meets or exceeds the costs, financing proceeds as planned and excess operating revenue is returned to the taxpayer. If the fare revenue does not exceed the costs, that represents significant additional costs to taxpayers to subsidize operations.

Thankfully, the Canada Line is exceeding its ridership projections, as a result of carefully considred design choices made during the decision-making process.

But, this is where the proposed ground-level Light Rail system for Surrey, which I have been a heavy critic of through the SkyTrain for Surrey website, runs into a very major problem.

The Surrey LRT system will not recover its operating costs.

It will run into an operating deficit of millions per year from opening day and it will struggle to recover these costs if it manages to do so at all.

Financial details for Surrey Rapid Transit, reported in the TransLink/MOTI joint study

Financial details for Surrey Rapid Transit, reported in the TransLink/MOTI joint study, on page 369

LRT’s operating deficit subsidy of $22 million ($2010) per year on opening day, growing to $28 million by 2041,  is on top of the $60 million per year for capital financing that Mayor Linda Hepner declared to the Globe and Mail. On top of all of these costs, additional costs would need to be added to the performance payments to the private operator, so that the partner can receive its return on investment.

When all inflation is accounted for, the cost of financing the P3 LRT will be nearly $100 million annually on opening day. The city will obviously need to find a way to come up with this money, and I take it that more than a few really big axes will be making their way to other city services as a result.

Plan Misses the Mark

Perhaps a part of the reason for this shortfall is because the City wants to replicate SkyTrain frequencies by running LRT trains at a 5-minute frequency, increasing to a 3-minute frequency after approximately 20 years. This frequency is not done anywhere else with driver-operated LRT systems in North America. The tendency is to run at 5-10 minute frequencies during peak hours only, reducing to 15 minute frequencies during off-peak hours and weekends.

Chart on SkyTrain vs a selection of LRT system frequencies. Made for a previous write-up on the Vancity Buzz.

The higher frequencies do not necessarily solve the many issues with an LRT system and the challenges such a system in Surrey will face. Of the $27 million in annual costs required to operate Surrey’s full LRT network, only $5 million is expected to be recovered through additional fare revenues. Cut the operating frequencies in half (resulting in significantly worse service), and there would still be a major operating deficit.

This is because many of the riders on the future LRT system will be people who already pay their fares on existing buses. They are the transit-dependent people of the city, not the people who may have the choice to continue to drive if that is what continues to serve them better.

A previous survey of Canada Line riders revealed that trip speed is the most liked aspect of the line. Street-level LRT’s limitation to slower street-level speeds will certainly create challenges in being competitive.

Ridership deficits

Surrey’s LRT will suffer these operating deficits because as a slower and less reliable grade-level system, it will not attract as many passengers as an integrated, grade-separated extension of SkyTrain. In addition, LRT will be unlike our driver-less SkyTrain system in that each train requires a driver, meaning it is more expensive to operate and will be subject to design limitations that will have a major effect on its viability.

Surrey’s LRT will carry only 2970 riders/km on opening day.4 The Canada Line, which carries 122,000 daily boardings2, required 100,000 (5200 passenger boardings per km) to cover its annual operating costs.3

As costly as infrastructure like the Canada Line SkyTrain is, the investment has been proven worthy by the benefits to the tens of thousands of people using the system daily. The investment confidence that has resulted in our SkyTrain system expansions needs to be applied to the whole system.

The driverless, grade-separated Canada Line hit its 2013 ridership projections more than 3 years ahead of schedule in 2010.

SkyTrain is a viable option

If SkyTrain is extended down Fraser Hwy. to Langley, it will carry 5443 riders per km on opening day.This is comparable to SkyTrain’s present system-wide average of 5693 riders per km.5

SkyTrain would offer faster, safer, and more reliable service – which would attract more ridership, generate more fare revenue and as a result cost only $6 million per year to subsidize operations.6 This would then be eliminated entirely with the concurrent optimization of local bus routes.7

Without an operating subsidy, SkyTrain would have a far better business case for a Canada Line-style P3 model. In any case, since the operations and maintenance component can be handled by the existing BCRTC, a newly created operating entity is not required. This will save taxpayers even more money as the P3 contract for SkyTrain would be a simpler Design-Build-Finance (DBF) model.

At the end of the day, I think there’s one particularly more significant number that exemplifies SkyTrain’s viability in Surrey over a ground-level Light Rail system.

SkyTrain would have a positive benefit/cost ratio of 1.45:1. The proposed LRT has a poor benefit/cost ratio of just 0.69:1.

A SkyTrain extension is clearly the only viable option for rail rapid transit in Surrey, and decision-makers in the city and elsewhere need to start taking a look at the hard facts.

Featured image: The SkyBridge, with the New Westminster Waterfront in the background. From the

Among other benefits, a SkyTrain extension will treat South-of-Fraser riders to a direct, transfer-less connection with the existing Expo Line to New Westminster and Vancouver.

Footnotes

According to data from the 2012 TransLink/MOTI joint study
Surrey Rapid Transit Alternatives Analysis (SRTAA) Phase 2 Evaluation
Available at [LINK HERE]

  1. SRTAA PAGE 369; Undiscounted value; measured over 30 years, with costs increasing to 2041 on year 2041
  2. ProTransBC (operator) website – http://www.protransbc.com/service-performance/
  3. TransLink media release – Addressing Canada Line capacity questions
  4. See SRTAA PAGE 301 for ridership estimates (divided by track lengths listed on SRTAA P. 347)
  5. Based on APTA ridership data from Q4 2014
  6. See attached graphic, or SRTAA PAGE 369
  7. Suggested on SRTAA PAGE 536: “For RRT 1A, savings of $170 million”