Midland Main Line « The Anonymous Widower

Will Hitachi Announce A High Speed Metro Train?

As the UK high speed rail network increases, we are seeing more services and proposed services, where local services are sharing tracks, where trains will be running at 125 mph or even more.

London Kings Cross And Cambridge/Kings Lynn

This Great Northern service is run by Class 387 trains.

Services run between London Kings Cross and King’s Lynn or Cambridge
The Class 387 trains have a maximum operating speed of 110 mph.
The route is fully electrified.
The trains generally use the fast lines on the East Coast Main Line, South of Hitchin.
Most trains on the fast lines on the East Coast Main Line are travelling at 125 mph.

When in the future full digital in-cab ERTMS signalling is implemented on the East Coast Main Line, speeds of up to 140 mph should be possible in some sections between London Kings Cross and Hitchin.

The Digswell Viaduct Problem

I also believe that digital signalling may be able to provide a solution to the twin-track bottleneck over the Digswell Viaduct.

Consider.

Airliners have been flown automatically and safely from airport to airport for perhaps four decades.
The Victoria Line in London, has been running automatically and safely at over twenty trains per hour (tph) for five decades. It is now running at over 30 tph.
I worked with engineers developing a high-frequency sequence control system for a complicated chemical plant in 1970.

We also can’t deny that computers are getting better and more capable.

For these reasons, I believe there could be an ERTMS-based solution to the problem of the Digswell Viaduct, which could be something like this.

All trains running on the two track section over the Digswell Viaduct and through Welwyn North station would be under computer control between Welwyn Garden City and Knebworth stations.
Fast trains would be slowed as appropriate to create spaces to allow the slow trains to pass through the section.
The train drivers would be monitoring the computer control, just as they do on the Victoria Line.

Much more complicated automated systems have been created in various applications.

The nearest rail application in the UK, is probably the application of digital signalling to London Underground’s Circle, District, Hammersmith & City and Metropolitan Lines.

This is known at the Four Lines Modernisation and it will be completed by 2023 and increase capacity by up to twenty-seven percent.

I don’t think it unreasonable to see the following maximum numbers of services running over the Digswell Viaduct by 2030 in both directions in every hour.

Sixteen fast trains
Four slow trains

That is one train every three minutes.

Currently, it appears to be about ten fast and two slow.

As someone, who doesn’t like to be on a platform, when a fast train goes through, I believe that some form of advanced safety measures should be installed at Welwyn North station.

It would appear that trains between London Kings Cross and King’s Lynn need to have this specification.

Ability to run at 125 mph on the East Coast Main Line
Ability to run at 140 mph on the East Coast Main Line, under control of full digital in-cab ERTMS signalling.

This speed increase could reduce the journey time between London Kings Cross and Cambridge to just over half-an-hour with London Kings Cross and King’s Lynn under ninety minutes.

The only new infrastructure needed would be improvements to the Fen Line to King’s Lynn to allow two tph, which I think is needed.

Speed improvements between Hitchin and Cambridge could also benefit timings.

London Kings Cross And Cambridge/Norwich

I believe there is a need for a high speed service between London Kings Cross and Norwich via Cambridge.

The Class 755 trains, that are capable of 100 mph take 82 minutes, between Cambridge and Norwich.
The electrification gap between Ely and Norwich is 54 miles.
Norwich station and South of Ely is fully electrified.
Greater Anglia’s Norwich and Cambridge service has been very successful.

With the growth of Cambridge and its incessant need for more space, housing and workers, a high speed train between London Kings Cross and Norwich via Cambridge could tick a lot of boxes.

If hourly, it would double the frequency between Cambridge and Norwich until East-West Rail is completed.
All stations between Ely and Norwich get a direct London service.
Cambridge would have better links for commuting to the city.
Norwich would provide the quality premises, that Cambridge is finding hard to develop.
London Kings Cross and Cambridge would be just over half an hour apart.
If the current London Kings Cross and Ely service were to be extended to Norwich, no extra paths on the East Coast Main Line would be needed.
Trains could even split and join at Cambridge or Ely to give all stations a two tph service to London Kings Cross.
No new infrastructure would be required.

The Cambridge Cruiser would become the Cambridge High Speed Cruiser.

London Paddington And Bedwyn

This Great Western Railway service is run by Class 802 trains.

Services run between London Paddington and Bedwyn.
Services use the Great Western Main Line at speeds of up to 125 mph.
In the future if full digital in-cab ERTMS signalling is implemented, speeds of up to 140 mph could be possible on some sections between London Paddington and Reading.
The 13.3 miles between Newbury and Bedwyn is not electrified.

As the service would need to be able to run both ways between Newbury and Bedwyn, a capability to run upwards of perhaps thirty miles without electrification is needed. Currently, diesel power is used, but battery power would be better.

London Paddington And Oxford

This Great Western Railway service is run by Class 802 trains.

Services run between London Paddington and Oxford.
Services use the Great Western Main Line at speeds of up to 125 mph.
In the future if full digital in-cab ERTMS signalling is implemented, speeds of up to 140 mph could be possible on some sections between London Paddington and Didcot Parkway.
The 10.3 miles between Didcot Parkway and Oxford is not electrified.

As the service would need to be able to run both ways between Didcot Parkway and Oxford, a capability to run upwards of perhaps thirty miles without electrification is needed. Currently, diesel power is used, but battery power would be better.

Local And Regional Trains On Existing 125 mph Lines

In The UK, in addition to High Speed One and High Speed Two, we have the following lines, where speeds of 125 mph are possible.

East Coast Main Line
Great Western Main Line
Midland Main Line
West Coast Main Line

Note.

Long stretches of these routes allow speeds of up to 125 mph.
Full digital in-cab ERTMS signalling is being installed on the East Coast Main Line to allow running up to 140 mph.
Some of these routes have four tracks, with pairs of slow and fast lines, but there are sections with only two tracks.

It is likely, that by the end of the decade large sections of these four 125 mph lines will have been upgraded, to allow faster running.

If you have Hitachi and other trains thundering along at 140 mph, you don’t want dawdlers, at 100 mph or less, on the same tracks.

These are a few examples of slow trains, that use two-track sections of 125 nph lines.

East Midlands Railway – 1 tph – Leicester and Lincoln – Uses Midland Main Line
East Midlands Railway – 1 tph – Liverpool and Norwich – Uses Midland Main Line
East Midlands Railway – 2 tph – St. Pancras and Corby – Uses Midland Main Line
Great Western Railway – 1 tph – Cardiff and Portsmouth Harbour – Uses Great Western Main Line
Great Western Railway – 1 tph – Cardiff and Taunton – Uses Great Western Main Line
Northern – 1 tph – Manchester Airport and Cumbria – Uses West Coast Main Line
Northern – 1 tph – Newcastle and Morpeth – Uses East Coast Main Line
West Midlands Trains – Some services use West Coast Main Line.

Conflicts can probably be avoided by judicious train planning in some cases, but in some cases trains capable of 125 mph will be needed.

Southeastern Highspeed Services

Class 395 trains have been running Southeastern Highspeed local services since 2009.

Services run between London St. Pancras and Kent.
Services use Speed One at speeds of up to 140 mph.
These services are planned to be extended to Hastings and possibly Eastbourne.

The extension would need the ability to run on the Marshlink Line, which is an electrification gap of 25.4 miles, between Ashford and Ore.

Thameslink

Thameslink is a tricky problem.

These services run on the double-track section of the East Coast Main Line over the Digswell Viaduct.

2 tph – Cambridge and Brighton – Fast train stopping at Hitchin, Stevenage and Finsbury Park.
2 tph – Cambridge and Kings Cross – Slow train stopping at Hitchin, Stevenage, Knebworth, Welwyn North, Welwyn Garden City, Hatfield, Potters Bar and Finsbury Park
2 tph – Peterborough and Horsham – Fast train stopping at Hitchin, Stevenage and Finsbury Park.

Note.

These services are run by Class 700 trains, that are only capable of 100 mph.
The fast services take the fast lines South of the Digswell Viaduct.
South of Finsbury Park, both fast services cross over to access the Canal Tunnel for St, Pancras station.
I am fairly certain, that I have been on InterCity 125 trains running in excess of 100 mph in places between Finsbury Park and Stevenage.

It would appear that the slow Thameslink trains are slowing express services South of Stevenage.

As I indicated earlier, I think it is likely that the Kings Cross and King’s Lynn services will use 125 mph trains for various reasons, like London and Cambridge in under half an hour.

But if 125 mph trains are better for King’s Lynn services, then they would surely improve Thameslink and increase capacity between London and Stevenage.

Looking at average speeds and timings on the 25 miles between Stevenage and Finsbury Park gives the following.

100 mph – 15 minutes
110 mph – 14 minutes
125 mph – 12 minutes
140 mph – 11 minutes

The figures don’t appear to indicate large savings, but when you take into account that the four tph running the Thameslink services to Peterborough and Cambridge stop at Finsbury Park and Stevenage and have to get up to speed, I feel that the 100 mph Class 700 trains are a hindrance to more and faster trains on the Southern section of the East Coast Main Line.

It should be noted, that faster trains on these Thameslink services would probably have better acceleration and and would be able to execute faster stops at stations.

There is a similar less serious problem on the Midland Main Line branch of Thameslink, in that some Thameslink services use the fast lines.

A couple of years ago, I had a very interesting chat with a group of East Midlands Railway drivers. They felt that the 100 mph Thameslink and the 125 mph Class 222 trains were not a good mix.

The Midland Main Line services are also becoming more complicated, with the new EMR Electric services between St. Pancras and Corby, which will be run by 110 mph Class 360 trains.

Hitachi’s Three Trains With Batteries

Hitachi have so far announced three battery-electric trains. Two are based on battery packs being developed and built by Hyperdrive Innovation.

Hyperdrive Innovation

Looking at the Hyperdrive Innovation web site, I like what I see.

Hyperdrive Innovation provided the battery packs for JCB’s first electric excavator.

Note that JCB give a five-year warranty on the Hyperdrive batteries.

Hyperdrive have also been involved in the design of battery packs for aircraft push-back tractors.

The battery capacity for one of these is given as 172 kWh and it is able to supply 34 kW.

I was very surprised that Hitachi didn’t go back to Japan for their batteries, but after reading Hyperdrive’s web site about the JCB and Textron applications, there would appear to be good reasons to use Hyperdrive.

Hyperdrive have experience of large lithium ion batteries.
Hyperdrive have a design, develop and manufacture model.
They seem to able to develop solutions quickly and successfully.
Battery packs for the UK and Europe are made in Sunderland.
Hyperdrive are co-operating with Nissan, Warwick Manufacturing Group and Newcastle University.
They appear from the web site to be experts in the field of battery management, which is important in prolonging battery life.
Hyperdrive have a Taiwanese partner, who manufactures their battery packs for Taiwan and China.
I have done calculations based on the datasheet for their batteries and Hyperdrive’s energy density is up with the best

I suspect, that Hitachi also like the idea of a local supplier, as it could be helpful in the negotiation of innovative applications. Face-to-face discussions are easier, when you’re only thirty miles apart.

Hitachi Regional Battery Train

The first train to be announced was the Hitachi Regional Battery Train, which is described in this Hitachi infographic.

Note.

It is only a 100 mph train.
The batteries are to be designed and manufactured by Hyperdrive Innovation.
It has a range of 56 miles on battery power.
Any of Hitachi’s A Train family like Class 800, 802 or 385 train can be converted to a Regional Battery Train.

No orders have been announced yet.

But it would surely be very suitable for routes like.

London Paddington And Bedwyn
London Paddington And Oxford

It would also be very suitable for extensions to electrified suburban routes like.

London Bridge and Uckfield
London Waterloo and Salisbury
Manchester Airport and Windermere.
Newcastle and Carlisle

It would also be a very sound choice to extend electrified routes in Scotland, which are currently run by Class 385 trains.

Hitachi InterCity Tri-Mode Battery Train

The second train to be announced was the Hitachi InterCity Tri-Mode Battery Train, which is described in this Hitachi infographic.

Note.

Only one engine is replaced by a battery.
The batteries are to be designed and manufactured by Hyperdrive Innovation.
Typically a five-car Class 800 or 802 train has three diesel engines and a nine-car train has five.
These trains would obviously be capable of 125 mph on electrified main lines and 140 mph on lines fully equipped with digital in-cab ERTMS signalling.

Nothing is said about battery range away from electrification.

Routes currently run from London with a section without electrification at the other end include.

London Kings Cross And Harrogate – 18.3 miles
London Kings Cross And Hull – 36 miles
London Kings Cross And Lincoln – 16.5 miles
London Paddington And Bedwyn – 13.3 miles
London Paddington And Oxford – 10.3 miles

In the March 2021 Edition of Modern Railways, LNER are quoted as having aspirations to extend the Lincoln service to Cleethorpes.

With all energy developments in North Lincolnshire, this is probably a good idea.
Services could also call at Market Rasen and Grimsby.
Two trains per day, would probably be a minimum frequency.

But the trains would need to be able to run around 64 miles each way without electrification. Very large batteries and/or charging at Cleethorpes will be needed.

Class 803 Trains For East Coast Trains

East Coast Trains have ordered a fleet of five Class 803 trains.

These trains appear to be built for speed and fast acceleration.
They have no diesel engines, which must save weight and servicing costs.
But they will be fitted with batteries for emergency power to maintain onboard train services in the event of overhead line failure.
They are planned to enter service in October 2021.

Given that Hyperdrive Innovation are developing traction batteries for the other two Hitachi battery trains, I would not be the least bit surprised if Hyperdrive were designing and building the batteries for the Class 803 trains.

Hyperdrive batteries are modular, so for a smaller battery you would use less modules.
If all coaches are wired for a diesel engine, then they can accept any power module like a battery or hydrogen pack, without expensive redesign.
I suspect too, that the battery packs for the Class 803 trains could be tested on an LNER Class 801 train.

LNER might also decide to replace the diesel engines on their Class 801 trains with an emergency battery pack, if it were more energy efficient and had a lighter weight.

Thoughts On The Design Of The Hyperdrive innovation Battery Packs

Consider.

Hitachi trains have a sophisticated computer system, which on start-up can determine the configuration of the train or whether it is more than one train running as a longer formation or even being hauled by a locomotive.
To convert a bi-mode Class 800 train to an all-electric Class 801 the diesel engines are removed. I suspect that the computer is also adjusted, but train formation may well be totally automatic and independent of the driver.
Hyperdrive Innovation’s battery seem to be based on a modular system, where typical modules have a capacity of 5 kWh, weighs 32 Kg and has a volume of 0.022 cu metres.
The wet mass of an MTU 16V 1600 R80L diesel engine commonly fitted to AT-300 trains of different types is 6750 Kg or nearly seven tonnes.
The diesel engine has a physical size of 1.5 x 1.25 x 0.845 metres, which is a volume of 1.6 cubic metres.
In How Much Power Is Needed To Run A Train At 125 mph?, I calculated that a five-car Class 801 electric train, needed 3.42 kWh per vehicle-mile to maintain 125 mph.
It is likely, than any design of battery pack, will handle the regenerative braking.

To my mind, the ideal solution would be a plug compatible battery pack, that the train’s computer thought was a diesel engine.

But then I have form in the area of plug-compatible electronics.

At the age of sixteen, for a vacation job, I worked in the Electronics Laboratory at Enfield Rolling Mills.

It was the early sixties and one of their tasks was at the time replacing electronic valve-based automation systems with new transistor-based systems.

The new equipment had to be compatible to that which it replaced, but as some were installed in dozens of places around the works, they had to be able to be plug-compatible, so that they could be quickly changed. Occasionally, the new ones suffered infant-mortality and the old equipment could just be plugged back in, if there wasn’t a spare of the new equipment.

So will Hyperdrive Innovation’s battery-packs have the same characteristics as the diesel engines that they replace?

Same instantaneous and continuous power output.
Both would fit the same mountings under the train.
Same control and electrical power connections.
Compatibility with the trains control computer.

I think they will as it will give several advantages.

The changeover between diesel engine and battery pack could be designed as a simple overnight operation.
Operators can mix-and-match the number of diesel engines and battery-packs to a given route.
As the lithium-ion cells making up the battery pack improve, battery capacity and performance can be increased.
If the computer, is well-programmed, it could reduce diesel usage and carbon-emissions.
Driver conversion from a standard train to one equipped with batteries, would surely be simplified.

As with the diesel engines, all battery packs could be substantially the same across all of Hitachi’s Class 80x trains.

What Size Of Battery Would Be Possible?

If Hyperdrive are producing a battery pack with the same volume as the diesel engine it replaced, I estimate that the battery would have a capacity defined by.

5 * 1.6 / 0.022 = 364 kWh

In an article in the October 2017 Edition of Modern Railways, which is entitled Celling England By The Pound, Ian Walmsley says this in relation to trains running on the Uckfield Branch, which is not very challenging.

A modern EMU needs between 3 and 5 kWh per vehicle mile for this sort of service.

As a figure of 3.42 kWh per vehicle-mile to maintain 125 mph, applies to a Class 801 train, I suspect that a figure of 3 kWh or less could apply to a five-car Class 800 train trundling at around 80-100 mph to Bedwyn, Cleethorpes or Oxford.

A one-battery five-car train would have a range of 24.3 miles
A two-battery five-car train would have a range of 48.6 miles
A three-battery five-car train would have a range of 72.9 miles

Note.

Reducing the consumption to 2.5 kWh per vehicle-mile would give a range of 87.3 miles.
Reducing the consumption to 2 kWh per vehicle-mile would give a range of 109.2 miles.
Hitachi will be working to reduce the electricity consumption of the trains.
There will also be losses at each station stop, as regenerative braking is not 100 % efficient.

But it does appear to me, that distances of the order of 60-70 miles would be possible on a lot of routes.

Bedwyn, Harrogate, Lincoln and Oxford may be possible without charging before the return trip.

Cleethorpes and Hull would need a battery charge before return.

A Specification For A High Speed Metro Train

I have called the proposed train a High Speed Metro Train, as it would run at up to 140 mph on an existing high speed line and then run a full or limited stopping service to the final destination.

These are a few thoughts.

Electrification

In some cases like London Kings Cross and King’s Lynn, the route is already electrified and batteries would only be needed for the following.

Handling regenerative braking.
Emergency power in case of overhead line failure.
Train movements in depots.

But if the overhead wires on a branch line. are in need of replacement, why not remove them and use battery power? It might be the most affordable and least disruptive option to update the power supply on a route.

The trains would have to be able to run on both types of electrification in the UK.

25 KVAC overhead.
750 VDC third rail.

This dual-voltage capability would enable the extension of Southeastern Highspeed services.

Operating Speed

The trains must obviously be capable of running at the maximum operating speed on the routes they travel.

125 mph on high speed lines, where this speed is possible.
140 mph on high speed lines equipped with full digital in-cab ERTMS signalling, where this speed is possible.

The performance on battery power must be matched with the routes.

Hitachi have said, that their Regional Battery trains can run at up to 100 mph, which would probably be sufficient for most secondary routes in the UK and in line with modern diesel and electric multiple units.

Full Digital In-cab ERTMS Signalling

This will be essential and is already fitted to some of Hitachi’s trains.

Regenerative Braking To Batteries

Hitachi’s battery electric trains will probably use regenerative braking to the batteries, as it is much more energy efficient.

It also means that when stopping at a station perhaps as much as 70-80% of the train’s kinetic energy can be captured in the batteries and used to accelerate the train.

In Kinetic Energy Of A Five-Car Class 801 Train, I showed that at 125 mph the energy of a full five-car train is just over 100 kWh, so batteries would not need to be unduly large.

Acceleration

This graph from Eversholt Rail, shows the acceleration and deceleration of a five-car Class 802 electric train.

As batteries are just a different source of electric power, I would think, that with respect to acceleration and deceleration, that the performance of a battery-electric version will be similar.

Although, it will only achieve 160 kph instead of the 200 kph of the electric train.

I estimate from this graph, that a battery-electric train would take around 220 seconds from starting to decelerate for a station to being back at 160 kph. If the train was stopped for around eighty seconds, a station stop would add five minutes to the journey time.

London Kings Cross And Cleethorpes

As an example consider a service between London Kings Cross and Cleethorpes.

The section without electrification between Newark and Cleethorpes is 64 miles.
There appear to be ambitions to increase the operating speed to 90 mph.
Local trains seem to travel at around 45 mph including stops.
A fast service between London Kings Cross and Cleethorpes would probably stop at Lincoln Central, Market Rasen and Grimsby Town.
In addition, local services stop at Collingham, Hykeham, Barnetby and Habrough.
London Kings Cross and Newark takes one hour and twenty minutes.
London Kings Cross and Cleethorpes takes three hours and fifteen minutes with a change at Doncaster.

I can now calculate a time between Kings Cross and Cleethorpes.

If a battery-electric train can average 70 mph between Newark and Cleethorpes, it would take 55 minutes.
Add five minutes for each of the three stops at Lincoln Central, Market Rasen and Grimsby Town
Add in the eighty minutes between London Kings Cross and Newark and that would be two-and-a-half hours.

That would be very marketing friendly and a very good start.

Note.

An average speed of 80 mph would save seven minutes.
An average speed of 90 mph would save twelve minutes.
I suspect that the current bi-modes would be slower by a few minutes as their acceleration is not as potent of that of an electric train.

I have a feeling London Kings Cross and Cleethorpes via Lincoln Central, Market Rasen and Grimsby Town, could be a very important service for LNER.

Interiors

I can see a new lightweight and more energy efficient interior being developed for these trains.

In addition some of the routes, where they could be used are popular with cyclists and the current Hitachi trains are not the best for bicycles.

Battery Charging

Range On Batteries

I have left this to last, as it depends on so many factors, including the route and the quality of the driving or the Automatic Train Control

Earlier, I estimated that a five-car train with all three diesel engines replaced by batteries, when trundling around Lincolnshire, Oxfordshire or Wiltshire could have range of up to 100 miles.

That sort of distance would be very useful and would include.

Ely and Norwich
Newark and Cleethorpes
Salisbury and Exeter

It might even allow a round trip between the East Coast Main Line and Hull.

The Ultimate Battery Train

This press release from Hitachi is entitled Hitachi And Eversholt Rail To Develop GWR Intercity Battery Hybrid Train – Offering Fuel Savings Of More Than 20%.

This is a paragraph.

The projected improvements in battery technology – particularly in power output and charge – create opportunities to replace incrementally more diesel engines on long distance trains. With the ambition to create a fully electric-battery intercity train – that can travel the full journey between London and Penzance – by the late 2040s, in line with the UK’s 2050 net zero emissions target.

Consider.

Three batteries would on my calculations give a hundred mile range.
Would a train with no diesel engines mean that fuel tanks, radiators and other gubbins could be removed and more or large batteries could be added.
Could smaller batteries be added to the two driving cars?
By 2030, let alone 2040, battery energy density will have increased.

I suspect that one way or another these trains could have a range on battery power of between 130 and 140 miles.

This would certainly be handy in Scotland for the two routes to the North.

Haymarket and Aberdeen, which is 130 miles without electrification.
Stirling and Inverness, which is 111 miles without electrification, if the current wires are extended from Stirling to Perth, which is being considered by the Scottish Government.

The various sections of the London Paddington to Penzance route are as follows.

Paddington and Newbury – 53 miles – electrified
Newbury and Taunton – 90 miles – not electrified
Taunton and Exeter – 31 miles – not electrified
Exeter and Plymouth – 52 miles – not electrified
Plymouth and Penzance – 79 miles – not electrified

The total length of the section without electrification between Penzance and Newbury is a distance of 252 miles.

This means that the train will need a battery charge en route.

I think there are three possibilities.

Trains can take up to seven minutes for a stop at Plymouth. As London and Plymouth trains will need to recharge at Plymouth before returning to London, Plymouth station could be fitted with comprehensive recharge facilities for all trains passing through. Perhaps the ideal solution would be to electrify all lines and platforms at Plymouth.
Between Taunton and Exeter, the rail line runs alongside the M5 motorway. This would surely be an ideal section to electrify, as it would enable battery electric trains to run between Exeter and both Newbury and Bristol.
As some trains terminate at Exeter, there would probably need to be charging facilities there.

I believe that the date of the late 2040s is being overly pessimistic.

I suspect that by 2040 we’ll be seeing trains between London and Aberdeen, Inverness and Penzance doing the trips without a drop of diesel.

But Hitachi are making a promise of London and Penzance by zero-carbon trains, by the late-2040s, because they know they can keep it.

And Passengers and the Government won’t mind the trains being early!

Conclusion

This could be a very useful train to add to Hitachi’s product line.

March 9, 2021 Posted by AnonW | Transport/Travel | Battery-Electric Trains, Bedwyn Station, Class 387 Train, Class 395 Train, Class 700 Train, Class 755 Train, Class 802 Train, Didcot Parkway Station, Digswell Viaduct, East Coast Main Line, East Midlands Railway, ERTMS, Eversholt Rail Group, Great Western Main Line, Great Western Railway, Hasting Station, High Speed One, High Speed Two, Hitachi Intercity Tri-Mode Battery Train, Hitachi Regional Battery Train, Hyperdrive Innovation, JCB, King's Cross Station, King's Lynn Station, LNER, Marshlink Line, Midland Main Line, Northern Rail, Norwich Station, Oxford Station, Paddington Station, Southeastern, West Coast Main Line, West Midlands Trains | 1 Comment

Thoughts On Batteries In East Midland Railway’s Class 810 Trains

Since Hitachi announced the Regional Battery Train in July 2020, which I wrote about in Hyperdrive Innovation And Hitachi Rail To Develop Battery Tech For Trains, I suspect things have moved on.

This is Hitachi’s infographic for the Regional Battery Train.

Note.

The train has a range of 90 km/56 miles on battery power.
Speed is given at between 144 kph/90 mph and 162 kph/100 mph
The performance using electrification is not given, but it is probably the same as similar trains, such as Class 801 or Class 385 trains.
Hitachi has identified its fleets of 275 trains as potential early recipients.

It is also not stated how many of the three diesel engines in a Class 800 or Class 802 trains will be replaced by batteries.

I suspect if the batteries can be easily changed for diesel engines, operators will be able to swap diesel engines and battery packs according to the routes.

Batteries In Class 803 Trains

I first wrote about the Class 803 trains for East Coast Trains in Trains Ordered For 2021 Launch Of ‘High-Quality, Low Fare’ London – Edinburgh Service, which I posted in March 2019.

This sentence from Wikipedia, describes a big difference between Class 803 and Class 801 trains.

Unlike the Class 801, another non-bi-mode AT300 variant which despite being designed only for electrified routes carries a diesel engine per unit for emergency use, the new units will not be fitted with any, and so would not be able to propel themselves in the event of a power failure. They will however be fitted with batteries to enable the train’s on-board services to be maintained, in case the primary electrical supplies would face a failure.

Nothing is said about how the battery is charged. It will probably be charged from the overhead power, when it is working.

The Intercity Tri-Mode Battery Train

Hitachi announced the Intercity Tri-Mode Battery Train in this press release in December 2020.

This is Hitachi’s infographic for the Intercity Tri-Mode Battery Train.

Note.

The train is battery-powered in stations and whilst accelerating away.
It says that only one engine will be replaced by batteries.
Fuel and carbon savings of 20 % are claimed.

Nothing has been said in anything, I’ve read about these trains, as to whether there is regenerative braking to batteries. I would be very surprised if fuel and carbon savings of 20 % could be attained without regenerative braking to batteries.

In Do Class 800/801/802 Trains Use Batteries For Regenerative Braking?, I discussed the question in the title.

This is a shortened version of what I said in that post.

If you type “Class 800 regenerative braking” into Google, you will find this document on the Hitachi Rail web site, which is entitled Development of Class 800/801 High-speed Rolling Stock for UK Intercity Express Programme.

If you search for brake in the document, you find this paragraph.

In addition to the GU, other components installed under the floor of drive cars include the traction converter, fuel tank, fire protection system, and brake system.

Note that GU stands for generator unit.

The document provides this schematic of the traction system.

Note that BC which is described as battery charger.

Is that for a future traction battery or a smaller one used for hotel power as in the Class 803 train?

As a Control and Electrical Engineer, it strikes me that it wouldn’t be the most difficult problem to add a traction battery to the system.

From what Hitachi have indicated in videos, it appears that they are aiming for the battery packs to be a direct replacement for the generator unit.

Generator Unit Arrangement In Class 810 Trains

When I wrote Rock Rail Wins Again!, which was about the ordering of these trains, the reason for four engines wasn’t known.

It now appears, that the extra power is needed to get the same 125 mph performance on diesel.

The formation of a five-car Class 802 train is as follows.

DPTS-MS-MS-MC-DPTF

Note.

The three generator units are in the three middle cars.
The three middle cars are motored.
The two driver cars are trailer cars.

How are Hitachi going to put four generator units into the three middle cars?

I wonder if, the engines can be paired, with some auxiliaries like fuel-tanks and radiators shared between the generators.
A well-designed pair might take up less space than two singles.
A pair could go in the centre car and singles either side.

It will be interesting to see what the arrangement is, when it is disclosed.

Is there the possibility, that some of the mathematics for the Intercity Tri-Mode Battery Train has indicated that a combination of generator units and battery packs can give the required 125 mph performance?

Battery packs could need less space than diesel generators.
Regenerative braking could be used to charge the batteries.
How far would the train be able to travel without electrification?
Trains would not run the diesel engines in the station.
Could the fuel and carbon savings of 20 %, that are promised for the Intercity Tri-Mode Battery Train, be realised?

There may be a train buried in the mathematics, that with some discontinuous electrification could handle the East Midlands Railway Intercity services, that generates only a small amount of carbon!

Would A Mix Of Diesel Generators And Battery Packs Enable 125 mph Running?

Consider.

The trial Intercity Tri-Mode Battery Train intended for the London Paddington and Penzance route, will probably have two diesel generators and a battery pack according to what Hitachi have said in their infographic for the Intercity Tri-Mode Battery Train.
East of Plymouth some of the stretches of the route are challenging, which resulted in the development and ordering of Class 802 trains, that are more powerful, than the Class 800 trains used on easier routes.
An Intercity Tri-Mode Battery Train with two diesel generators and a battery pack, needs to be as powerful as a Class 802 train with three diesel generators.
So effectively does that mean that in the right installation with top class controlling software, that in fast running, a battery pack can be considered equivalent to a diesel generator?

I don’t know, but if it’s possible, it does bring other advantages.

Fuel and carbon savings of 20 %
No diesel running in stations or whilst accelerating away.
Better passenger environment.

Configurations of 3-plus-1 and 2-plus 2 might be possible.

December 27, 2020 Posted by AnonW | Transport/Travel | Class 802 Train, Class 810 Train, Diesel/Electric/Battery Hybrid Trains, Discontinuous Electrification, East Midlands Railway, Hitachi Intercity Tri-Mode Battery Train, Hitachi Regional Battery Train, Midland Main Line | 5 Comments

Is The Eastern Leg Of High Speed Two Under Threat?

This page on the High Speed Two web site is entitled HS2 Phase 2b Eastern Leg.

These are the opening three paragraphs.

Earlier this year the government made clear in its response to the Oakervee Review its commitment to Phase 2b of HS2, ensuring we boost capacity, improve connectivity between our regions and share prosperity.

As part of this, the government plans to present an Integrated Rail Plan for the North and Midlands by the end of the year, informed by an assessment from the National Infrastructure Commission, which will look at how to deliver HS2 Phase 2b, Northern Powerhouse Rail, Midlands Rail Hub and other rail programmes better and more effectively.

In the meantime, the government has asked HS2 Ltd to pause work on the Eastern Leg. We recognise that this causes uncertainty and our Eastern Leg community engagement teams remain in place to support you.

The page then says that the work on the Western Leg should proceed, with the aim of a Western Leg Bill in early 2022.

In Northern Powerhouse Rail – Significant Upgrades Of The East Coast Main Line From Leeds To Newcastle (Via York And Darlington) And Restoration Of The Leamside Line, I showed that the current and future upgrades to the East Coast Main Line, required by the East Coast Main Line, Northern Powerhouse Rail and High Speed Two, will greatly reduce the times on services from London Kings Cross to Doncaster, Yorkshire, the North East and Scotland.

I said this on timings on the East Coast Main Line.

London Kings Cross and Doncaster could be around an hour.
London Kings Cross and Leeds could be around one hour and thirty minutes, using the current Doncaster and Leeds time, as against the one hour and twenty-one minutes for High Speed Two.
London Kings Cross and York could be around one hour and twenty-three minutes, using the current Doncaster and York time, as against the one hour and twenty-four minutes for High Speed Two.
Timings between York and Newcastle would be the same fifty-two minutes as High Speed Two, as the track will be the limitation for both services.
High Speed Two’s timing for York and Newcastle is given as fifty-two minutes, with York and Darlington as twenty-five minutes.
London Kings Cross and Darlington could be around one hour and forty-nine minutes
London Kings Cross and Newcastle could be around two hours and sixteen minutes.
London Kings Cross and Edinburgh would be under three-and-a-half hours, as against the proposed three hours and forty-eight minutes for High Speed Two.

LNER’s Azuma cavalry will hold the fort for as long as is needed.

I’ll now look at how various stations, will be affected if the Eastern Leg of High Speed Two is not built, until a couple of decades in the future.

Leeds

Current Long Distance Services At Leeds Station

Leeds station has the following long distance services in trains per hour (tph)

CrossCountry – 1
LNER – 2
TransPennine Express – 5

It is a bit thin compared to say Birmingham or Manchester.

Northern Powerhouse Rail And Leeds

Northern Powerhouse Rail has plans for Leeds with these services to other Northern cities.

Hull – two tph in 38 minutes
Manchester – six tph in 25 minutes
Newcastle – four tph in 58 minutes
Sheffield – four tph in 28 minutes.

From what they have written, the following could also be possible.

Bradford – six tph in a few minutes
Liverpool – four or more tph in 51 minutes
Manchester Airport – four or more tph in 35 minutes

It is an ambitious plan.

High Speed Two And Leeds

High Speed Two is planning to run the following trains to Leeds in every hour.

Birmingham Curzon Street and Leeds – 200 metre train
Birmingham Curzon Street and Leeds via East Midlands Hub – 200 metre train
London Euston and Leeds via Old Oak Common and East Midlands Hub – 200 metre train
London Euston and Leeds via Old Oak Common and East Midlands Hub – 400 metre train
London Euston and Leeds via Old Oak Common, Birmingham Interchange and East Midlands Hub – 400 metre train

Timings will be as follows.

Birmingham Curzon Street and Leeds – 49 minutes.
London Euston and Leeds – One hour and 21 minutes.

There will be about 1000 seats per hour between Birmingham Curzon Street and Leeds and 2500 seats per hour Between London Euston and Leeds.

High Speed Two And Leeds Via Manchester

This report on the Transport for the North web site, is entitled At A Glance – Northern Powerhouse Rail.

This map shows Transport for the North’s ideas for connections in the West linking Crewe, Liverpool, Manchester, Manchester Airport, Warrington and Wigan.

A black line goes East from Manchester to link it to Leeds via Huddersfield and Bradford.

This is proposed as a route shared between High Speed Two and Northern Powerhouse Rail.
High Speed Two are promising that London Euston and Manchester will be timed at one hour and eleven minutes.
London Euston and Manchester will have a frequency of three tph and will all be 400 metre High Speed Two Full Size trains, with about a thousand seats.
Northern Powerhouse Rail have an objective of a twenty-five minute journey time between Manchester and Leeds.

I would also build the Manchester and Leeds route with the following characteristics.

As a full-size tunnel capable of taking High Speed Two Full Size trains and the largest freight trains.
Intermediate and underground stations at Huddersfield and Bradford.
It could be built as a base tunnel, like the similarly-sized Gotthard base tunnel in Switzerland.
The Swiss tunnel has a maximum operating speed for passenger trains of 125 mph.

If it can be built for a reasonable cost and in a reasonable time-scale, it could be a way of doing the following.

Creating a straight 150 mph plus route across the Pennines, with a capacity of 18 tph.
Running high-capacity fast trains between London Euston and Leeds via Manchester Airport and Manchester.
Running freight trains between the two sides of the Pennines.
Creating a high frequency route between Liverpool and Hull via Manchester Airport, Manchester, Huddersfield and Bradford and Leeds.

The passenger service between Liverpool and Hull could be the world’s first high speed metro.

If the London Euston and Manchester trains, were to be extended to Leeds, London Euston and Leeds would take one hour and thirty-six minutes, which would only be fifteen minutes slower, than is promised for the route going via the Eastern Leg of High Speed Two.

London Kings Cross And Leeds

When the in-cab digital signalling is complete between London Kings Cross and Leeds, I am fairly confident that with a few other improvements and more zoom from the Azumas, that a London Kings Cross and Leeds time of one hour and fifty minutes will be possible.

But will two nine-car or pairs of five-car trains per hour (tph), be enough capacity? Especially, as pairs of five-car trains will split and join to serve a wider catchment area, which will harvest more passengers.

LNER will in a couple of years have an extra path every hour into Kings Cross.

I would feel that best use of this path would be to run between London Kings Cross and Edinburgh via Leeds and Newcastle.

Leeds and Newcastle could be the only intermediate stops.
Leeds would be the ideal place to change to Northern Powerhouse Rail for anywhere in the North of England.
My estimates, say it could run between London Kings Cross and Edinburgh in around three-and-a-half hours.
It would run non-stop between London Kings Cross and Leeds, Leeds and Newcastle and Newcastle and Edinburgh.

It would increase capacity, between the four major destinations on the route; London Kings Cross, Leeds, Newcastle and Edinburgh.

It could start running, once the digital signalling and current improvements to the East Coast Main Line are complete.

London St. Pancras And Leeds

I discussed, Northern Powerhouse Rail’s plan for Sheffield and Leeds in Northern Powerhouse Rail – Connecting Sheffield To HS2 And On To Leeds.

This could see the following new infrastructure.

Electrification between Clay Cross North Junction and Sheffield station of the route shared by the Midland Main Line and High Speed Two.
Electrification through Sheffield and on to Leeds, via the Wakefield Line
New stations for High Speed trains at Rotherham and Barnsley Dearne Valley.

I could see East Midlands Railway taking advantage of this route, with their new Class 810 trains and running a regular Leeds and St. Pancras service.

It would call at Wakefield Westgate, Barnsley Dearne Valley, Rotherham and Meadowhall. between Leeds and Sheffield stations.
It would take twenty-eight minutes between Leeds and Sheffield, if it met Northern Powerhouse Rail’s objective.
Perhaps one of the two tph between London St. Pancras and Sheffield could be extended to Leeds.

As the current time between London St. Pancras and Sheffield, is a few minutes under two hours, I can see a time of comfortably under two-and-a-half hours between London St. Pancras and Leeds.

A Summary Of Journey Times Between London And Leeds

I can summarise my estimates, between London and Leeds.

High Speed Two – Direct via Eastern Leg – One hour and twenty-one minutes.
High Speed Two – via Manchester – One hour and thirty-six minutes.
East Coast Main Line – via Doncaster – One hour and thirty minutes.
Midland Main Line – via Derby and Sheffield – Two hours and twenty minutes.

The direct High Speed Two route is the fastest., but others could be viable alternatives for some passengers.

Bradford

Consider.

Under current plans Bradford won’t be getting any high speed service from High Speed Two.
The best it can get under current plans is several direct services per day, between Bradford Forster Square and London Kings Cross in perhaps two hours.
The layout of the city and its two stations doesn’t give good connectivity.

Bradford, Harrogate, Huddersfield and Skipton could probably be served by trains to and from London Kings Cross that join and split at Leeds.

But if Northern Powerhouse Rail goes for a tunnel between Manchester and Leeds with Bradford as an underground station, it could be served by High Speed Two services going between London Euston and Leeds via Manchester.

I would estimate that if London Euston and Leeds via Manchester took around one hour and thirty-six minutes, London Euston and Bradford could take around an hour-and-a-half.

Darlington

I can summarise my estimates, between London and Darlington.

High Speed Two – Direct via Eastern Leg – One hour and forty-nine minutes.
High Speed Two – via Manchester and Leeds – Two hours and six minutes.
East Coast Main Line – via Doncaster – One hour and forty-nine minutes.

Improvements on the East Coast Main Line, needed to enable and speed-up High Speed Two services to York, Darlington and Newcastle; will speed up East Coast Main Line services to Darlington.

Edinburgh

I can summarise my estimates, between London and Edinburgh.

High Speed Two – Direct via Western Leg – Three hours and forty minutes.
High Speed Two – via Manchester and Leeds – Three hours and forty-eight minutes.
East Coast Main Line – via Doncaster – Three hours and thirty minutes.

Improvements on the East Coast Main Line, needed to enable and speed-up High Speed Two services to York, Darlington and Newcastle; will speed up East Coast Main Line services to Newcastle.

Harrogate

Consider.

Under current plans Harrogate won’t be getting any high speed service from High Speed Two.
The best it can get under current plans is several direct services per day, between Harrogate and London Kings Cross in perhaps two hours.

Bradford, Harrogate, Huddersfield and Skipton could possibly be served by trains to and from London Kings Cross that join and split at Leeds.

Huddersfield

If Huddersfield is served by underground platforms beneath the current Huddersfield station, a lot of what I said for Bradford would apply to Huddersfield.
The timings would probably be around an-hour-and-a-half from London Euston.

Bradford, Harrogate, Huddersfield and Skipton could possibly be served by trains to and from London Kings Cross that join and split at Leeds.

Hull

Hull is an interesting destination.

Reaching Hull from the current High Speed Two network will need a change at Leeds or another station.
Using Northern Powerhouse Rail’s objectives on timings, London Euston and Hull via Manchester on High Speed Two, would be a few minutes under two-and-a-half hours.
I strongly feel, that London Kings Cross and Hull via Selby could be reduced to below two hours.

Hull would also make a superb Eastern terminal station for both Northern Powerhouse Rail and a High Speed Two service from London via Manchester and Leeds.

You pays your money and takes your choice.

Middlesbrough

Reaching Middlesbrough from the proposed High Speed Two network will need a change at York or another station.

But a time of two hours and twenty minutes, should be possible using the East Coast Main Line via Doncaster.

Improvements on the East Coast Main Line, needed to enable and speed-up High Speed Two services to York, Darlington and Newcastle, will speed up East Coast Main Line services to Middlesbrough.

Newcastle

I can summarise my estimates, between London and Newcastle.

High Speed Two – Direct via Eastern Leg – Two hours and seventeen minutes.
High Speed Two – via Manchester and Leeds – Two hours and thirty-four minutes.
East Coast Main Line – via Doncaster – Two hours and sixteen minutes.

Improvements on the East Coast Main Line, needed to enable and speed-up High Speed Two services to York, Darlington and Newcastle; will speed up East Coast Main Line services to Newcastle.

Nottingham

I will compare average speeds on the Midland Main Line between London St. Pancras and Nottingham and on the East Coast Main Line, between London Kings Cross and Leeds.

Currently.

London St. Pancras and Nottingham services, over the 126 mile route, take one hour and fifty minutes. which is an average speed of 69 mph.
London Kings Cross and Leeds services, over the 186 mile route, take two hours and thirteen minutes, which is an average speed of 94 mph.

Note.

The two routes are of similar character and are fairly straight with large sections of 125 mph running and quadruple tracks.
The East Coast Main Line to Leeds is fully electrified, whereas the Midland Main Line is only partially electrified.
Both routes have a small number of stops.
In a few years time, services on both routes will be run by different members of the Hitachi AT-300 train family.

I don’t feel it would be unreasonable to assume that a London St. Pancras and Nottingham service could be run at an average speed of 94 mph, if the Midland Main Line were upgraded to the same standard as the East Coast Main Line.

This could mean a time of around one hour and twenty-one minutes between London St. Pancras and Nottingham, or a saving of twenty-nine minutes.

Is that possible?

The new Class 810 trains, will have four engines instead of the normal three for a five-car AT-300 train. Will they be able to be closer to the 125 mph line-speed on diesel power, where it is available on the Midland Main Line.
The trains will be able to use electrification between London St. Pancras and Market Harborough.
There have been hints, that more electrification may be installed on the Midland Main Line.
Hitachi have announced a battery electric version of the AT-300 train called an Intercity Tri-Mode Battery Train, where one or more of the diesel engines are replaced by battery packs.
The new trains will be ready to accept in-cab ERTMS digital signalling, so they could be able to run at up to 140 mph, if the track were to be upgraded.

I certainly feel, that substantial time savings could be possible between London St. Pancras and Nottingham.

Eighty-one minutes would be very convenient, as it would comfortably allow a three hour round trip, which would mean just six trains or more likely pairs of trains would be needed for the current two tph service.

Eighty-one minutes would not be the fifty-two minute service promised by High Speed Two!

But!

The new trains are planned to be introduced from 2023.
Who knows, when High Speed Two will arrive at the East Midlands Hub station?
They won’t need any new substantial infrastructure to replace the current trains.

I also suspect the new trains will have more seats, but, the capacity of the Class 810 train, has not been published.

Nottingham could also be served by a high speed service from London Kings Cross via Grantham, which I estimate would take about one hour and twenty minutes.

Sheffield

A lot of what I said for Nottingham can be applied to Sheffield.

Currently, London St. Pancras and Sheffield services, over the 165 mile route, take two hours, which is an average speed of 82.5 mph.
High Speed Two is promising a journey time of one hour and twenty-seven minutes.
An average speed of 90 mph, would mean a journey time of one hour and fifty minutes.
This would allow a four hour round trip, which would mean just eight trains or more likely pairs of trains would be needed for the current two tph service.

It would be very convenient for the operator.

It looks like if pairs of trains were to be run on both the Nottingham and Sheffield routes, that twenty-eight trains would be needed to run both services.

This fits well with a fleet size of thirty-three trains.

The only caveat, is that to get the required journey times, it might be necessary to rebuild and electrify the tracks, between Sheffield and Clay Cross North Junction.

These tracks will be shared with the future Sheffield Branch of High Speed Two.
It would only be 15.5 miles of double-track to rebuild and electrify.
It could be rebuilt to allow 140 mph running. Several minutes could be saved!

The electrification could allow Hitachi’s Intercity Tri-Mode Battery trains to be able to run the Sheffield service.

These trains would certainly be a way of avoiding the tricky electrification of the Derby and Clay Cross section of the route, which goes through the World Heritage Site of the Derwent Valley Mills.

Sheffield could also be served by a high speed service from London Kings Cross via Doncaster, which I estimate would take about one hour and thirty minutes.

Skipton

Consider.

Under current plans Skipton won’t be getting any high speed service from High Speed Two.
The best it can get under current plans is several direct services per day, between Skipton and London Kings Cross in perhaps two hours.

Bradford, Harrogate, Huddersfield and Skipton could possibly be served by trains to and from London Kings Cross that join and split at Leeds.

Sunderland

Reaching Sunderland from the proposed High Speed Two network will need a change at York or another station.

But a time of two hours and thirty minutes, should be possible using the East Coast Main Line via Doncaster.

Improvements on the East Coast Main Line, needed to enable and speed-up High Speed Two services to York, Darlington and Newcastle, will speed up East Coast Main Line services to Sunderland.

York

I can summarise my estimates, between London and York.

High Speed Two – Direct via Eastern Leg – One hour and twenty-four minutes.
High Speed Two – via Manchester and Leeds – One hour and forty-two minutes.
East Coast Main Line – via Doncaster – One hour and twenty-four minutes.

Improvements on the East Coast Main Line, needed to enable and speed-up High Speed Two services to York, Darlington and Newcastle; will speed up East Coast Main Line services to York.

I believe strongly, that York would be about as fast from London, by either of the direct routes, but both would serve different intermediate destinations.

Conclusion

My first conclusion is a surprising one, but the promised timings from High Speed Two and the current timings in the timetable make it clear.

To achieve the required timings for High Speed Two, major improvements must be made to existing track and these improvements will mean that existing services will be competitive with High Speed Two on time.

These improvements fall into this category.

Improving the East Coast Main Line between York and Newcastle, will make East Coast Main Line services to York, Darlington, Durham and Newcastle competitive with High Speed Two services.
Improving the East Coast Main Line between York and Newcastle, may also mean that London Kings Cross and Edinburgh will be faster than the High Speed Two service between London Euston and Edinburgh.
Electrifying the route shared between Sheffield and Clay Cross North Junction, will speed up London St. Pancras and Sheffield services and make them more competitive with High Speed Two.

I suspect there may be similar mutual improvements on the Western leg of High Speed Two.

Other smaller conclusions from my analysis of the improvements include.

These improvements will create some extra capacity on the East Coast and Midland Main Lines, by removing bottlenecks and improving line speeds.
Electrification, even if it is only partial or discontinuous, will improve services on the Midland Main Line.
Some places like Harrogate, Middlesbrough and Skipton will never be served directly by High Speed Two, but are easily served by East Coast Main Line services from London Kings Cross.
Northern Powerhouse Rail is very much part of the North-South capacity for England.
In-cab ERTMS signalling will play a large part in increasing capacity and line speeds.

Perhaps in our planning of High Speed Two, we should plan all the routes in the North and Midlands in a much more holistic way.

If we look at the capacity between London and the North, I feel that with the addition of Phase 1 of High Speed Two to Birmingham in 2029-2033 and hopefully Phase 2a soon afterwards, that Phase 2b will not be needed for reasons of speed and capacity until years later.

So, I would pause most construction of the Eastern Leg of High Speed Two until Phase 1 and Phase 2a are complete.

I would make exceptions for the following.

Improvements to the shared section of the East Coast Main Line and High Speed Two, between York and Newcastle.
Building a high speed connection between Leeds and York for the use of Northern Powerhouse Rail and the East Coast Main Line.
Rebuilding and electrification of the shared section of the Midland Main Line and High Speed Two, between Clay Cross North Junction and Sheffield.
Improve and electrify the route between Sheffield and Leeds.

But I would continue with the design, as I feel that East of Leeds is very much sub-optimal at the present time.

The route of the Eastern leg of High Speed Two would be safeguarded.

But the biggest problem with the Eastern Leg of High Speed Two to Leeds, is that however it is built travellers to and from Leeds, York and further North will not see any improvements for some years, but improving the East Coast Main Line wouldn’t exactly see jam tomorrow, but tons of it by 2024.

December 7, 2020 Posted by AnonW | Transport/Travel | At A Glance – Northern Powerhouse Rail, Azuma Train, Barnsley Dearne Valley Station, Class 810 Train, East Coast Main Line, East Midlands Hub Station, East Midlands Railway, Euston Station, High Speed Two, Hitachi Intercity Tri-Mode Battery Train, Hitachi Regional Battery Train, HS3/Northern Powerhouse Rail, King's Cross Station, Leeds Station, Midland Main Line, Newcastle Station, Sheffield Station, St. Pancras Station, Trains, Wakefield Line | 2 Comments

Northern Powerhouse Rail – Connecting Sheffield To HS2 And On To Leeds

In this article on Transport for the North, which is entitled Northern Powerhouse Rail Progress As Recommendations Made To Government, one of the recommendations proposed for Northern Powerhouse Rail is connecting Sheffield to High Speed Two and on to Leeds.

Northern Powerhouse Rail’s Objective For The Sheffield and Leeds Route

Wikipedia, other sources and my calculations say this about the trains between Leeds and Sheffield.

The distance between the two stations is 39 miles
The current service takes around 40 minutes and has a frequency of one train per hour (tph)
This gives an average speed of 58.5 mph for the fastest journey.
The proposed service with Northern Powerhouse Rail will take 28 minutes and have a frequency of four tph.
This gives an average speed of 84 mph for the journey.

This last figure of 84 mph, indicates to me that a fast route will be needed.

But given experience of 100 mph lines in other parts of the UK, 100 mph trains and infrastructure could make this demanding objective of twenty-eight minutes between Sheffield and Leeds a reality

Connecting Sheffield To High Speed Two

Sheffield is to be accessed from a branch off the Main High Speed Two route to Leeds.

This map clipped from High Speed Two’s interactive map, shows the route of the Sheffield Branch, from where it branches North West from the main Eastern Leg of High Speed Two.

Note.

Orange indicates new High Speed Two track.
Blue indicates track that High Speed Two will share with other services.
The orange route goes North to Leeds, along the M1
The blue route goes North to Chesterfield and Sheffield, after skirting to the East of Clay Cross.
The orange route goes South to East Midlands Hub station.

This second map, shows where the Erewash Valley Line joins the Sheffield Branch near the village of Stonebroom.

Note.

Red is an embankment.
Yellow is a cutting.
The Sheffield Branch goes North-West to Clay Cross, Chesterfield and Sheffield
The Sheffield Branch goes South-East to East Midlands Hub station.
The Sheffield Branch goes through Doe Hill Country Park.
The Sheffield Branch runs alongside the existing Erewash Valley Line, which goes South to Langley Mill, Ilkeston and the Derby-Nottingham area.

The Sheffield Branch and the Erewash Valley Line appear to share a route, which continues round Clay Cross and is shown in this third map.

Note

Doe Hill Country Park is in the South-East corner of the map.
The dark line running North-South is the A61.
Running to the West of the A61 is the Midland Main Line, which currently joins the Erewash Valley Line at Clay Cross North junction.

High Speed Two and the Midland Main Line will share a route and/or tracks from Clay Cross North junction to Sheffield.

This fourth map, shows where the combined route joins the Hope Valley Line to Manchester to the South West of Sheffield.

Note.

Sheffield is to the North East.
Chesterfield is to the South East,
Totley junction is a large triangular junction, that connects to the Hope Valley Line.

These are some timings for various sections of the route.

Clay Cross North Junction and Chesterfield (current) – 4 minutes
Clay Cross North Junction and Sheffield (current) – 17 minutes
Chesterfield and Sheffield (current) – 13 minutes
Chesterfield and Sheffield (High Speed Two) – 13 minutes
East Midlands Hub and Chesterfield (High Speed Two) – 16 minutes
East Midlands Hub and Sheffield (High Speed Two) – 27 minutes

As Class Cross North Junction and Sheffield are 15.5 miles, this means the section is run at an average speed of 53 mph.

Can I draw any conclusions from the maps and timings?

There would appear to be similar current and High Speed Two timings between Chesterfield and Sheffield.
The various junctions appear to be built for speed.

The Midland Main Line will be electrified from Clay Cross North Junction to Sheffield, so that High Speed Two trains can use the route.

What will be the characteristics of the tracks between Clay Cross North Junction and Sheffield?

Will it be just two tracks as it mainly is now or will it be a multi-track railway to separate the freight trains from the high speed trains?
Will it have a high enough maximum speed, so that East Midland Railway’s new Class 810 trains can go at their maximum speed of 140 mph?
Will it be capable of handling a frequency of 18 tph, which is the maximum frequency of High Speed Two?

Surely, it will be built to a full High Speed Two standard to future-proof the line.

Before finishing this section, I will answer a few questions.

Would It Be Possible For Class 810 Trains Fitted With Batteries To Run Between London St. Pancras And Sheffield?

East Midlands Railway’s new Class 810 trains could be fitted with batteries to become Regional Battery Trains with the specification, given in this Hitachi infographic.

Note.

This would give the trains a range of 90 kilometres or 56 miles on batteries, if a number of diesel engines were exchanged for batteries.
The trains would only be a few mph slower on batteries, than the current Hitachi trains on diesel.
The Class 810 trains have four diesel engines. Is this to enable 125 mph running on diesel?

By perhaps replacing two diesel engines with batteries and using the remaining two diesel engines as range extenders or some other combination, I feel that Hitachi might be able to obtain a longer self-powered range for the train.

Consider.

Between Sheffield and Clay Cross North Junction will be fully-electrified and at 15.5 miles, it will be long enough to fully-charge the batteries on the train.
Between London St. Pancras and Market Harborough will be fully-electrified and at 83 miles, it will be long enough to fully-charge the batteries on the train.
The section between Market Harborough and Clay Cross North Junction is not electrified and is 66 miles.

I feel that Hitachi and their partner; Hyperdrive Innovation can design a battery electric Class 810 train, that can travel between London St. Pancras and Sheffield, without using a drop of diesel.

A great advantage of this approach, is that, as more electrification is added to the Midland Main Line, as it surely will be, the trains will be able to use the wires to reduce journey times.

I believe there are two sections on the Midland Main Line. where traditional electrification is less likely.

The bridge at the Southern end of Leicester station is low and would need to be rebuilt causing immense disruption to both road and rail in the city.
Between Derby and Alfreton is the World Heritage Site of the Derwent Valley Mills. Will electrification be fought by the heritage lobby?

Both sections may eventually be electrified at some far off date in the future.

Why Is There A Spur Of Electrification At Totley Junction?

This map clipped from High Speed Two’s interactive map, shows the Southern Leg of Totley Junction, where the Hope Valley Line joins the Midland Main Line.

Note that a short length of electrification is shown, between the Midland Main Line and a tunnel on the Southern leg.

This Google Map shows the same area.

Note, that the line disappears into a tunnel.

In Northern Powerhouse Rail -Significant Upgrades And Journey Time Improvements To The Hope Valley Route Between Manchester And Sheffield, I indicated, that running battery electric trains between Manchester and Sheffield would be a possibility and could be a way of meeting Northern Powerhouse Rail’s objectives for the route.
A short length of electrification might help battery electric trains turn out to go South.
I don’t think any passenger trains ever go that way now, but I have seen articles and heard complaints from passengers, that want a better service between Derby and/or Nottingham and Manchester.
It might also help with the decarbonisation of freight trains to and from the quarries.

I also suspect, that if building High Speed Two in Manchester temporarily reduced the capacity of Manchester Piccadilly station, trains could use the Hope Valley Line to get to the city, as they have done previously, with Project Rio.

Accessing The Infrastructure Depot At Staveley

This map clipped from High Speed Two’s interactive map, shows the location of the infrastructure depot at Staveley.

Note.

Chesterfield is shown by the large blue dot.
High Speed Two’s Sheffield Branch runs North from Chesterfield station.
High Speed Two’s Eastern Leg runs down the Eastern side of the map.
Two spurs from East and West go towards each other and would meet to the North of the town of Staveley.

The infrastructure depot will be located where they meet.

The route from the Sheffield Branch uses the Barrow Hill Line, which might be reopened as another passenger route between Chesterfield and Sheffield.

I wrote about this idea in Reinstatement Of The Barrow Hill Line Between Sheffield And Chesterfield.

If the line is being upgraded and electrified as far as Barrow Hill for the Infrastructure Depot, would it be worthwhile to create a new electrified route into Sheffield?

I also wrote in Could East Midlands Railway’s Liverpool And Norwich Service Avoid A Reverse At Sheffield By Using the Barrow Hill Line?, that the Barrow Hill Line might be an alternative route for the Liverpool and Norwich service.

When the railway routes in the area of the Infrastructure Depot are developed, I wouldn’t be surprised to see some routes changed.

Between Sheffield And Meadowhall Stations

One of the original designs for High Speed Two had it calling at Meadowhall station.

This map clipped from High Speed Two’s interactive map, clearly shows High Speed Two running across Sheffield.

Note.

Sheffield station is the big Blue dot in the South-West corner of the map.
The M1 runs across the North-East corner of the map.
The railway between Sheffield and Meadowhall stations already exists.
Sheffield and Meadowhall stations are 3.5 miles apart and trains take seven minutes.

Is there any reason, why High Speed Two trains shouldn’t serve both Sheffield and Meadowhall stations, by just taking the existing line across the city?

Taking The Wakefield Line Towards Leeds

In extending to Meadowhall, High Speed Two’s route seems to be taking the current Wakefield Line.

This map clipped from High Speed Two’s interactive map, clearly shows High Speed Two passing through Sheffield and Rotherham and then going towards Leeds.

Note.

Orange indicates new High Speed Two track.
Blue indicates track that High Speed Two shares with other lines.
The Wakefield Line is shown in blue and has stations at Meadowhall, Swinton, Bolton-upon-Dearne, Goldthorpe and Thurscoe.
The main High Speed Two leg to Leeds is shown in orange.

It looks to me, that High Speed Two are aiming to provide a route, so that trains going to Sheffield can extend the journey to Leeds.

As Leeds will have three tph to and from London, why is this service being extended to Leeds?

I will explore a few reasons why in the next few sub-sections.

It’s Convenient For Running Trains

Consider.

High Speed Two are saying London and Sheffield will be one hour and twenty-seven minutes.
Northern Powerhouse Rail have an objective of Leeds and Sheffield in twenty-eight minutes.
One hour and fifty-five minutes could be a convenient time for a London and Leeds service, as it could be a four hour round trip.

But High Speed Two are saying London and Leeds will be one hour and twenty-one minutes.

It looks to me, that it is a convenient way to serve Meadowhall, Rotherham, Bolton-upon-Dearne, Goldthorpe and Thurscoe stations

High Speed Two Through Rotherham

This map clipped from High Speed Two’s interactive map, clearly shows High Speed Two passing through Rotherham to the North of the Parkgate Shopping Park.

Note.

High Speed Two is the bright blue line running North-East from the Western edge of the map.
The grey blocks are the stores in the Shopping Park.
The Rotherham Parkgate tram-train stop is marked.

This Google Map shows a similar area.

To the East of the Parkgate Shopping Park, is a large brownfield site, as this Google Map shows.

Could Rotherham have a station on the line North of this site?

The rail line running SW-NE across this map is drawn in blue on High Speed Two’s interactive map.
Rotherham Masborough station used to be in this area.

If High Speed Two is supposed to be a railway for all the people, or at least as many as possible, surely there should be a station in the town.

High Speed Two Through Bolton-upon-Dearne

In July 2019, I wrote a post called Sheffield Region Transport Plan 2019 – A New Station At Barnsley Dearne Valley.

So have High Speed Two taken on this feature of the Sheffield Region Transport Plan 2019, to add another station to their list of destinations?

Approach To Leeds

This map clipped from High Speed Two’s interactive map, clearly shows route High Speed Two will take to approach Leeds from the South East.

Note.

Leeds station is the blue dot in the North West corner of the map.
High Speed Two is shown in orange and continues North to York, where it joins the East Coast Main Line.
Wakefield is in the middle at the bottom of the map and is on the Wakefield Line and the current route for LNER’s expresses from London.

It looks to me, that Leeds and Sheffield will eventually end up with two faster routes between the two cities.

An upgraded Wakefield Line
A route based on the Southern section of the Wakefield Line and the Eastern leg of High Speed Two route to Leeds.

If High Speed Two’s trains are to be able to get across Sheffield and call at Sheffield, Meadowhall, Rotherham and Barnsley Dearne Valley stations, then these conditions must be met.

The trains must be High Speed Two’s Classic-Compatible trains or a train to a similar specification.
Some platform lengthening might be needed to allow the two hundred metre long trains to call.
The Wakefield Line must be electrified between Sheffield and just North of Goldthorpe station, where it will be able to join the link to the Eastern leg of High Speed Two.

It would probably be sensible to electrify the Wakefield Line all the way to Fitzwilliam station, from where the line is electrified all the way to Leeds.

This would enable the following.

Electric trains to run between Sheffield and Leeds via Wakefield Westgate station.
Would Northern Powerhouse Rail’s objective of a twenty-eight minute journey be achieved?
East Midlands Railway could run their Class 810 trains between London St. Pancras and Leeds under electric power.
High Speed Two could serve Leeds before the Northern infrastructure of the Eastern leg of High Speed Two is complete.
High Speed Two could offer services to Wakefield, Barnsley and Rotherham via Sheffield.

I can see reasons for early upgrading of the Wakefield Line.

Conclusion

It appears that High Speed Two are planning an electrified route through Sheffield between Clay Cross North Junction on the Midland Main Line and Goldthorpe station on the Wakefield Line.

Once complete it would enable the following.

Rotherham and Barnsley to have direct electric services to and from the capital.
When East Midlands Railway introduce their new Class 810 trains, the electrification North of Clay Cross North Junction would mean faster services and less running on diesel power.
I believe these Class 810 trains could run between London and Sheffield, if their four diesel engines are replaced with batteries, which would power the trains between Clay Cross North Junction and Market Harborough.
The electrification at Sheffield would allow battery electric trains to work between Manchester and Sheffield as I outlined in Northern Powerhouse Rail -Significant Upgrades And Journey Time Improvements To The Hope Valley Route Between Manchester And Sheffield.

I think it is a good plan.

Project Management Recommendations

It is my view that the following projects should be started as soon as possible.

Electrification between Clay Cross North Junction and Sheffield station.
Electrification of the Wakefield Line between Sheffield and Fitzwilliam stations.
Provision of new stations at Rotherham and Barnsley Dearne Valley on the Wakefield Line.

These projects could deliver worthwhile improvements in services in a couple of years, rather than the tens of years for High Speed Two.

November 24, 2020 Posted by AnonW | Transport/Travel | Barnsley Dearne Valley Station, Chesterfield Station, Class 810 Train, Clay Cross North Junction, Clay Cross North Junction And Sheffield Electrification, East Coast Main Line, East Midlands Hub Station, East Midlands Railway, Electrification, High Speed Two, High Speed Two Classic-Compatible Trains, Hope Valley Line, HS3/Northern Powerhouse Rail, Leeds Station, Meadowhall Station, Midland Main Line, Northern Powerhouse Rail Recommendations - November 2020, Rotherham, Rotherham Parkgate Tram Stop, Sheffield Region Transport Plan 2019, Sheffield Station, Wakefield Line, Wakefield Westgate Station | 3 Comments

Northern Powerhouse Rail – Significant Upgrades And Journey Time Improvements To The Hope Valley Route Between Manchester And Sheffield

In this article on Transport for the North, which is entitled Northern Powerhouse Rail Progress As Recommendations Made To Government, one of the recommendations proposed for Northern Powerhouse Rail is significant upgrades and journey time improvements to the Hope Valley Line between Manchester and Sheffield.

I shall look at a few of the possibilities for the route.

Northern Powerhouse Rail’s Objective For The Route

Wikipedia, other sources and my calculations say this about the trains between Manchester and Sheffield.

The distance between the two stations is 42.6 miles
The current service takes 49 to 57 minutes and has a frequency of two trains per hour (tph)
This gives an average speed of 52.2 mph for the fastest journey.
The proposed service with Northern Powerhouse Rail will take 40 minutes and have a frequency of four tph.
This gives an average speed of 63.9 mph for the journey.

This last figure of 63.9 mph, indicates to me that a 100 mph train will be able to meet Northern Powerhouse Rail’s objective.

Current Trains On The Hope Valley Line

In July this year, I went along the Hope Valley Line between Manchester Piccadilly and Dore and Totley stations, which I wrote about in Along The Hope Valley Line – 13th July 2020.

My train was a pair of refurbished Class 150 trains.

These trains can handled the current timetable but they have an operating speed of only 75 mph.

Looking at Real Time Trains for last week, it now appears that Northern are using new three-car Class 195 trains.

These are much better.

They are 100 mph trains with much better acceleration.
The train was still running the timetable for the slower trains.

With thirteen stops, I suspect that these new trains could be under fifty minutes between Manchester and Sheffield.

Will The Hope Valley Line Be Electrified?

Consider.

Currently, the Hope Valley Line is electrified between Manchester Piccadilly and Hazel Grove stations.
In the future, the line is likely to be electrified between Sheffield and Dore & Totley stations, in conjunction with rebuilding the Midland Main Line, to the North of Clay Cross North junction for High Speed Two.
After the electrification at the Eastern end, just over thirty miles will be without electrification.
The Hope Valley Line has an operating speed of 90 mph.

This Hitachi infographic shows the specification of the Hitachi Regional Battery train.

As these are a 100 mph train with a range of 90 km or 56 miles on battery power, these trains could work Manchester and Sheffield in the required time of forty minutes. provided they could be charged at the Sheffield end of the route.

TransPennine’s Class 802 trains can be fitted with batteries to become Regional Battery Trains, so it would appear that TransPennine’s services on this route could go zero-carbon.

In addition Northern, who are the other passenger operator on the route are working with CAF on battery electric trains, as I wrote about in Northern’s Battery Plans,

I don’t believe there are pressing reasons to electrify the Hope Valley Line to allow passenger trains to meet Northern Powerhouse Rail’s objective.

Will Operating Speed On The Hope Valley Line Be Increased?

Under Plans in the Wikipedia entry for the Hope Valley Line, this is said.

Network Rail, in partnership with South Yorkshire ITA, will redouble the track between Dore Station Junction and Dore West Junction, at an estimated cost of £15 million. This costing is based on four additional vehicles in traffic to deliver the option, however, this will depend on vehicle allocation through the DfT rolling stock plan. This work will be programmed, subject to funding, in conjunction with signalling renewals in the Dore/Totley Tunnel area.

Other proposals include a 3,600 feet (1,100 m) loop in the Bamford area, in order to fit in an all-day (07:00–19:00) hourly Manchester–Sheffield via New Mills Central stopping service, by extending an existing Manchester–New Mills Central service. Planning permission for this was granted in February 2018, but delays mean that this will now not be completed until 2023.

These changes to allow three fast trains, a stopping train and freight trains each hour were also supported in a Transport for the North investment report in 2019, together with “further interventions” for the Northern Powerhouse Rail programme.

It would also probably be a good idea, to increase the operating speed of the line to 100 mph where possible.

Effect On Passenger Services

100 mph trains on a track with an operating speed of 100 mph, could show some impressive timings.

On the Great Eastern Main Line, which is a very busy 100 mph double-track railway, 100 mph trains, achieve a 77 mph average for 90 minutes over the 115 miles, between London Liverpool Street and Norwich with a single stop.

A one-stop Manchester and Sheffield service at this speed would take just 33.2 minutes.

The stopping trains would be more of a challenge to get under forty minutes, but at least if they were battery electric trains, they’d have the better acceleration and deceleration of the electric trains.

Fifty minutes would be a realistic time.
Ten minutes turnround time at each end, would be ideal for charging the batteries and give an efficient two hour round trip.

Efficient timetabling could create a very comprehensive service for the Hope Valley Line.

Freight Trains On The Hope Valley Line

Under Freight in the Wikipedia entry for the Hope Valley Line, this is said.

Over a million tons of cement a year is taken away by rail from Earle’s Sidings at Hope.

That is a very large number of freight trains, all of which are currently hauled by diesel locomotives.

Looking at Real Time Trains, there are nearly always two freight trains in every hour of the day.
If you look at the routes, they go to a myriad number of destinations.
Following the routes between Dore Junction and the quarries to the South of the Hope Valley Line, there are several tunnels.
There are numerous quarries in a cluster, all served by their own rail lines.

Electrifying the delivery of the cement and limestone from the quarries would be a large and very expensive operation.

This Google Map shows Earle’s Sidings at Hope.

Perhaps a half-way house solution would be to use diesel to haul trains between the quarries and Earle’s sidings, where the locomotive is changed for an electric one?

But that would then mean that all routes from between the Peak District quarries and their destinations would need to be fully-electrified.
It should be noted that that the problem of zero-carbon trains, also exists at port and rail freight interchanges, where safe operation with 25 KVAC overhead wires everywhere can be a nightmare.
Rail freight companies are unlikely to change their old diesel locomotives for new expensive electric locomotives, until all possible routes are fully electrified.
It is also a big problem, all over the world.

Perhaps, what is needed is a self-powered zero-carbon locomotive with sufficient power to haul the heaviest trains?

I believe such a locomotive is possible and in The Mathematics Of A Hydrogen-Powered Freight Locomotive, I explored the feasibility of such a locomotive, which was based on a Stadler Class 68 locomotive.

The zero-carbon locomotive, that is eventually developed, may be very different to my proposal, but the commercial opportunities for such a locomotive are so large, that I’m sure the world’s best locomotive designers are working on developing powerful locomotives for all applications.

Conclusion

Northern Powerhouse Rail’s ambition for Manchester and Sheffield via the Hope Valley Line is simply stated as four tph in forty minutes. But this may be something like.

Three fast tph in forty minutes.
One stopping tph in perhaps fifty minutes.
One freight tph in each direction to and from the quarries that lie to the South of the line.

I didn’t realise how close that the line is to that objective, once the following is done.

Introduce 100 mph passenger trains on the route.
Improve the track as has been planned for some years.

Note that all the passenger trains, that now run the route; Class 185, 195 and 802 trains, are all 100 mph trains, although they are diesel-powered.

With a length of just under 43 miles, the route is also ideal for battery electric trains to work the passenger services, be the trains be from Hitachi, CAF or another manufacturer, after High Speed Two electrifies the Midland Main Line to the North of Clay Cross North Junction, in preparation for high speed services between London and Sheffield.

I would recommend, that one of High Speed Two’s first Northern projects, should be to upgrade the Midland Main Line between Clay Cross North junction and Sheffield station to the standard that will be required for High Speed Two.

I would also recommend, that the Government sponsor the development of a hydrogen electric locomotive with this specification.

Ability to use 25 KVAC overhead or 750 VDC electrification
110 mph operating speed on electrification.
Ability to use hydrogen.
100 mph operating speed on hydrogen.
200 mile range on hydrogen.

A locomotive with this specification would go a long way to decarbonise rail freight in the UK and would have a big worldwide market.

Project Management Recommendations

This project divides neatly into three.

Perform the upgrades at Dore Junction and add the loop in the Bamford area, as detailed in Wikipedia, which will increase the capacity of the Hope Valley Line.
Electrify the Midland Main Line between Clay Cross North junction and Sheffield, as will be needed for High Speed Two. This electrification will allow battery electric trains to run between Manchester and Sheffield and between Sheffield and London.
Procurement of the trains. CAF and Hitachi are currently finalising suitable designs for this type of operation.

It would also be helpful, if the freight trains could be hauled by zero-carbon hydrogen electric locomotives, to create a much-improved zero-carbon route between Manchester and Sheffield.

November 23, 2020 Posted by AnonW | Hydrogen, Transport/Travel | Battery-Electric Trains, Class 195 Train, Class 802 Train, Clay Cross North Junction, Clay Cross North Junction And Sheffield Electrification, Dore and Totley Station, Electrification, Hazel Grove Station, High Speed Two, Hitachi Regional Battery Train, Hope Valley Line, HS3/Northern Powerhouse Rail, Hydrogen-Powered Locomotives, Manchester Piccadilly Station, Midland Main Line, Northern Powerhouse Rail Recommendations - November 2020, Sheffield Station | 6 Comments

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.

The range on battery power is 90 km or 56 miles at up to 100 mph.
Class 810 trains could be converted to battery electric trains by replacing the diesel engines with batteries.
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.

The only extra electrification needed for the initial network would be between Kettering and Market Harborough.
The Class 810 trains would all be identical.
The Class 810 trains might even be built and delivered as battery electric trains
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 AnonW | Transport/Travel | Bedford Station, Clay Cross North Junction And Sheffield Electrification, Corby Station, East Midlands Railway, Electrification, Hitachi, Kettering Station, Midland Main Line, Vivarail, Vivarail/GWR Fast Charge | 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.

The trains have a range of 56 miles on battery power.
The trains can cruise at 100 mph on battery power.
Hitachi have said that all of their AT-300 trains can be converted into Regional Battery Trains.
Trains are converted by removing the diesel engines and replacing them with battery packs.
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.

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.
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.
Chesterfield station is only three miles further, so if power changeover, needed to be in a station, it could be performed there.
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 AnonW | Transport/Travel | Battery-Electric Trains, Charging Battery Trains, Class 810 Train, Clay Cross North Junction, Clay Cross North Junction And Sheffield Electrification, Derby Station, Discontinuous Electrification, East Midlands Railway, Electrification, High Speed Two, Hitachi Regional Battery Train, Leicester Station, Market Harborough Station, Midland Main Line, Nottingham Station, Sheffield Station, World Heritage Site | 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 AnonW | Energy Storage, Transport/Travel | Beeching Reversal, Class 810 Train, Clay Cross North Junction, Clay Cross North Junction And Sheffield Electrification, Electrification, High Speed Two, Leicester Station, Melton Mowbray Station, Midland Main Line, Nottingham Station, Oakham Station | 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.

High Speed Two’s trains will probably be going through at the same speed as East Midlands Railway’s Class 810 trains.
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.
Both the High Speed Two and the East Midlands Railway trains will be running on electric power between Sheffield and Chesterfield stations.
It is likely that other services will use electric power on the Midland Main Line.
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.

Dore and Junction station is at the North of the Map.
Dore West Junction is in the South West corner of the map and leads to the Hope Valley Line.
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.

A bridge with lifts would be needed.
The current single platform at the station is around eighty metres long, but as I said in Beeching Reversal – Sheaf Valley Stations, the platforms must be long enough to take a pair of Class 185 trains or a five-car Class 802 train, which is probably around 140 metres.

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.

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 AnonW | Transport/Travel | Class 810 Train, Clay Cross North Junction And Sheffield Electrification, Dore and Totley Station, Electrification, High Speed Two, Hope Valley Line, Midland Main Line, Sheffield Station | 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.

The station has only one platform.
The single track in the platform handles all trains to and from the Hope Valley Line.
At present it appears to be two trains per hour (tph) in both directions.
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.

The building with the red dot is the former Beauchief Hotel. which was by the station.
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.

Wikipedia says the station was accessed from the Archer Road bridge, which is in the South East corner of the map.
It looks like there are three tracks with space for four.
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.

The red arrow indicates Heeley Bridge, which Wikipedia says is near the station site.
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.

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.

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.

High Speed Two will enable a new fast service between Sheffield and Leeds via Meadowhall and a new station in the Dearne Valley.
The Sheffield Region Transport Plan 2019 envisages a new station at Barnsley Dearne Valley. See Sheffield Region Transport Plan 2019 – A New Station At Barnsley Dearne Valley.
The Sheffield Region Transport Plan 2019 envisages tram-trains running between Sheffield and Doncaster-Sheffield Airport See Sheffield Region Transport Plan 2019 – Tram-Trains Between Sheffield And Doncaster-Sheffield Airport.
The Sheffield Region Transport Plan 2019 envisages a new Station at Waverley. See Sheffield Region Transport Plan 2019 – A New Tram-Train Route To A New station At Waverley.
High Speed Two might enable a fast classic-compatible service between Sheffield and Scarborough via York.
The possible opening of the South Yorkshire Joint Railway to passenger traffic, may open up further opportunities. See Beeching Reversal – South Yorkshire Joint Railway.
The possible reinstatement of the Barrow Hill Line. See Reinstatement Of The Barrow Hill Line Between Sheffield And Chesterfield.
The development of the Stocksbridge Railway for passenger services.

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.

I am assuming, that a battery electric train has a range of 56 miles on a single charge.
Rotherham Parkgate station is changed to a through station.
Tram-trains passing through Doncaster can recharge on the station’s 25 KVAC overhead electrification.
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.

The Nunnery Square Park and Ride is in the South West corner of the map.
The Supertram depot is to the East of the Park-and-Ride, with the Nunnery Square tram stop to the South.
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!

July 12, 2020 Posted by AnonW | Transport/Travel | Barnsley Dearne Valley Station, Beauchief Station, Beeching Reversal, Clay Cross North Junction And Sheffield Electrification, Dore and Totley Station, Heeley Station, High Speed Two, Manchester Piccadilly Station, Midland Main Line, Millhouses & Eccleshall Station, Sheaf Valley Stations, Sheffield, Sheffield Region Transport Plan 2019, Sheffield Station, Sheffield Supertram, Sheffield Tram-Train, Sheffield Waverley Station, South Yorkshire Joint Railway, Transport for the North | 3 Comments

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What this blog will eventually be about I do not know.

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The Anonymous Widower

Will Hitachi Announce A High Speed Metro Train?

Thoughts On Batteries In East Midland Railway’s Class 810 Trains

Is The Eastern Leg Of High Speed Two Under Threat?

Northern Powerhouse Rail – Connecting Sheffield To HS2 And On To Leeds

Northern Powerhouse Rail – Significant Upgrades And Journey Time Improvements To The Hope Valley Route Between Manchester And Sheffield

Testing Begins On Midland Main Line Electrification

Hopes Rekindled Of Full Midland Main Line Electrification

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

Dore And Totley Station – 13th July 2020

Beeching Reversal – Sheaf Valley Stations

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