The Anonymous Widower

Testing Begins On Midland Main Line Electrification

The title of this post, is the same as that of this article on Rail Magazine.

  • From the article, it looks like the first part of mechanical testing has been completed as planned and unpowered pantograph runs have been performed at up to 110 mph.
  • It does seem to me, that this thirty  miles of electrification has avoided the troubles that have plagued similar projects in recent years.

Perhaps the good progress on this electrification, is making the government think again about early electrification of all of the  Midland Main Line

In Hopes Rekindled Of Full Midland Main Line Electrification. I showed how battery electric Class 810 trains would be able to work the route.

This was my conclusion of that earlier post.

It appears that both the Nottingham and Sheffield services can be run using battery electric Class 810 trains.

  • All four diesel engines in the Class 810 trains would need to be replaced with batteries.
  • The route between Clay Cross North Junction and Sheffield station, which will be shared with High Speed Two, will need to be electrified.
  • Charging facilities for the battery electric trains will need to be provided at Nottingham.

On the other hand using battery electric trains mean the two tricky sections of the Derwent Valley Mills and Leicester station and possibly others, won’t need to be electrified to enable electric trains to run on the East Midlands Railway network.

Will it be the first main line service in the world, run by battery electric trains?

There was one thing, that wasn’t available, a month ago, when I wrote that post – A charging system for battery electric trains, that could be installed at Nottingham.

In Vivarail’s Plans For Zero-Emission Trains, I report on Adrian Shooter’s plans for Vivarail, which are outlined in a video by Modern Railways.

Ar one point he says this   see about Vivarail’s Fast Charge system.

The system has now been given preliminary approval to be installed as the UK’s standard charging system for any make of train.

I may have got the word’s slightly wrong, but I believe the overall message is correct.

So could we see a Hitachi Class 810 train using Vivarail’s patented Fast Charge system at Nottingham?

In Interview: Hitachi’s Nick Hughes On Driving Innovation In Rail Propulsion, Nick Hughes of Hitachi is quoted as saying.

Rail is going to become increasingly digitised and integrated into other sectors involved in smart cities, mobility-as-a-service and flexible green grid. Therefore, Hitachi Rail won’t be able to stay at the forefront of innovation by its self. This is why we are focused on building partnerships with other like-minded, innovative, clean tech companies like Hyperdrive Innovation, Perpetuum and Hitachi group companies such as Hitachi ABB.

Does Vivarail fit that philosophy? In my view, it does!

This Hitachi infographic gives the specification of their Regional Battery Train.

Note.

  1. The range on battery power is 90 km or 56 miles at up to 100 mph.
  2. Class 810 trains could be converted to battery electric trains by replacing the diesel engines with batteries.
  3. As the electrification has reached Kettering. there is only 55 miles between London St Pancras and Nottingham without electrification.

I could see Class 810 trains running between St. Pancras and Nottingham on delivery, provided the following projects have been completed.

  • Hitachi have been able to give the Class 810 trains a range of say 60 miles on batteries.
  • Hitachi have modified their trains, so they can be recharged by a Vivarail Fast Charge system in fifteen minutes.
  • Vivarail have installed a Fast Charge facility at Nottingham station.

Network Rail are planning to extend the electrification from Kettering to Market Harborough, which would reduce the distance without electrification to under 50 miles. This would make running battery electric trains between London St. Pancras and Nottingham even easier.

Expanding The Network

If I am putting two and two together correctly and Hitachi have turned to Vivarail to provide a charging system or a licence for the use of the technology, I am sure, it would be possible to create a comprehensive network of battery electric trains.

Consider.

  • Hitachi should be able to squeeze a sixty mile range at 90-100 mph from a battery-equipped Class 810 trains.
  • Market Harborough and Derby are about 47 miles apart.
  • Derby and Sheffield are about 36 miles apart
  • Sheffield and Leeds are about 48 miles apart
  • Corby and Leicester are about 41 miles apart.

Vivarail Fast Charge systems at Derby, Leicester and Sheffield would enable the following routes to be run using battery electric trains.

  • London St. Pancras and Sheffield via Derby – Fast Charging at Derby and Sheffield
  • London St. Pancras and Leeds via Derby and Sheffield – Fast Charging at Derby and Sheffield
  • London St. Pancras and Sheffield via the Erewash Valley Line – Fast Charging at Ilkeston (?) and Sheffield
  • London St. Pancras and Leicester via Corby – Fast Charging at Leicester

Note.

  1. The only extra electrification needed for the initial network would be between Kettering and Market Harborough.
  2. The Class 810 trains would all be identical.
  3. The Class 810 trains might even be built and delivered as battery electric trains
  4. Trains would also charge the batteries between London St. Pancras and Market Harborough, between London St. Pancras and Corby. and between Leeds and Wakefield Westgate.

The network can be extended by adding more electrification and Fast Charge systems.

Conclusion

The technologies of Hitachi and Vivarail seem complimentary and could result in a fully electric main line train network for East Midlands Railway.

 

 

October 19, 2020 Posted by | Transport/Travel | , , , , , , , , , | 1 Comment

Hopes Rekindled Of Full Midland Main Line Electrification

The title of this post, is the same as that of this article on Rail Magazine.

This is the key section of the article.

During a House of Commons debate on transport on September 17, HS2 Minister Andrew Stephenson said in response to a question from Alex Norris (Labour/Co-op, Nottingham North): “We are currently delivering the Midland Main Line upgrade, which includes electrification from London to Kettering, with additional electrification to Market Harborough being developed.

“Further electrification of the MML is currently at an early stage, but it is being examined by Network Rail.”

Stephenson said the DfT will continue to work closely with NR on the development of a proposal that would include approaches to advancing the delivery of electrification across the route.

The title of the article, probably sums it up well.

Electrification Of The Midland Main Line

Having read lots of stories about electrification of Midland Main Line, I think the following must be born in mind.

  • Electrification on the line will reach as far North as Market Harborough station.
  • The route between Sheffield station and Clay Cross North Junction will be shared with High Speed Two. It will obviously need to be electrified for High Speed Two.
  • The section of the Midland Main Line between Derby and Clay Cross North Junction, runs through the World Heritage Site of the Derwent Valley Mills. The Heritage Taliban will love the electrification, with a vengeance.
  • Electrification through Leicester station could be tricky, as the station building and the A6 road are over the tracks and there is limited clearance. Electrification could involve major disruption to the trains for some time.

These are some of the distances involved of sections of the route that are not electrified.

  • Market Harborough and Derby are 54 miles apart.
  • Market Harborough and Clay Cross North Junction are 67 miles apart.
  • Market Harborough and Chesterfield are 70 miles apart.
  • Market Harborough and Nottingham are 44 miles apart
  • Market Harborough and Leicester are 16 miles apart.
  • Derby and Clay Cross North Junction are 21 miles apart.

Since 2017, when electrification for the full route was originally abandoned, there have been big changes in rolling stock technology.

The biggest change has been the development of battery trains.

Hitachi’s Regional Battery Trains

This infographic from Hitachi gives the specification for their Regional Battery Train.

Note.

  1. The trains have a range of 56 miles on battery power.
  2. The trains can cruise at 100 mph on battery power.
  3. Hitachi have said that all of their AT-300 trains can be converted into Regional Battery Trains.
  4. Trains are converted by removing the diesel engines and replacing them with battery packs.
  5. I suspect these battery packs look like a diesel engine in terms of control inputs and performance to the driver and the train’s computer.

It is extremely likely, that the bi-mode Class 810 trains, which are a version of the AT-300 train, that have been ordered for the Midland Main Line can be converted into Regional Battery Trains.

These trains have four diesel engines, as opposed to the Class 800 and Class 802 trains, which only have three.

These are reasons, why the trains could need four engines.

  • The trains need more power to work the Midland Main Line. I think this is unlikely.
  • Four engine positions gives ,more flexibility when converting to Regional Battery Trains.
  • Four battery packs could give a longer range of up to 120 kilometres or 75 miles.

It could just be, that Hitachi are just being conservative, as engines can easily be removed or replaced. The fifth-car might even be fitted with all the wiring and other gubbins, so that a fifth-engine or battery pack can be added.

I suspect the train’s computer works on a Plug-And-Play principle, so when the train is started, it looks round each car to see how many diesel engines and battery packs are available and it then controls the train according to what power is available.

London St. Pancras And Sheffield By Battery Electric Train

Any battery electric train going between London St. Pancras and Sheffield will need to be charged, at both ends of the route.

  • At the London end, it will use the electrification currently being erected as far as Market Harborough station.
  • At the Sheffield end, the easiest way to charge the trains, would be to bring forward the electrification and updating between Sheffield station and Clay Cross North Junction, that is needed for High Speed Two.

This will leave a 67 mile gap in the electrification between Market Harborough station and Clay Cross North junction.

It looks to me, the Class 810 trains should be able to run between London St. Pancras and Sheffield, after the following projects are undertaken.

  • Class 810 trains are given four battery packs and a battery range of 75 miles.
  • Electrification is installed between Sheffield station and Clay Cross North Junction.

Trains would need to leave Market Harborough station going North and Clay Cross Junction going South with full batteries.

Note.

  1. Trains currently take over an hour to go between Chesterfield to Sheffield and then back to Chesterfield, which would be more than enough to fully charge the batteries.
  2. Trains currently take around an hour to go between London St. Pancras and Market Harborough, which would be more than enough to fully charge the batteries.
  3. Chesterfield station is only three miles further, so if power changeover, needed to be in a station, it could be performed there.
  4. Leeds and Sheffield are under fifty miles apart and as both stations would be electrified, London St. Pancras and Sheffield services could be extended to start and finish at Leeds.

London St. Pancras and Sheffield can be run by battery electric trains.

London St. Pancras And Nottingham By Battery Electric Train

Could a battery electric train go from Market Harborough to Nottingham and back, after being fully-charged on the hour-long trip from London?

  • The trip is 44 miles each way or 88 miles for a round trip.
  • Services have either three or eight stops, of which two or three respectively are at stations without electrification.
  • Trains seem to take over thirty minutes to turnback at Nottingham station.

Extra power North of Market Harborough will also be needed.

  • To provide hotel power for the train, during turnback at Nottingham station.
  • To compensate for power losses at station stops.

If 75 miles is the maximum battery range, I doubt that a round trip is possible.

I also believe, that Hitachi must be developing a practical solution to charging a train during turnback, at a station like Nottingham, where trains take nearly thirty minutes to turnback.

If the Class 810 trains have a battery range of 75 miles, they would be able to handle the London St. Pancras and Nottingham service, with charging at Nottingham.

Conclusion

It appears that both the Nottingham and Sheffield services can be run using battery electric Class 810 trains.

  • All four diesel engines in the Class 810 trains would need to be replaced with batteries.
  • The route between Clay Cross North Junction and Sheffield station, which will be shared with High Speed Two, will need to be electrified.
  • Charging facilities for the battery electric trains will need to be provided at Nottingham.

On the other hand using battery electric trains mean the two tricky sections of the Derwent Valley Mills and Leicester station and possibly others, won’t need to be electrified to enable electric trains to run on the East Midlands Railway network.

Will it be the first main line service in the world, run by battery electric trains?

 

September 28, 2020 Posted by | Transport/Travel | , , , , , , , , , , , , , , , , | 1 Comment

Beeching Reversal – Increased Services To Nottingham And Leicester, via Syston And Loughborough From Melton Mowbray

This is one of the Beeching Reversal projects that the Government and Network Rail are proposing to reverse some of the Beeching cuts.

It is one of a pair of submissions from the local MP; Alicia Kearns. The other is More Stopping Services At Radcliffe-on-Trent And Bottesford Stations On The Poacher Line Between Grantham And Nottingham.

When I heard of the MP’s submissions, I wrote MP Campaigns To Extend Train Services For Melton Borough and the following uses that post as a starting point.

Wikipedia says this about services at Melton Mowbray station.

  • There is an hourly off-peak service in both directions between Stansted Airport and Birmingham, that calls at Cambridge, Peterborough, Oakham and Leicester.
  • East Midlands Railway and their predescessor have added services to London via Corby and to Derby and East Midlands Parkway.

When you consider, that both Bottesford and Melton Mowbray are the same Council and Parliamentary constituency, it does seem that a more direct train service is needed between Bottesford and Melton Mowbray stations.

It does seem to me that some innovative thinking is needed.

If the current plans to fulfil British Rail’s ambition of an Ivanhoe Line running from Lincoln to Burton-on-Trent via Nottingham, East Midlands Parkway, Loughborough and Leicester, are carried out, that will give important towns to the West of Leicester much better rail connections.

Given that High Speed Two is coming to East Midlands Hub station at Toton and there will be a Bedford and Leeds service run by Midlands Connect using High Speed Two classic-compatible trains, that I wrote about in Classic-Compatible High Speed Two Trains At East Midlands Hub Station, I wonder if in the interim, there should be more trains between Derby and Melton.

  • Intermediate stations would be Syston, Sileby, Barrow-upon-Soar, Loughborough, East Midlands Parkway Long Eaton and Spondon.
  • An hourly frequency would double the service frequency at smaller stations like Sileby and Barrow-upon-Soar.
  • The Southern terminal could be Melton station, but I feel Corby or Peterborough stations would be better, as this would improve services at Oakham station. We should not forget Rutland!
  • As Corby will be an electrified two-platform station with a two trains per hour (tph) service to London, this could work quite well as a Southern terminus.
  • Peterborough would have advantages and give a good connection to Cambridge, London and Scotland, but improvements to the current Birmingham and Stansted Airport service would have similar effects.

This route would be just as valuable after High Speed Two opens through the East Midlands Hub station, as it will give fast ongoing connections to Birmingham, Leeds, Newcastle and York.

Electrification Of The Midland Main Line

I feel strongly, that full electrification of the Midland Main Line could be a step to far.

  • Electrification, through Leicester station will mean a complete closure of the station for a couple of years.
  • Electrification of the route North of Derby, through the Derwent Valley Mills, which is a World Heritage Site, will be opposed by the Heritage Taliban with all their might.

But.

  • Electrification of the route between Clay Cross North Junction and Sheffield via Chesterfield will take place in conjunction with High Speed Two
  • Electrification to Market Harborough, which is sixteen miles South of Leicester will happen.
  • East Midlands Railway’s new Class 810 trains could be fitted with a battery option giving a range of between 55 and 65 miles.
  • Pantographs on these trains can go up and down with all the alacrity of a whore’s drawers.

If the easier section of electrification between Leicester and Derby stations, were to be installed, this would enable the following routes to be run using battery-equipped Class 810 trains.

  • London and Derby, where battery power would be used through Leicester.
  • London and Nottingham, where battery power would be used through Leicester and between East Midlands Parkway and Nottingham.
  • London and Sheffield, where battery power would be used through Leicester and between Derby and Clay Cross Junction.
  • Lincoln and Burton-on-Trent, where battery power would be used South of Leicester and North of East Midlands Parkway.
  • Derby and Corby, where battery power would be used between Syston and Corby.

There would also be the service between Derby and Norwich, which might be able to be run by a similar train.

Conclusion

I think the ideal way to achieve the MP’s objective would be to extend a proportion of London St. Pancras and Corby services to  the Midland Main Line.

But the problem with this, is that the Corby trains will be Class 360 trains, which are electric, so the thirty-six mile route between Corby and the Midland Main Line would need to be electrified.

On the other hand, a shuttle train could be used between Corby and Leicester.

They would call at Oakham, Melton Mowbray and Syston stations.

If the Midland Main Line to the North of Leicester were to be electrified, Battery electric trains could be used on the route, with charging at Leicester and Corby.

August 22, 2020 Posted by | Energy Storage, Transport/Travel | , , , , , , , , , , | 3 Comments

Dore And Totley Station – 13th July 2020

These pictures show Dore and Totley station.

These are my thoughts on the station and the tracks through it.

The Midland Main Line And High Speed Two

The two tracks, that are furthest away from the station platform are the Midland Main Line between Sheffield and Chesterfield, Derby and the South.

  • These tracks will be taken over by High Speed Two.
  • They will be electrified with 25 KVAC overhead electrification between Clay Cross North junction and Sheffield station.
  • The trains on the Midland Main Line will continue to use the electrified tracks.
  • East Midlands Railway have ordered bi-mode Class 810 trains, which will each be 120 metres long or 240 metres long, when running as a pair.
  • CrossCountry’s Class 220 trains are 187 metres long running as a pair.
  • I estimate that the faster trains were doing around 100 mph, as they passed Dore and Totley station. I shall measure it properly next time, I go to Sheffield on a train.

Note.

  1. High Speed Two’s trains will probably be going through at the same speed as East Midlands Railway’s Class 810 trains.
  2. High Speed Two will be running their 200 metre long classic-compatible trains to and from Sheffield, so except that there will be two more trains in every hour, there will be little difference.
  3. Both the High Speed Two and the East Midlands Railway trains will be running on electric power between Sheffield and Chesterfield stations.
  4. It is likely that other services will use electric power on the Midland Main Line.
  5. There will be no platforms on the High Speed tracks at Dore and Totley station.

I would suspect that there will be little disruption to train services through the area, whilst the electrification is installed, judging by the disruption caused during electrification between Bedford and Corby.

Dore Junction

Dore Junction is a triangular junction, that connects the Hope Valley Line and the Midland Main Line to the South of Dore and Totley station.

This Google Map shows Dore Junction.

Note.

  1. Dore and Junction station is at the North of the Map.
  2. Dore West Junction is in the South West corner of the map and leads to the Hope Valley Line.
  3. Dore South Junction is in the South East corner of the map and leads to Chesterfield on the Midland Main Line.

This second Google Map shows Dore South Junction.

Could this junction be improved to increase capacity and efficiency?

  • The Southern track of the triangular junction is only single track.
  • It is a major route for stone trains between Derbyshire and London and the South.

If Network Rail have any ideas for Dore Junction, then surely, when the works in the area are being carried out, is the time for them to be performed.

Platform Length At Dore And Totley Station

I took these two pictures when I arrived at Dore and Totley station.

As the train was formed of two two-car Class 150 trains and the train fits the platform, it would appear that the platform is about eighty metres long.

An Extra Platform At Dore And Totley Station

There may be no plans to put platforms on the Midland Main Line, but plans exist for an extra track through the station, that will connect to the Hope Valley Line.

This Google Map shows Dore and Totley station and the Midland Main Line.

 

The second platform wouldn’t be the widest platform,. but I’m sure a second track and a safe platform could be squeezed in.

I wonder if more space is needed, the Midland Main Line could be realigned to give more space and better performance.

A Turnback At Dore And Totley Station

In Beeching Reversal – Sheaf Valley Stations, I said this about a possible turnback at Dore and Totley station.

This Google Map shows Dore & Totley station and the area to the South.

Note.

    1. There would appear to be a lot of space between the Midland Main Line and the single track, that leads between Dore & Totley station and the Hope Valley Line.
      Flying my helicopter, as low as I dare, it looks like the area is either a rubbish dump or very low grade businesses.
      Crossrail has designed turnbacks at Abbey Wood and Paddington stations, that will handle twelve tph.
      I believe that it would be possible to design a turnback at Dore & Totley station, that would handle eight trains per hour, if not twelve tph.

It might even be possible to squeeze in some overnight stabling.

Whilst I was at Dore and Totley station, I met a couple, who were perhaps a few years older than me, who had grown up in the area.

He could remember local steam services between Sheffield and Dore and Totley stations, where there had been a turntable to the South of the station to reverse the locomotive.

Conclusion

After what I saw on my visit to Dore and Totley station, I would suspect that the station can be updated to the standard required to allow four tph between Manchester Piccadilly and Sheffield stations.

It could also be a station that will attract passengers.

 

July 14, 2020 Posted by | Transport/Travel | , , , , , , , | 2 Comments

Beeching Reversal – Sheaf Valley Stations

This is one of the Beeching Reversal projects that the Government and Network Rail are proposing to reverse some of the Beeching cuts.

Stations To Be Rebuilt

As you approach Sheffield station, you pass four station sites, three of which are demolished and the fourth is just a shadow of its former self.

Dore & Totley

Dean & Totley station used to have four platforms and this Google Map, shows what is left after British Rail’s vandalism in the mid-1980s.

Note.

  1. The station has only one platform.
  2. The single track in the platform handles all trains to and from the Hope Valley Line.
  3. At present it appears to be two trains per hour (tph) in both directions.
  4. The two tracks at the right are the Midland Main Line.

Transport for the North wants to run four tph between Manchester Piccadilly and Sheffield through here, that will take forty minutes between the two cities.

Updates planned for the station include.

  • A second platform for Manchester-bound trains.
  • A new bridge with lifts.
  • Platforms long enough to take a pair of Class 185 trains or a five-car Class 802 train.
  • A full hourly service.

There certainly seems to be enough space for another platform and track through the middle of the station.

At some point in the near future, the two Midland Main Line tracks will be electrified, as part of the upgrade for High Speed Two.

Between Dore & Totley And Beauchief

This Google Map shows a typical section of the line between Dore & Totley and Beauchief stations.

Note the two Midland Main Line tracks on the right and single-track to the Hope Valley Line on the left.

It would appear that the fourth track can be squeezed in between the single track and the Midland Main Line.

Beauchief

Beauchief station used to have four platforms before it was demolished.

This Google Map shows the station’s former location.

Note.

  1. The building with the red dot is the former Beauchief Hotel. which was by the station.
  2. On a larger screen you can see three tracks going into Sheffield.

I’m fairly certain that four tracks and two platforms for a station can be fitted into this narrow trackbed.

Millhouses & Eccleshall

Millhouses and Eccleshall station used to have four platforms before it was demolished.

This Google Map shows the station’s former location.

Note.

  1. Wikipedia says the station was accessed from the Archer Road bridge, which is in the South East corner of the map.
  2. It looks like there are three tracks with space for four.
  3. The road to the North-West of the railway is called Old Station Road.

As at Beauchief, it will be tight.

Heeley

Heeley station used to have four platforms before it was demolished.

This Google Map shows the station’s former location.

Note.

  1. The red arrow indicates Heeley Bridge, which Wikipedia says is near the station site.
  2. There appears to be only two tracks through here.

It is easy to follow the tracks from here to Sheffield station.

Could A Four Track Railway Be Rebuilt Between Dore & Totley And Sheffield Stations?

I’ve not seen anything that says that building a four-track railway through here is not possible.

In a few years, there could be the following tracks and platforms, on this section.

  • Two fast tracks for High Speed Two, Midland Main Line and CrossCountry trains, that will be electrified with 25 KVAC overhead electrification, between Clay Cross North Junction and Sheffield station.
  • The High Speed Two trains will be classic-compatible and up to 200 metres long.
  • The two fast tracks will not have any platforms.
  • Two slow tracks for local services, that will be appropriately electrified.
  • The slow tracks will have step-free platforms, that will be long enough to take a five-car Class 802 train or a pair of Class 185 trains.

I can’t for the life of me understand, why this stretch of four-track main line between Dore & Totley and Sheffield stations was ever simplified, as at other places on the UK network, extra tracks were being added to the main lines, at the same time.

Future Services On The Fast Lines

Currently, the following services take the fast lines between Sheffield and Chesterfield stations via Dore & Totley station.

  • East Midlands Railway – Sheffield and London St. Pancras – 2 tph
  • East Midlands Railway – Sheffield and Norwich via Nottingham – 1 tph
  • CrossCountry – Edinburgh/Newcastle and Derby/Birmingham and the South – 2 tph
  • Northern – Sheffield and Nottingham – 1 tph

That is a very modest six tph.

High Speed Two are currently planning to run two tph between Sheffield and London Euston.

There may or may not be other changes.

  • As Birmingham Curzon Street and Sheffield will be just forty-seven minutes by High Speed Two all the way, will these destinations have a direct high speed classic-compatible service? There’s plenty of space capacity on High Speed Two.
  • I don’t think the Sheffield and St. Pancras services will be dropped, but they might be.
  • CrossCountry will probably be running intelligent multi-mode trains capable of 125 mph running and up to 140 mph in places.
  • Northern’s service between Sheffield and Nottingham might go via a reopened Barrow Hill Line.

But the biggest change will be that these two fast lines will be to High Speed Two standards.

  • Sheffield and Chesterfield will be electrified.
  • There will in-cab digital signalling, which theoretically could probably allow eighteen tph on the route.
  • High Speed Two Trains between Sheffield and Chesterfield will take twelve minutes.
  • Sheffield station will have been modified as required, to be able to handle all trains very efficiently.

But it would still be carrying a modest eight tph.

If required Sheffield would have the capacity to accept more trains from the South.

I wouldn’t be surprised to see, the following trains added.

  • An extra tph to and from London Euston via High Speed Two.
  • Two tph to and from Birmingham Curzon Street via High Speed Two.

I also wouldn’t be surprised to see CrossCountry using classic-compatible High Speed Two trains and switching to High Speed Two between Birmingham New Street and Sheffield. But these trains would still use the same tracks to access Sheffield station.

But I am led to the conclusion, that Sheffield will have more than enough capacity linking the City to Chesterfield and the South.

Future Services On The Slow Lines

Or should I use lines connecting to the Hope Valley Line rather than slow lines?

Currently, the following services take the slow lines between Sheffield and  Dore & Totley stations.

  • East Midlands Railway – Liverpool Lime Street and Sheffield – via Manchester Piccadilly – 1 tph
  • TransPennine Express – Manchester Airport and Cleethorpes via Manchester Piccadilly – 1 tph
  • Northern – Sheffield and Manchester Piccadilly – 1 tph

 

Transport for the North aims to run a four tph service with a forty minute journey time between Manchester Piccadilly and Sheffield.

Consider.

  • 100 mph TransPennine Express trains take fifty-three minutes between Sheffield and Manchester Piccadilly without a stop.
  • Classic-compatible trains with a battery capability could easily handle the route.
  • Northern’s services on the Hope Valley Line are timed for 75 mph trains.
  • Dore & Totley and Hazel Grove stations are twenty-nine miles apart.

If between Dore & Totley and Sheffield stations were to be electrified and track improvements like passing loops were to be made to the Hope Valley Line, I believe that to achieve a forty minute all-stops timing between Sheffield and Manchester Piccadilly, would need a train with the following specification.

  • Electric train with batteries.
  • Four cars
  • 100 mph or faster operating speed.
  • Step-free access between platform and train.
  • Sparkling acceleration and deceleration.
  • Ability to run under in-cab digital signalling to keep out of the way of freight services.

Looking at Crossrail between London Paddington and Maidenhead stations, the London route is probably as difficult as the Hope Valley Line and it has been designed as a forty minute service with ten stops, using a modern electric train.

If TransPennine fitted batteries to their Class 802 trains, these trains would fit the Northern Powerhouse Rail requirements.

East Midlands Railway and Northern would find that the following trains could be used.

  • Bombardier – Aventra with batteries
  • Bombardier – Class 377 train with batteries
  • Bombardier – Class 379 train with batteries
  • CAF – Class 331 train with batteries
  • Hitachi – Class 385 train with batteries
  • Porterbrook – Battery/FLEX train based on Class 350 train
  • Stadler – Flirt with batteries

All would need that between Dore & Totley and Sheffield stations be electrified.

After the upgrades and the new or refurbished trains are running, this would mean that between Dean & Totley and Sheffield would be handling four tph, which would be semi-fast trains between Sheffield and Manchester Piccadilly. Although to current passengers on the line, they would seem to be fast services of a much higher standard.

It would not be very different to how the slow lines into Paddington also handle about four tph of other services, including GWR services and freight.

I believe that to provide an adequate service to the reopened and rebuilt stations of Dore & Totley, Beauchief, Millhouses & Eccleshall and Heeley, that a Turn-Up-And-Go service of at least four tph should be run between Dore & Totley and Sheffield stations.

A Turnback At Dore & Totley

This Google Map shows Dore & Totley station and the area to the South.

Note.

  1. There would appear to be a lot of space between the Midland Main Line and the single track, that leads between Dore & Totley station and the Hope Valley Line.
  2. Flying my helicopter, as low as I dare, it looks like the area is either a rubbish dump or very low grade businesses.
  3. Crossrail has designed turnbacks at Abbey Wood and Paddington stations, that will handle twelve tph.

I believe that it would be possible to design a turnback at Dore & Totley station, that would handle eight trains per hour, if not twelve tph.

It might even be possible to squeeze in some overnight stabling.

Trains Or Tram-Trains Between Dore & Totley And Sheffield Stations

In my view, it doesn’t matter.

Crossrail’s 12 tph turnbacks can handle a 205 metre long Class 345 train, so I’m sure a well-designed turnback at Dore & Totley could handle a mixture of any trams or tram-trains below a defined maximum length of say 140 metres, which would be defined by a pair of Class 185 trains, which might have to be turned back during service disruption.

Where Would The Services Terminate in The East?

It is my view that cross-city services like Birmingham’s Cross-City Line, Liverpool’s Northern Line, London’s Crossrail and Thameslink, Newcastle’s Metro and Paris’s RER are efficient for both passengers and train operators.

So Dore & Totley station could be one end of a Sheffield cross-city line, with a frequency of at least eight tph through Beauchief, Millhouses & Eccleshall, Heeley and Sheffield stations.

So where would services go on the other side of Sheffield? Wikipedia gives these as services to the East of Sheffield.

  • Leeds via Barnsley and Wakefield (fast) – 2 tph
  • Leeds via Meadowhall, Barnsley, Wakefield and Castleford (stopping). – 1 tph
  • Leeds via Meadowhall, Moorthorpe and Wakefield. – 1 tph
  • Scarborough via Meadowhall, Doncaster, Hull and Bridlington. – 1 tph
  • Lincoln Central via Worksop and Retford – 1 tph
  • Gainsborough Central via Worksop, three trains per week continue to Cleethorpes via Brigg. – 1 tph
  • Huddersfield via Meadowhall, Barnsley and Penistone – 1 tph
  • Doncaster via Meadowhall and Rotherham, with one train per hour continuing to Adwick – 2 tph
  • York via Moorthorpe and Sherburn-in-Elmet. – 3 trains per day (tpd)

For much of the day, that is a frequency of 10 tph, with 5 tph calling at Meadowhall, 2 tph calling at Worksop and two fast tph passing Meadowhall without stopping.

But there are other rail projects under development.

I can see classic-compatible High Speed Two trains serving the following places to the East of Sheffield.

  • Leeds
  • Hull via Doncaster
  • Scarborough via York
  • Cleethorpes via Doncaster, Scunthorpe and Grimsby.

A train like a five-car Class 802 train would probably be enough for most routes except Leeds.

I can see the following terminals for tram-trains to the East of Sheffield.

  • Doncaster and Doncaster-Sheffield Airport
  • Waverley station, which could be on a loop from the Sheffield and Lincoln Line.
  • Barnsley Dearne Valley

There may well be others.

If Sheffield were Karlsruhe in Germany, the tram-trains would probably serve the following routes.

  • Huddersfield via Penistone.
  • Lincoln via Worksop and Gainsborough.
  • Manchester via the Hope Valley Line.

But the Germans have a much larger electrified core, than Sheffield will have, even if High Speed Two electrifies between Dore & Totley and Thurnscoe stations via Sheffield.

I can make a table of destinations and distances and how they could be served.

  • Barnsley – 16 miles – Possible return trip from Sheffield for a battery electric train.
  • Barnsley Dearne Valley – 8 miles from Rotherham Parkgate – Possible return trip from Sheffield via Rotherham Parkgate for a battery electric tram-train.
  • Doncaster – 11 miles from Rotherham Parkgate – Possible return trip from Sheffield via Rotherham Parkgate for a battery electric tram-train.
  • Chesterfield via Barrow Hill – 17 miles – Possible return trip from Sheffield for a battery electric tram-train.
  • Doncaster Sheffield Airport – 10 miles from Doncaster – Possible return trip from Sheffield via Rotherham Parkgate and Doncaster for a battery electric tram-train.
  • Gainsborough Lea Road. – 32 miles – See Lincoln Central.
  • Huddersfield – 36 miles – Possible battery electric train with charging at Huddersfield.
  • Hull – 59 miles – Possible battery electric train with charging at Doncaster and Hull.
  • Lincoln Central – 48 miles – Possible battery electric train with charging at Lincoln and/or Gainsborough Lea Road. Otherwise diesel.
  • Penistone – 23 miles – Possible return trip from Sheffield for a battery electric train, using Newton’s friend on the way back.
  • Retford – 23 miles – Possible return trip from Sheffield for a battery electric train.
  • Waverley – About 6 miles – Possible return trip from Sheffield for a battery electric tram-train.
  • Worksop – 16 miles – Possible return trip from Sheffield for a battery electric train.

It looks to me like a mix of battery electric trains and tram-trains could run most of the services from Sheffield, if services that used new High Speed Two infrastructure used classic-compatible trains or trains like the existing Class 802 trains, that have been converted to battery electric operation.

Note.

  1. I am assuming, that a battery electric train has  a range of 56 miles on a single charge.
  2. Rotherham Parkgate station is changed to a through station.
  3. Tram-trains passing through Doncaster can recharge on the station’s 25 KVAC overhead electrification.
  4. Charging can be provided as required at other stations.

There are lots of possibilities.

Consider, this for tram-train extensions to Barnsley Dearne Valley, Doncaster and Doncaster Sheffield Airport.

  • Extend the tram-train service at Rotherham Parkgate to either Doncaster and Doncaster Airport or Barnsley Dearne Valley stations.
  • Run tram-trains between Dore & Totley and Rotherham Parkgate via Sheffield, Meadowhall and Rotherham Central.

This would give a double-ended route across Sheffield and Rotherham between Dore & Totley and the existing Supertram network in the West and Barnsley Dearne Valley, Doncaster and Doncaster Sheffield Airport in the East.

Consider how to connect the branch to Waverley station to the Supertram network.

  • Waverley station will be either on or on a loop from the Sheffield and Lincoln Line.
  • The Sheffield and Lincoln Line has no obvious connection with the Supertram network.
  • The Sheffield and Lincoln Line goes straight in to Sheffield station.
  • Trains to Lincoln always appear to use Platform 4 in Sheffield station.
  • Sheffield station has four through platforms.

This Google Map shows where the Sheffield and Lincoln Line passes behind the Supertram Depot at Nunnery.

Note.

  1. The Nunnery Square Park and Ride is in the South West corner of the map.
  2. The Supertram depot is to the East of the Park-and-Ride, with the Nunnery Square tram stop to the South.
  3. The Woodbourn Road tram stop is in the North East corner of the map.

This second Google Map shows the lines around the Park-and-Ride.

I suspect that a connection between the Supertram system and the Sheffield and Lincoln Line, could be built to the North of the Nunnery Depot.

But would it be easier to continue to Sheffield station or pass through the station and terminate at Dore & Totley station?

I can’t be sure looking at the maps, but it could be logical that trains to and from Lincoln use the Southern pair of tracks past the Nunnery Depot, as they would be on the right side of the tracks for Lincoln.

This would make it easier to do the following.

  • Create a connection between the Nunnery Depot and the Sheffield and Lincoln Line, which would surely be needed for efficient maintenance and operation of tram-trains running to and from Waverley.
  • Allow tram-trains used to serve the proposed Waverley station to return to the Depot every night.
  • Allow tram-trains working between Sheffield and Meadowhall to use the Lincoln and Sheffield Line to enter the Nunnery Depot.
  • Build a tram stop/station by the Park-and-Ride.

There would also be less need to build another depot.

Looking at the maps, could there be space to extend the Nunnery Depot?

Conclusion

This could be a very good project.

  • It fits in well with the plans and needs of High Speed Two.
  • It connects the new Waverley station to Sheffield station.
  • It fits well with the Sheffield Region Transport Plan 2019.
  • It connects Sheffield, Rotherham and Doncaster to Doncaster Sheffield Airport.
  • It opens up the Hope Valley Line to improve services between Manchester and Sheffield.

I also don’t think, there’s any great risk!

 

 

 

 

 

 

 

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July 12, 2020 Posted by | Transport/Travel | , , , , , , , , , , , , , , , , , , | 3 Comments

Hyperdrive Innovation And Hitachi Rail To Develop Battery Tech For Trains

The title of this post, is the same as that of this article on The Engineer.

This is the introductory sub-title.

Hyperdrive Innovation and Hitachi Rail are to develop battery packs to power trains and create a battery hub in the North East of England.

The article gives this information.

  • Trains can have a range of ninety kilometres, which fits well with Hitachi’s quoted battery range of 55-65 miles.
  • Hitachi has identified its fleets of 275 trains as potential early recipients.

Hitachi have also provided an  informative video.

At one point, the video shows a visualisation of swapping a diesel-engine for a battery pack.

As a world-class computer programmer in a previous life, I believe that it is possible to create a battery pack, that to the train’s extremely comprehensive computer, looks like a diesel-engine.

So by modifying the train’s software accordingly, the various power sources of electrification, diesel power-packs and battery packs can be used in an optimum manner.

This would enable one of East Midlands Railway’s Class 810 trains, to be fitted with a mix of diesel and battery packs in their four positions under the train.

Imagine going between London and Sheffield, after the High Speed Two electrification between Clay Cross North Junction and Sheffield has been erected.

  • Between St. Pancras and Market Harborough power would come from the electrification.
  • The train would leave the electrified section with full batteries
  • At all stations on the route, hotel power would come from the batteries.
  • Diesel power and some battery power would be used between stations. Using them together may give better performance.
  • At Clay Cross North Junction, the electrification would be used to Sheffield.

For efficient operation, there would need to be electrification or some form of charging at the Sheffield end of the route. This is why, I am keen that when High Speed Two is built in the North, that the shsared section with the Midland Main Line between Clay Cross North Junction and Sheffield station, should be built early.

Hitachi have said that these trains will have four diesel engines. I think it will more likely be two diesel engines and two batteries.

The World’s First Battery-Electric Main Line

I suspect with electrification between Sheffield and Clay Cross North Junction, that a train fitted with four batteries, might even be able to run on electric power only on the whole route.

In addition, if electrification were to be erected between Leicester and East Midlands Parkway stations, all three Northern destinations would become electric power only.

The Midland Main Line would be the first battery electric high speed line in the world!

Hitachi On Hydrogen Trains

The press release about the partnership between Hitachi and Hyperdrive Innovation is on this page on the Hitachi web site.

This is a paragraph.

Regional battery trains produce zero tailpipe emission and compatible with existing rail infrastructure so they can complement future electrification. At the moment, battery trains have approximately 50% lower lifecycle costs than hydrogen trains, making battery the cheapest and cleanest alternative zero-emission traction solution for trains.

I have ridden in two battery-electric trains and one hydrogen-powered train.

I would rate them out of ten as follows.

It’s not that the iLint is a bad train, as the power system seems to work well, but the passenger experience is nowhere near the quality of the two battery trains.

In my view, battery vehicles are exceedingly quiet, so is this the reason?

On the other hand, it could just be poor engineering on the iLint.

Conclusion

This is as very big day in the development of zero- and low-carbon trains in the UK.

July 6, 2020 Posted by | Transport/Travel | , , , , , , , , , , | 30 Comments

Discontinuous Electrification Through Leicester Station

Leicester station is an important station on the Midland Main Line

  • Leicester is an urban area of half a million people.
  • All of East Midlands Railway Intercity services call as they pass through the station.
  • Leicester station is only sixteen miles North of the end of the Southern electrification at Market Harborough station.
  • Birmingham New Street is 40 miles away.
  • Clay Cross North Junction is 50 miles away.
  • Derby is 29 miles away.
  • East Midlands Parkway is 19 miles away.
  • Long Eaton is 21 miles away.
  • Nottingham is 27 miles away.
  • Peterborough is 52 miles away.
  • Sheffield is 66 miles away.

A sensible decision would probably be to extend the electrification from Market Harborough to a few miles North of Leicester, so that battery-electric trains could reach all the places in the above list.

Unfortunately, the following about the bridge at the Southern end of Leicester station, must be noted.

  • The bridge doesn’t have sufficient clearance for electrification and would need to be rebuilt.
  • It carries the main A6 road to London over the railway.
  • The station building also spans the railway lines.
  • To complicate matters, there is an important sewer either in or under the bridge.

This Google Map shows the bridge and the Southern end of the station.

It looks to me, that Leicester station and the road, would have to be closed to traffic for some time, if the bridge were to be rebuilt, to allow the erection of electrification through the area.

A solution could be discontinuous electrification.

  • The electrification from the South, would finish on the South side of bridge.
  • The electrification from the North, would finish in Leicester station.
  • Electric trains would cover the gap of a few hundred metres on battery power.

Pantographs could be raised and lowered, where the wires exist.

  • On the North side of the bridge, this could be in Leicester station, whilst passengers are getting off and on the train.
  • On the South side of the bridge, this could be as far South as Market Harborough, which is sixteen miles away.

The other big problem area of electrification on the Midland Main Line is North of Derby, where the railway runs through the World Heritage Site of the Derwent Valley Mills. There might be serious opbjections to electrification in this area.

  • But if electrification were to be installed between Leicester and Derby stations, the following would be possible.
  • The Midland Main Line would be electrified at East Midlands Hub station.
  • Power could be taken from High Speed Two’s supply at East Midland Hub station.
  • Battery-electric trains could do a return trip to Nottingham from an electrified East Midlands Parkway, as it’s only sixteen miles in total.
  • Battery-electric trains could reach the High Speed Two spur into Sheffield at Clay Cross from Derby, as it’s only twenty-one miles.

I am assuming, that Hitachi’s Class 810 trains will have range of over fifty miles on battery power, which fits with Hitachi’s statements.

Conclusion

Discontinuous electrification and batteries on trains can solve the problem of electrification through Leicester station.

Also. electric trains could run between London and Sheffield, if the following were done.

  • The Class 810 trains were to be given a range of twenty-five miles
  • Electrification were to be erected between Leicester and Derby stations.
  • Electrification were to be erected between Sheffield and Clay Cross Junction, as required by High Speed Two.

The electrification could be brought forward, to bring Sheffield early benefits of High Speed Two.

June 25, 2020 Posted by | Transport/Travel | , , , , , , , , | 9 Comments

MP Campaigns To Extend Train Services For Melton Borough

The title of this post, is the same as that of this article on the Melton Times.

This is the introductory sub-title.

A campaign has been launched by the Melton’s MP to improve services passing and operating from the town station and the one at Bottesford.

Alicia Kearns has submitted two bids to the Restoring Your Railway Fund.

I’ll now look at the two proposals in more detail.

More Regular Services To Bottesford

Wikipedia says this about services at Bottesford station.

  • The service is generally every two hours to Nottingham in the West and Skegness in the East.
  • Some trains call at Grantham and give connection to the East Coast Main Line.
  • LNER services at Grantham connect to Doncaster, King’s Cross, Leeds, Lincoln, Peterborough, Stevenage, Wakefield and York.
  • Bottesford is in the Borough of Melton and their is no direct rail service between Bottesford and Melton. A typical journey takes over two-and-a-half hours with two changes, that can include a wait of an hour at Leicester station.
  • Bottesford is in the County of Leicester. There is no direct rail service between Bottesford and Leicester.

I think the MP has a point and an improved and more frequent service at Bottesford could be very beneficial.

  • Many routes like this in the UK have an hourly service and I suspect many communities along the Poacher Line would benefit from this frequency.
  • All services calling at Grantham for East Coast Main Line services would be useful.
  • Do services have a good interchange at Nottingham for Midland Main Line services?

It looks like improvements at Bottesford wouldn’t require any new expensive infrastructure, but they would need more trains.

More Services Through Melton

Wikipedia says this about services at Melton station.

  • There is an hourly off-peak service in both directions between Stansted Airport and Birmingham, that calls at Cambridge, Peterborough, Oakham and Leicester.
  • East Midlands Railway and their predescessor have added services to London via Corby and to Derby and East Midlands Parkway.

When you consider, that both Bottesford and Melton Mowbray are the same Council and Parliamentary constituency, it does seem that a more direct train service is needed between Bottesford and Melton stations.

It does seem to me that some innovative thinking is needed.

If the current plans to fulfil British Rail’s ambition of an Ivanhoe Line running from Lincoln to Burton-on-Trent via Nottingham, East Midlands Parkway, Loughborough and Leicester, are carried out, that will give important towns to the West of Leicester much better rail connections.

Given that High Speed Two is coming to East Midlands Hub station at Toton and there will be a Bedford and Leeds service run by Midlands Connect using High Speed Two classic-compatible trains, that I wrote about in Classic-Compatible High Speed Two Trains At East Midlands Hub Station, I wonder if in the interim, there should be more trains between Derby and Melton.

  • Intermediate stations would be Syston, Sileby, Barrow-upon-Soar, Loughborough, East Midlands Parkway Long Eaton and Spondon.
  • An hourly frequency would double the service frquency at smaller stations like Sileby and Barrow-upon-Soar.
  • The Southern terminal could be Melton station, but I feel Corby or Peterborough stations would be better, as this would improve services at Oakham station. We should not forget Rutland.
  • As Corby will be an electrified two-platform station with a two trains per hour (tph) service to London, this could work quite well as a Southern terminus.
  • Peterborough would have advantages and give a good connection to Cambridge, London and Scotland, but improvements to the current Birmingham and Stansted Airport service would have similar effects.

This route would be just as valuable after High Speed Two opens through the East Midlands Hub station, as it will give fast ongoing connections to Birmingham, Leeds, Newcastle and York.

Electrification Of The Midland Main Line

I feel strongly, that full electrification of the Midland Main Line could be a step to far.

  • Electrification, through Leicester station will mean a complete closure of the station for a couple of years.
  • Electrification of the route North of Derby, through the Derwent Valley Mills, which is a World Heritage Site, will be opposed by the Heritage Taliban with all their might.

But.

  • Electrification of the route between Clay Cross North Junction and Sheffield via Chesterfield will take place in conjunction with High Speed Two
  • Electrification to Market Harborough, which is sixteen miles South of Leicester will happen.
  • East Midlands Railway’s new Class 810 trains could be fitted with a battery option giving a range of between 55 and 65 miles.
  • Pantographs on this trains can go up and down with all the alacrity of a whore’s drawers.

If the easier section of electrification between Leicester and Derby stations, were to be erected, this would enable the following routes to be run using battery=equipped Class 810 trains.

  • London and Derby, where battery power would be used through Leicester.
  • London and Nottingham, where battery power would be used through Leicester and between East Midlands Parkway and Nottingham.
  • London and Sheffield, where battery power would be used through Leicester and between Derby and Clay Cross North Junction.
  • Lincoln and Burton-on-Trent, where battery power would be used South of Leicester and North of East Midlands Parkway.
  • Derby and Corby, where battery power would be used between Syston and Corby.

There would also be the service between Derby and Norwich, which might be able to be run by a similar train.

Conclusion

The MP’s plan is worth pursuing.

June 24, 2020 Posted by | Transport/Travel | , , , , , , , , , , | 4 Comments

Reinstatement Of The Ivanhoe Line

This is one of the successful bids in the First Round of the Restoring Your Railway Fund.

The Ivanhoe Line, is a half-completed project left over from the days of British Rail.

  • The main objective appears to be to extend the current line between Lincoln and Leicester via Nottingham, East Midlands Parkway and Loughborough stations to Burton-upon-Trent along the freight-only Leicester-Burton-upon-Trent Line.
  • Some new stations will be added.

In January 2020, I wrote Silent Hydrogen Trains On The Cards For New Line Linking Burton And Leicester, after reading an article on Derbyshire Live.

I finished that article by listing the possibilities.

There are a lot of possibilities to extend the Ivanhoe Line to Burton and even beyond using the South Staffordshire Line.

  • Battery or hydrogen trains can be used.
  • Stations can be added as required.
  • The route will connect to East Midlands Airport.
  • A solution for Knighton Junction can surely be devised.

Amazon are reported to be interested in the project, as they have a big depot at Coalville.

It now looks like it’s all going to be turned into a plan for reality.

I do have some questions.

What Will Be The Solution To The Knighton Junction Problem?

Sadly, when the route was closed to passengers in 1964, British Rail simplified Knighton Junction at the Leicester end of the line. Wikipedia says this.

At the Leicester end of the line, Knighton North Junction has been dismantled and the former course of the line to the junction has been sold and turned into an industrial estate. The line’s remaining connection with the Midland Main Line is Knighton South Junction, which faces southwards, away from Leicester station. Trains between Leicester and the line therefore have to reverse direction at the junction.

This Google Map shows, what’s left of the junction.

Note.

  1. Leicester is to the North
  2. Burton is to the North-West.
  3. Melton Mowbray and London are to the South.

It looks to me, that someone at British Rail made it absolutely certain, that the rail line could not be reopened to provide a passenger service between Leicester and Burton.

For a train to go between Leicester and Burton, it would either need to reverse as Wikipedia indicated, or the curve would have to be very tight.

It looks like the preferred solution, will be to build a new station to the South of Knighton Junction.

  • The station would only need a single platform.
  • It could be easily fitted in alongside the Midland Main Line.

Trains will reverse to get around the tight corner.

Will There Be A Station At Leicester City Stadium

This Google Map shows the stadium.

Note the rail line passing to the South of the station.

It would appear that building a new station would not be the most difficult of projects.

But after the experience of Coventry City, who were relegated twice after Coventry Arena station opened, would Leicester City want a station?

Could The Ivanhoe Line Be Connected To High Speed Two At Ashby-de-la-Zouch?

I heard an MP on the radio, who was very much against High Speed Two and that led me to write Could High Speed Two Have A Station At Ashby-de-la-Zouch?.

I think this is a serious possibility in the future.

Could East Midlands Railway Use The Route To Run A London And Burton-on-Trent Service?

Consider.

  • East Midlands Railway‘s Class 810 trains could be fitted with a battery, that would give the trains a battery range of between 55 and 65 miles.
  • The trains would have a charge time of perhaps 10 minutes.
  • The distance between Knighton Junction and Burton-on-Trent is around 35 miles.
  • The distance between Knighton Junction and the Northern limit of the electrification at Market Harborough station is fifteen miles.
  • The distance between Market Harborough and Burton-on-Trent stations is 50 miles.

I think it would be possible for a battery-electric Class 810 train to run between London and Burton-on-Trent.

  • The batteries would need to be charged at Burton-on-Trent.
  • Perhaps, the easiest way to provide charging facilities would be to electrify the last ten miles between Ashby-de-la-Zouch and Burton-on-Trent stations
  • The service could call at all or selected stations between Knighton Junction and Burton-on-Trent.

I think this could be a very useful service, even if it only ran a couple of times every day.

Could Battery-Electric Trains Run The Whole Ivanhoe Line Between Lincoln And Burton-on-Trent?

The problem is not the trains, but the lack of electrification between Market Harborough and Clay Cross North Junction.

Leicester station is an important station on the MML.

But it would be a difficult station to electrify because of a bridge with limited clearance.

In Discontinuous Electrification Through Leicester Station, I discussed how the following.

  • Discontinuous electrification through Leicester station.
  • Electrification between Leicester and Derby stations.
  • Electrifying the High Speed Two route between Clay Cross Junction and Sheffield.

Would allow Hitachi Class 810 trains, equipped with batteries to run between London and Sheffield on electric power alone.

Consider.

  • As I have said East Midland Railway’s new Class 810 trains could be fitted with batteries with a range of 55 to 65 miles.
  • The gap between Leicester station and the end of the electrification at Market Harborough is sixteen miles.
  • Knighton Junction is less than two miles South of Leicester station.
  • Burton-on-Trent is around forty miles from Leicester station.
  • All passenger trains passing through Leicester station, stop in the station to set down and pick up passengers.

It would thus appear that the following would be possible.

  • A Northbound battery-electric  train from St. Pancras to Leicester or further North could reach Leicester on battery power from Market Harborough.
  • A Northbound battery-electric train from Burton-on-Trent to Leicester or further North could reach Leicester on battery power from Burton-on-Trent.
  • A Southbound train from Leicester or further North to St. Pancras could reach Market Harborough on battery power from Leicester.
  • A Southbound train from Leicester or further North to Burton-on-Trent could reach Burton-on-Trent on battery power from Leicester.

Trains leaving Leicester would need to be fully charged.

So how would this be arranged?

I think the simplest method would be to electrify the  section of the Midland Main Line between Leicester and Derby stations.

  • The route is probably not the most difficult to electrify.
  • East Midlands Parkway has good electrical connections, as it is next to Ratcliffe-on-Soar power station.
  • Nottingham is just nine miles from East Midlands Parkway.
  • Derby is thirty miles from East Midlands Parkway.
  • Clay Cross North Junction, where the joint electrified section with High Speed Two commences is twenty-one miles from Derby.
  • Lincoln is forty-two miles from East Midlands Parkway.
  • Battery-electric trains could use this electrification for both traction power and to charge their batteries.
  • As the trains would use battery power between Derby and Clay Cross North Junction, the sensitive issue of electrifying through the World Heritage Site of the Derwent Valley Mills, will have been avoided.

All East Midlands Railway’s InterCity services would be totally carbon-free.

It should also be noted, that as Lincoln is only forty-two miles from East Midlands Parkway, provided there was the ability to recharge the trains at Lincoln, the whole Ivinghoe route between Lincoln and Burton-on-Trent could be run by a suitable battery-electric train.

Could Hydrogen Trains Run The Whole Ivanhoe Line Between Lincoln And Burton-on-Trent?

If the route can be run by a battery-electric train, I can see no reason, why a hydrogen-powered train couldn’t do a good job on the route.

I suspect that the Alstom Breeze and any future trains, that are designed for hydrogen power, will also be able to use electrification, where it exists.

So, if any more electrification was erected on the Midland Main Line, the hydrogen trains would take advantage.

The hydrogen trains would need to be refuelled, but because of their long range, this would probably only be a twice a day operation at most.

There is probably space for a refuelling point, at either end of the route.

Conclusion

This is a good scheme, that should have been completed decades ago.

May 25, 2020 Posted by | Transport/Travel | , , , , , , , , , | 17 Comments

Highview Power And Railway Electrification

In Encore Joins Highview To Co-Develop Liquid Air Energy Storage System In Vermont, I gave brief notes about a proposed Highview Power CRYOBattery in Vermont.

  • The system will supply 50 MW for eight hours.
  • The total capacity will be 400 MWh.

Other articles have suggested, that the system could be built on the site of a demolished coal-fired power station, which still has a good connection to the electricity grid.

In other words, I believe that a CRYOBattery can be considered to be a small 50 MW power station.

  • It could be charged by local excess renewable energy during the day.
  • It could be charged by excess renewal energy from the electricity grid during the night, when there can be large amounts of wind energy, that needs a home.
  • Intelligent control systems, would balance the output of the CRYOBattery to the needs of the electricity grid.

It would be used in very much the same way as gas-turbine power-stations are used in electricity grids all over the world.

The Braybrooke Feeder Station

The National Grid is providing a feeder station at Braybrooke to support the Midland Main Line electrification.

This page on the Harbough Rail Users site is entitled Electrification Substation Plan for Braybrooke.

It gives this description of the sub-station.

Electrification of part of the Midland Main Line has moved a tentative step closer with the plans being prepared by National Grid for a feeder substation at Braybrooke, just outside Market Harborough.  The location is where a high-voltage National Grid power-line crosses over the railway and the plan is for a substation and associated equipment plus an access road from the A6. The substation is due to be completed by October 2020 and is intended to feed the power supply for the Corby line pending electrification of the main line through Market Harborough.

This Google Map shows the rough area, where it will be located.

Note.

  1. The A6 crossing the Midland Main Line.
  2. The solar farm in the South-facing field, which has a 3MW capacity, according to the Eckland Lodge Business Park web site.
  3. Various planning documents say the transformers on the substation will be 400/25 kV units.
  4. This means that the power-line in the area must be a 400 kV.

Unfortunately, I can’t pick out the line of 400 kV pylons marching across the countryside. But they are rather large.

The pictures show a group of 400 kV pylons near Barking.

  • The Midland Main Line at Braybrooke certainly seems to be getting a solid supply of electricity.
  • It was originally planned, that the electrification would go all the way, but it was cut back to Kettering and Corby a couple of years ago.
  • But to power, the electrification to Corby, it is being extended all the way to Braybrooke, so that the electrification can act as a giant extension lead for the Corby Branch Line.

The page on the Harborough Rail Users Site says this.

The Braybrooke substation is still planned, however, and the DfT has advised that the bi-mode trains will be able to switch power mode at speed.  They would therefore be able to continue running electrically north from Kettering as far as Braybrooke before ‘pan down’

It would appear, that the end of the electrification will be at Braybrooke, but the sub-station seems to have enough power to extend the electrification further North if that is ever planned.

I also think, that is rather an efficient and affordable solution, with very little modification required to the existing electricity network.

But not all electricity feeds to railway electrification have a convenient 400 kV line at a handy site for installing all the needed transformers and other electrical gubbins.

How Much Power Will Needed To Be Supplied At Braybrooke?

This can probably be dismissed as the roughest or rough calculations, but the answer shows the order of magnitude of the power involved.

Consider.

  • Braybrooke must be sized for full electrification of the Midland Main Line.
  • Braybrooke will have to power trains North of Bedford.
  • If there is full electrification of the Midland Main Line, it will probably have to power trains as far North as East Midlands Parkway station, where there is a massive power station.
  • Trains between Bedford and Market Harborough take thirty minutes.
  • Trains between Bedford and Corby take around thirty minutes.
  • Four trains per hour (tph) run between Bedford and Market Harborough in both directions.
  • The system must be sized to handle two tph between Bedford and Corby in both directions.
  • The power output of each Class 360 train, that will be used on the Corby route is 1,550 kW, so a twelve-car set will need 4.65 MW.
  • I can’t find the power output of a Class 810 train, but an InterCity 125 with similar performance has 3.4 MW.
  • A Class 88 bi-mode locomotive has a power output of 4 MW when using the electrification.

I estimate that Braybrooke could have to support at least a dozen trains at busy times, each of which could need 4 MW.

Until someone gives me the correct figure, I reckon that Braybrooke has a capacity to supply 50 MW for trains on the Midland Main Line.

A Highview Power system as proposed for Vermont, would have enough power, but would need a lot more storage or perhaps local wind or solar farms, to give it a regular charging.

Riding Sunbeams

Riding Sunbeams are a company, who use solar power to provide the electricity for railway electrification.

I’ll let their video explain what they do.

It’s a company with an idea, that ticks a lot of boxes, but would it be able to provide enough power for a busy electrified main line? And what happens on a series of rainy or just plain dull days?

Highview Power

Could a Highview Power energy storage system be used?

  • To store electricity from local or grid electrical sources.
  • To power the local electrification.

If required, it could be topped up by affordable overnight electricity, that is generated by wind power.

The Highview Power system could also be sized to support the local electricity grid and local solar and wind farms.

Conclusion

I think that Riding Sunbeams and Highview Power should be talking to each other.

 

 

May 2, 2020 Posted by | Energy, Energy Storage, Transport/Travel | , , , , , , , | 2 Comments

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