Deutsche Bahn Is Building Overhead Line ‘Islands’ For Battery Trains
The title of this post, is the same as that of this article on Railway News.
This paragraph describes the concept.
This means, instead of electrifying a line in full, as is conventional for electric trains to draw traction power, these lines will feature intermittent electrification. The first of these lines to become operational will be in Schleswig-Holstein in December 2023. Deutsche Bahn says it will only electrify short stretches (a few hundred metres up to a few kilometres) or stations – enough to allow battery-powered trains to recharge on these lines. The state rail operator estimates that this move will mean that more than ten million train kilometres can be completed using electric rather than diesel traction in Schleswig-Holstein. The diesel trains currently in use will be decommissioned. DB estimates an annual diesel fuel saving of around ten million litres.
It looks like a simple concept will save a lot of diesel fuel.
I first talked about electrification islands to charge battery-electric trains in The Concept Of Electrification Islands, which I wrote in April 2020.
DB Cargo UK Successfully Trials The Use Of ‘Combi-Consists’
The title of this post, is the same as that of this press release on DB Cargo UK.
This is the first paragraph.
DB Cargo UK is trialling the use of ‘combi-consists’ to increase capacity, improve customer service and improve its efficiency.
The next four paragraphs describe the trial.
This month the UK’s largest rail freight operator ran a unique jumbo train from Belmont Yard in Doncaster to Barking, East London, carrying a mix of wagons for two altogether different types of customers.
The train consisted of two sets of empty wagons – 21 x MBA wagons for Ward Recycling and 18 x JNA wagons for FCC Environment – with an isolated DIT (dead-in-train) locomotive – in the middle.
The MBA wagons had previously been discharged at Immingham in North Lincolnshire and the JNA wagons discharged at FCC Environment’s new waste transfer facility at Tinsley in South Yorkshire.
Both sets of wagons were then taken to DB Cargo UK’s Belmont Yard depot in Doncaster where the jumbo train was assembled. The train travelled from Belmont Yard to Barking via Lincoln Central, Spalding, The East Coast Mainline, Hertford North and Canonbury Tunnel.
There is also a video embedded in the press release, which shows the formation of the train in detail.
This train is certainly efficient, as it uses less train paths, crew and fuel.
DB Cargo UK now intend to trial the concept on a greater portion of the East Coast Main Line and the Midland Main Line.
I have a few thoughts.
Could The Concept Work With Loaded Trains?
This trial was with empty trains, but would it be possible to use the concept with two shorter loaded trains?
Would there be advantages in terms of efficiency, if the following were done?
- Two container trains leave Felixstowe as a pair, with one going to Plymouth and the other going to Cardiff.
- They split at say Swindon and then proceed independently.
Obviously, all the weights would have to be in order and the locomotive would need to be able to pull the combined train.
Other possibilities might be.
- Stone trains running from the Mendips and the Peak District to London.
- Biomass trains running from import terminals to power stations in the Midlands.
- Trains delivering new cars.
- Trains delivering goods for supermarkets. Tesco are certainly increasing their use of trains.
I would suspect that DB Cargo UK have several ideas.
Could An Electric Locomotive Go In The Middle?
A Class 90 locomotive weighs 84.5 tonnes, as against the 129.6 tonnes of the Class 66 locomotive used in the trial.
So if the electric locomotive can be run dead-in-train, the weight would be slightly less.
But this might give a big advantage, if they ever wanted to run a pair of trains from Felixstowe to Plymouth and Cardiff, as per my earlier example.
- The trains would split anywhere on the electrified section of the Great Western Main Line.
- The lead train would go to Plymouth.
- The second train would go to Cardiff, which is now fully electrified.
There would appear to be possibilities to save carbon emissions.
Could An Electric Locomotive Go On The Front?
Some routes out of Felixstowe are fully-electrified from the Great Eastern Main Line.
It could be possible for the following.
- Two diesel-hauled trains to leave Felixstowe with ubiquitous Class 66 locomotives and form up as a combi-consist train in Ipswich yard.
- The Class 66 locomotive on the front is replaced by an electric locomotive.
- Both Class 90 and Class 92 electric locomotives have twice the power of a Class 66 locomotive, so both should be able to haul the combi-consist train.
The trains would split en-route with the electric locomotive hauling a train to an electrified destination.
This picture shows, what could be an experiment by Freightliner at Shenfield.
Unfortunately, I didn’t have a chance to ask the driver, if the Class 66 locomotive was running dead-in-train or helping the Class 90 locomotive with a very heavy load.
The picture shows, that the electric and diesel locomotives can work together, at the front of a train.
Since I took this picture, I’ve never seen a similar consist again.
Could A Bi-Mode Locomotive Go On The Front?
In GB Railfreight Plans Order For Future-Proofed Bi-Mode Locomotives, I talked about how GB Railfreight had started negotiations to purchase a fleet of powerful bi-mode locomotives from Stadler.
- Provisionally, they have been called Class 99 locomotives.
- The locomotives will be Co-Co bi-modes.
- The diesel engine will be for heavy main line freight and not just last-mile operations.
- I suspect that on diesel the power will be at least 2.5 MW to match a Class 66 locomotive.
These locomotives could be ideal for hauling combi-consist trains.
Would Combi-Consist Trains Save Energy?
This could be a big driver of the use of combi-consist trains and may push DB Cargo UK to acquire some powerful bi-mode locomotives.
Conclusion
Combi-consist trains seem to be an excellent idea.
The Neighbourhood Leading A Green Energy Revolution
The title of this post, is the same as that of this article on the BBC.
These are the first two paragraphs.
An ambitious target of using hydrogen to partly power homes in the UK within three years has been set by the National Grid, the BBC has learned. On the east coast of Scotland, a small neighbourhood is playing a key role in this energy revolution.
From next year, about 300 homes in Buckhaven, and Methil, in the area of Levenmouth, will be powered by green hydrogen gas in a project called H100. Customers will be offered free hydrogen-ready boilers and cookers in the scheme, which will initially last five and a half years.
I described the H100 Project in ‘World First’: SGN Launches Bid For 300 Green Hydrogen Homes Project In Fife.
This is the home page of the H100 Fife project web site.
This Google Map shows part of Buckhaven.
Note the wind turbine, that will produce the hydrogen is in the South-East corner of the map.
Now That’s What I Call A Mission Statement!
This is a paragraph from the Comment in the Business section of today’s times, with the heading of Mission Statement.
Rousing stuff from Astarta, a Ukrainian agri-group listed in Warsaw spanning sugar, milk and soya beans. Having secured extra financing for the “spring planting” season, its latest update underlines a commitment to “maintaining food security and rebuilding the national economy”. The sign-off? Well, not your typical corporate speak: “We believe in the army of Ukraine! We believe in Ukraine! We believe in our Victory!”
Companies love mission statements. Surely, this is one of the best.
Slava Ukraini!
EDF Renewables Eyes 50MW Solar Farm To Power Green Hydrogen Development In Teesside
The title of this post, is the same as that of this article on Solar Power Portal.
These are the first two paragraphs.
EDF Renewables is looking to develop a 49.9MW solar farm to power a new green hydrogen production facility in Teesside.
Working together with Hynamics, a subsidiary of the EDF Group specialising in hydrogen, the companies are planning to develop a 30-50MW electrolyser, which will subsequently be scaled to over 500MW in line with emerging demand.
They are working with PD Ports and British Steel.
Teesside is certainly getting the green hydrogen it needs, as there is also a 400 MW hydrogen project on Teesside, that I wrote about in BP Plans To Turn Teesside Into First Green Hydrogen Hub.
TransPennine Express Explores Further Fleet And Capacity Expansion Options
The title of this post, is the same as that of this article on Railway Gazette.
This is the first paragraph.
First TransPennine Express is hopeful that it will be able to issue a call for expressions of interest in the provision of additional bi-mode trains before the end of March. This follows ‘a healthy level of interest’ in its existing call for expressions of interest in the supply of bi-mode locomotives to replace the Class 68s which work with its MkVa coaches.
I wrote about the expressions of interest to replace the Class 68 locomotives with new bi-mode locomotives in Suppliers Sought For New Bi-Mode Locomotives For TransPennine Express And Great Western Railway.
This was my conclusion in the related post.
When I saw First Group’s proposals, I thought that they were over ambitious.
But after doing a few simple calculations, I think they can decarbonise some, but not all of the TransPennine Express services and the Night Riviera.
So do First Group want to complete the decarbonisation of TransPennine Express services?
These are my thoughts.
The Train Fleet Specification
The Railway Gazette article makes these points about the new bi-mode trains.
- The trains could be existing or new bi-modes.
- It would be desirable for the trains to have a long-term electric-only option.
- Options for this would include removing the diesel engines or converting the trains to battery-electric operation.
- Hydrogen is not mentioned.
- A fleet size of twenty-five trains is mentioned.
- The possibility of electric-only trains in the future is mentioned..
- Five-cars, with the ability to lengthen to six- or seven-cars.
- 200 km/h operation.
There is nothing unusual in the specification.
Will They Be Existing Or New Trains?
I doubt that there are any existing 200 km/h bi-modes in the UK, that are not wanted by their current operators.
I am very certain they will be new trains.
Could The Trains Be Hitachi Class 802 Trains?
The trains sound very much like Hitachi Class 802 trains, that are in service with TransPennine Express, Great Western Railway and Hull Trains, all of whom are First Group companies.
- Long-term, the diesel engines can be removed or replaced with batteries.
- The battery option is under development and should be on test this year.
- The trains can be lengthened to as long as twelve cars, so six- and seven-car trains would be possible.
Hitachi will obviously show interest in this possible order.
Will These Trains Replace the Class 185 Trains?
Consider.
- TransPennine Express have 51 three-car Class 185 trains.
- This is a total of 153 cars.
- On some routes they work singly and on others they work in pairs.
- A three-car Class 185 train has 167 Standard Class and 15 First Class seats or 60.7 seats per car.
- A pair of Class 185 trains have 334 Standard Class and 30 First Class seats.
- A five-car TransPennine Express Class 802 train has 318 Standard Class and 24 First Class seats or 68.4 seats per car.
- It would appear that a Class 802 train is not that far short of the capacity of a pair of Class 185 trains.
- Some of the TransPennine services are very crowded.
I suspect that twenty-five five-car trains be able to handle the the workload of the Class 185 trains.
If a small amount of extra capacity were needed, some of the new trains could be six-cars.
In this section, I have assumed the new trains will be Class 802 trains, but any train manufacturer pitching for this order would adjust the capacity to the needs of TransPennine Express.
The Railway Gazette article says this.
TPE continues to explore opportunities for new services in the north of England, and the move could also feed into government plans for the removal of older and more costly to operate diesel trains elsewhere on the network, should any rolling stock become surplus to requirements at TPE.
So where could the Class 185 trains be used in the future?
Recently, MTU Hybrid PowerPacks have replaced the transmission on a Class 168 train, which reduces carbon emissions and fuel consumption and makes the train quieter and more passenger-friendly, as it doesn’t use diesel in stations.
The Class 185 trains are only fifteen years old and I suspect that MTU have designed the Hybrid PowerPack, so that it can replace the Cummins engine in trains like these.
The conversion could be done as a rolling program, so that any future operator would start with diesel and go hybrid a train at a time.
There has been speculation, that the trains may end up on the East West Railway and I wrote about this in East West Railway Company To Start Second Phase Of Rolling Stock Procurement.
But the East West Railway may prefer to use zero-carbon trains on a route, where there is electrification in places on the route.
Alternatively, South Western Railway run 10 two-car Class 158 trains and 30 three-car Class 159 trains between London Waterloo and Exeter.
- South Western Railway is another First Group company.
- The Class 185 trains could provide a capacity increase.
- The Class 185 trains are 100 mph trains, whereas the Class 158/159 trains are only capable of 90 mph.
The London Waterloo and Exeter Route could be electrified in the future and I am pretty sure, that the Class 185 trains with a hybrid transmission could be a good stand-in until this happens.
Other Train Manufacturers
I believe that Hitachi are in pole position for this order, just because they are an established supplier to both TransPennine Express and First Group.
But twenty-five five-car trains would be a very worthwhile order, so I suspect that companies like Alstom, CAF, Siemens, Stadler and Talgo will also express interest.
Conclusion
Buying extra bi-mode trains will take TransPennine Express further along the route to full decarbonisation.
My First Encounter With A Robot
Whilst in Bletchley, I saw this robot going about their business.
Note.
- The robot was from robotdelivery.co.uk.
- It was fascinating to see it cross the roads on the zebra crossings.
This idea might take off, as it is surely more environmentally friendly than a guy speeding up and down on a scooter.
Bletchley Viaduct – 15th March 2022
The Bletchley Viaduct is now complete and the extra platforms of Bletchley station are under construction.
This visualisation from East West Rail shows an idea for the new station.
It would appear the visualisation was taken from somewhere near the roundabout on the East side of the viaduct.
The Crossrail Article That Everyone Must Read
This article on Ian Visits is entitled A Sneak Preview Of London’s New Elizabeth Line Railway.
As the title of this post indicates, Ian’s article is very much a must read and it gives everybody something worthwhile to look forward to, after what has been the worst two years of many peoples’ lives.
The Crossrail Opening Date
There are a few more tests to do and Ian says the line could open a few weeks after Easter. With the Bank station upgrade apparently going well as I reported in Final Tunnelling Gets Underway On Bank Station Blockade and likely to open in mid-May, I wonder if TfL would prefer that the two projects opened at different times for management and operational reasons.
Easter is the 17th of April, and two weeks later is May Day, with the Bank Holiday on the Monday.
If they can do all the tests, there would be good reasons to open Crossrail on the first of May.
- It’s a different day to the opening of the Bank station upgrade.
- They would have two clear days to get Crossrail open.
- A lot of people will be going to Central London.
- Other Mayors would have organised a party.
- A Bank Holiday would give the new infrastructure a proper test with real passengers and lots of children.
- Crossrail could also help to cover for a late-opening Bank Station Upgrade.
If I needed to bet on it, my money would be on an opening on Sunday, the first of May.
The Bakerloo Line Link At Paddington Station
Ian writes this interesting paragraph.
Something though that was added to Paddington station after the funding was approved was a new direct deep tunnel link from the platforms to the Bakerloo line. London Underground contractors built the link, and Andy Lord suggested that they are considering opening up the link before the Elizabeth line opens fully as it would help with offering step-free access for Bakerloo line customers.
Many people find getting to Paddington difficult, as I do from Dalston.
I typically use some roundabout and slow routes and most end up with arriving at Paddington on the Bakerloo Line.
Opening the link early would have the following effects.
- It would make things a lot easier for me and probably many other passengers.
- It would add passengers to London’s least-used Underground line.
- It would add capacity to the Bakerloo Line station at Paddington.
It would also give a piece of the infrastructure, a good soak testing with real passengers and may flag up some changes that needed to be made to details like signage.
Opening The Liverpool Street and Moorgate Pedestrian Link
In London’s First Underground Roller Coaster, I described this link, which I believe will be used by more than just rail passengers.
I feel that like the Bakerloo Line Link at Paddington station, that this link could be opened early.
Conclusion
I can’t wait for Crossrail to open.
Union Demands Withdrawal Of All HSTs After Carmont Report
The title of this post, is the same as that of this article on Railnews.
This is the first paragraph.
The TSSA union says it has written to the regulator demanding the immediate withdrawal of all surving HSTs, after new revelations in the Carmont derailment. report.
Manuel Cortes of the TSSA feels that the corrosion problem found in the train that crashed at Carmont, may be present in other trains.
He finishes with this this statement.
Frankly, it’s time to ban the HSTs. They were great in their day, but that day is nearly 50 years ago now and they simply aren’t up to modern safety standards.
I must admit, that I tend to agree with him, on this last point.
Scotrail have the following fleet of Inter7City trains.
- There are 52 Class 43 power cars and 120 Mark 3 coaches, which are arranged as nine four-car and seventeen five-car trains.
- The trains have sliding passenger doors.
- The trains meet all the regulations for Persons of Reduced Mobility.
- The trains have wi-fi and power points.
- They seem to run at up to 100 mph, as against the 125 mph for InterCity 125‘s in the past.
- The power cars have generally been reengined with modern MTU 16V4000 R41R diesel engines.
But they are now on average over forty years old.
In Battery And Hydrogen Trains For ScotRail ‘Could Make Scotland A Global Leader’ In Zero-Emission Transport, which is based on an article in the Scotsman with the same title, I said this.
Other points from the article.
- Talgo appear to have passed the story to Scotland on Sunday.
- Three routes are mentioned; Borders Railway, Fife Circle and Glasgow-East Kilbride.
- The new trains could help phase out diesel trains by 2035, which is Scottish Government policy.
- The Inter7City trains might be replaced by 2030.
- Talgo hopes to win an order for its factory in Fife.
Talgo’s Managing Director is quoted as saying, they are starting testing of a hydrogen and electric train with a range of 311 miles.
Consider.
- I wrote about this train in Talgo To Begin Fuel Cell Loco Trials.
- Talgo’s hydrogen and electric train would be ideal for Scotland’s railways of which only forty percent are electrified.
- A four or five-car high specification hydrogen and electric train would be ideal for the Inter7City routes, if it were built specifically for the routes.
- The range would cover all of Scotland.
- Hydrogen hubs are being planned all over Scotland.
- Scotland have 26 Inter7City trainsets.
This could be a rather nice order to fund the factory and test all the trains close to the factory.
- There could be as many as fifty trains.
- They would probably have an operating speed of 100 mph on electricity.
- Would the speed on hydrogen be 100 mph or perhaps a bit less?
- They would be able to use 25 KVAC overhead electrification, where it exists.
- They could have a length of three, four or five cars.
I wouldn’t be surprised to see three or four car trains for the suburban trains and four or five car trains for the Inter7City replacements.
The Anonymous Widower 