This helped fuel Simpson’s research: “When I started this project, battery technology was looking like an interesting option for the industry. I wondered whether this could be used on the Class 319s,” she tells RAIL.
“I initially explored both battery and hybrid technologies as options that would deliver a mid-life EMU capable of travelling off the electrified network.”
Simpson talks of “range anxiety” as being a concern, when looking at IPEMU. How far the train could actually operate on battery power is something train operators constantly ask, she says.
“Batteries are definitely doable, but rail will have to overcome the current range limitations for traction power. We think traction battery technology will give you a range of around 20km to 30km before needing recharging, and this is not enough for most operators.”
Cost was another problem. “Eye-watering” is Simpson’s description of the whole-life cost when compared with the value of a mid-life train.
“I looked at the size and weight of the components. There is space on the trailer cars, but you start to add weight. And the more weight you add, the more batteries you need. It could be done, but it would have a high weight penalty and is just so expensive.”
Porterbrook Commercial Manager Mark Isbern tells RAIL that the whole-life cost is key for the work. “You have ten years, maybe,” he says.
Simpson interjects that, currently, rail application traction batteries typically have three to five years’ life before they need changing.
“So we couldn’t make it stack up,” she says. “Super-capacitors are interesting because they are small, light, efficient and relatively low-cost for a given power output. They are also quick to recharge. For these reasons, I might select them for discontinuous electrification schemes, or for areas that are difficult to electrify, but they are limited to just a couple of kilometres so weren’t suitable for the Class 319 project.”
The next option was hybrid technology.
Says Simpson: “The optimum solution in terms of weight, space and power output for the range that we wanted would be to use a diesel engine supported by batteries for peak acceleration. We looked at timescales, cost and complexity for this, but it would have taken too long to develop.”
Furthermore, Isbern points out that a hybrid solution needs to be closely tailored to a particular duty cycle with sufficient recharging time. Again, range anxiety becomes a problem, particularly during times of disruption when a hybrid train might suffer severely degraded performance.
Consequently, the diesel-only genset option emerged as Porterbrook’s preferred way forward. Says Isbern: “This gives maximum range, maximum flexibility to operators, and the best cost-risk-benefit ratio.”
To prove the concept would work, Porterbrook has teamed up with Wabtec/Brush Traction to develop a feasibility study, including detailed modelling work.
Simpson wanted Brush to really test the concept before any metal was cut, revealing: “I wanted to test it against the worst route I could imagine.” After speaking with Northern, she chose Manchester Piccadilly-Buxton: “It’s uphill all the way and has 12 stops.”
The ‘319’ Flex train performed admirably in modelling. It was able to complete eight return journeys per day to the current timetable, in effect performing like a four-car Class 15x formation.
Simpson says other routes have been modelled across the country, and names Great Western, Wales and the West Midlands as areas she has investigated.
“My motivation was around making the ‘319’ more attractive to the market. Once you think bi-mode you look at different routes and offerings. Electrification delays have supported our case, but they are not the reason we are doing this.”
The range was found to be limited only by the size of the fuel tanks. Says Simpson: “We set ourselves ambitious targets for range akin to a traditional DMU. Our modelling work shows that we can go for two days on a very arduous diagram.”
What exactly is the plan?
Simpson says: “A four-car ‘319’ Flex train will have modified driving vehicles, where we fit a diesel engine and alternator under the floor.
“We propose using a MAN D2876 engine - this is used in Europe and it’s suitable for underframe use. Its key attractions are the compact depth of the engine, the fact that it is rail approved, and that it is compliant with the latest stage IIIB low emissions regulations.”
The diesel engine is linked to the alternator, which is manufactured by ABB and which is also used with the engine elsewhere in Europe, thereby meaning the complete drivetrain is proven. This reduces technical risk from the scheme.
Simpson explains: “The reason the engine is so efficient is not just because it’s modern. It runs at maximum efficiency all the time, whereas the engine in a diesel hydraulic DMU cycles through the rpm range when it’s running. This engine just runs at a near constant speed, in its maximum efficiency range, feeding the existing 750V line.
“We are effectively tricking the traction system into thinking it is still a DC unit. It is effectively replacing the DC operation with diesel, but we could still retain the shoegear and have a tri-mode ‘319’ if it was needed.
“All the equipment is proven already. Brush, in particular, has a good record with its electrical interface work and conversions of this nature. It has converted ‘47s’ to ‘57s’ and upgraded the GB Railfreight ‘73s’, and this is much simpler than those projects. It is a very credible supplier.”
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Comments
James Miller - 14/03/2017 14:34
I have been sent an early copy of the brochure by Porterbrook. Reading it, you get the idea that it is serious and very professional project. I was in Blackburn over the weekend and travelled to Buxton and Clitheroe. Those lines are stiff and there is a lot of housing and other develoments going on. I have done a few calculations and reckon the trains could work Clitheroe to Buxton in a reasonable time, when Bolton to Hazel Grove is fully electrified. Arrange the diagrams correctly and I reckon Manchester to Buxton and Blackburn could be two tph with one tph to Hellifield and four tph to Hazel Grove. Hellifield to Buxton would be an ideal tourist route and link the S&C to Manchester. It would even be run by electric trains with a good heritage. But please, do a decent interior, like South West Trains did for the 455, which are of a similar age.
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Rob Lewis - 17/03/2017 12:29
These trains would be great for the Reading - Gatwick route, until they fill in the gaps in the 3rd rail.
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BigTone - 01/04/2017 19:34
Agreed, also all the other branches down there. Allow the diesels to be cascaded to where they are needed.
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AndrewG1989 - 19/03/2017 21:52
I think that the Class 319's that are to be cascaded from Thameslink to Northern will benefit the need of introducing not just older rolling stock trains to replace the Class 144 Pacers but also to fit in new diesel engines onto the Class 319's so that not only they be EMUs but also to be reclassified as EDMU (Bi-Mode) flex rolling stock trains that can operate on both AC 25kv Overhead electrified lines but also on non-electrified lines in the North of England. Also Northern are to order the new Class 331's and Class 195's for other routes and possibly to cascade the Class 333's for the Leeds-Doncaster route as well working on Leeds suburban lines along with the Class 321/9's & Class 322's that are still currently operating on the Leeds-Doncaster service.
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FrankH - 20/03/2017 09:09
Once the Euxton Junction - Manchester OLE is complete they will take over most of the Blackpool North - Manchester- Hazel grove and perhaps Buxton workings also Southport - Manchester Airport and Hazel Grove but not the Victoria runs for Northern. Trans Pennine Express could use them on Blackpool - Manchester Airport workings. The Manchester/Preston - Windermere workings are another prime example. The Carnforth-Barrow section of the Manchester runs at 29 miles on diesel engines is another candidate. The North West is a breeding ground for this type of dual energy unit with lots of potential.
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