New British Steel Rail Stocking Facility Will Boost Network Rail Supply Chain
The title of this post, is the same as that of this article on RailUK.
These four paragraphs outline the new facility and how it will work.
British Steel is building a new £10 million rail stocking facility, the biggest of its kind in the country.
The facility, at the company’s Scunthorpe site, is scheduled to be completed this summer and will stock around 25,000 tonnes of 108-metre finished rail.
The investment is part of our British Steel’s strategy to support the supply of 56E1 and 60E2 section rails for Network Rail, ensuring there is rail stock readily available for its supply chain.
Rails stocked in the new facility will all have undergone the stringent testing and quality assurance checks required to meet the specification to allow immediate dispatch or welding into 216-metre lengths to the customer.
With all the gloom in the steel industry, It’s good to see someone investing in new facilities.
Ten Spanish Companies Join Forces To Apply Hydrogen Propulsion To A High-Speed Train For The First Time
The title of this post, is the same as that of this press release from Talgo.
These are the three bullet points.
- The Hympulso project is part of the Strategic Projects for Economic Recovery and Transformation (PERTES)
- A new technical car with hydrogen and batteries to be developed for a Talgo 250 train, allowing it to run on clean energy on non-electrified lines.
- The main partners are Talgo, Golendus, Ingeteam, Repsol, Sener and Optimus3D.
These are the first four paragraphs.
Ten Spanish companies have joined forces to design, build and install, for the first time in the world, a propulsion system based on renewable hydrogen fuel cells on a high-speed train. Under the Hympulso project, the companies will develop a set of technologies that can be applied to the Talgo 250 ‘all-terrain’ train, making it possible to electrify the rail network with energy generated entirely from renewable sources, even on lines without overhead power lines.
Led by Talgo, Hympulso also includes Golendus, Ingeteam, Optimus3D, Repsol and Sener as partners. Universidad Pontificia Comillas and Tecnalia are collaborators, while Adif is an observer. The initiative has received a grant of €6.5 million and is part of the Incentive Programme for the Innovative Value Chain and Knowledge of Renewable Hydrogen, as part of the Recovery, Transformation and Resilience Plan.
Hympulso will be comprehensive in nature: it will activate the entire renewable hydrogen value chain in the railway system, from production to consumption. The project will also make it possible to analyse the impact of the future transition on the various railway infrastructure assets managed by Adif, such as maintenance facilities or the track.
Thus, the project will result in a joint output of hydrogen supply installations adapted to railways -both mobile and static- and a pioneering prototype of a hybrid bimodal train for passengers with automatic track-gauge change, which will be able to run both on conventional and high-speed networks, using catenary supply when available, or hydrogen and batteries in those corridors that are not electrified.
This picture shows a visualisation of the train.
Note.
- There is a power car containing the hydrogen fuel cells and other gubbins behind the one or both locomotives.
- Hydrogen power is used, where there is no electrification.
- Talgo already make a high speed train with a diesel power pack, so engineering would only involve developing a new hydrogen power pack.
My only questions are.
- Do the trains come without gauge-changing?
- Could they be run on a typical UK rail line?
- Do they speak, Cornish, Gaelic and Welsh?
If the answer to all questions is yes, then this must be the ideal train for these routes.
- London Euston and Aberystwyth
- London Euston and Holyhead
- London King’s Cross and Aberdeen.
- London King’s Cross and Cleethorpes/Grimsby
- London King’s Cross and Inverness.
- London King’s Cross and Thurso/Wick.
- London Paddington and Carmarthen
- London Paddington and Penzance
Note.
- No more electrification on these routes would be needed.
- The trains could use High Speed Two to wherever it goes.
- The trains could do 140 mph on the Great Western Main Line, East Coast Main Line and West Coast Main Line.
Hympulso looks a very comprehensive, professional and practical plan, that could easily be adapted to the UK mainland.
HyperTunnel Wins Government Backing For Revolutionary Underpass Tech
The title of this post, is the same as that of this article on Rail Technology Magazine.
This is the sub-heading.
Pioneering tunnel builders hyperTunnel have scored a major coup, securing UK government funding to showcase their revolutionary swarm construction technique at the Global Centre of Rail Excellence (GCRE) in South Wales.
These four paragraphs outline hyperTunnel and its demonstration project at the GCRE.
Their underpass project is one of just 16 cutting-edge schemes set to be unveiled at the GCRE’s Dulais Valley site this year. hyperTunnel’s brainchild, the swarm construction technique, harnesses the power of AI, digital surveying, and robot swarms to essentially 3D print tunnels directly in the ground, eliminating the need for messy excavation.
This futuristic approach it hopes will transform underground construction, whilst slashing costs and timeframes. It can also help contribute to waste reduction, risk prevention and help reduce a projects carbon footprint compared to the traditional cut-and-cover methods which are frequently used.
Their GCRE project will see them build a 20-metre pedestrian underpass beneath a test track, cleverly designed to keep the track operational throughout construction.
hyperTunnel’s overarching vision is to offer a financially viable alternative to perilous level crossings which it anticipates will boost safety, and increase rail capacity.
Note.
- To learn more visit hyperTunnel’s web site.
- The mission statement on the home page is Transforming Underground Construction Through AI, Machine Learning And Swarm Robotics.
I like this technology and think it will go a long way. Hopefully, in the right direction.
The UK-Wide Need For Self-Powered Trains
How Many Diesel Trains Are In Service In The UK?
- Northern Trains – 73 x two-car and 6 x three-car.
- Great Western Railway – 20 x two-car.
- Transport for Wales – 36 x two-car.
- In Service – 129 x two-car and 6 x three-car.
These are 75 mph BR Second Generation trains.
- ScotRail – 5 x one-car.
- Transport for Wales – 31 x one-car.
- In Service – 36 x one-car.
- Stored – 27 x one-car.
These are 75 mph BR Second Generation trains.
- Northern Trains – 7 x two-car.
- In Service – 7 x two-car.
These are 75 mph BR Second Generation trains.
- Northern Trains – 58 x two-car.
- East Midlands Railway – 9 x two-car.
- ScotRail – 42 x two-car.
- In Service – 109 x two-car.
- Stored – 6 x two-car.
These are 75 mph BR Second Generation trains.
- ScotRail – 40 x two-car.
- Great Western Railway – 10 x two-car and 7 x three-car.
- East Midlands Railway – 26 x two-car.
- Northern Trains – 45 x two-car and 8 x three-car.
- Transport for Wales – 24 x two-car.
- South Western Railway – 10 x two-car.
- In Service – 155 x two-car and 15 x three-car.
These are 90 mph BR Second Generation trains.
- South Western Railway – 29 x three-car.
- In Service – 29 x three-car.
These are 90 mph BR Second Generation trains.
- Chiltern Railways – 39 x two-car.
- Great Western Railway – 20 x two-car and 16 x three-car.
- In Service – 59 x two-car and 16 x three-car.
These are 75 or 90 mph BR Second Generation trains.
- Great Western Railway – 21 x three-car.
- In Service – 21 x three-car.
These are 90 mph BR Second Generation trains.
- Chiltern Railways – 9 x two-car, 9 x three-car and 13 x four-car.
- In Service – 9 x two-car, 9 x three-car and 13 x four-car.
These are 100 mph Turbostar trains.
- CrossCountry – 7 x two-car and 22 x three-car.
- East Midlands Railway – 22 x two-car and 8 x three-car.
- Northern Trains – 16 x three-car.
- ScotRail – 17 x three-car.
- Transport for Wales – 8 x three-car.
- West Midlands Trains – 16 x three-car.
- In Service – 34 x two-car and 71 x three-car.
These are 100 mph Turbostar trains.
- Southern – 17 x three-car.
- In Service – 17 x three-car.
These are 100 mph Turbostar trains.
- West Midlands Trains – 24 x two-car and 15 x three-car.
- In Service – 24 x two-car and 15 x three-car.
These are 100 mph Turbostar trains.
- Transport for Wales – 9 x two-car and 15 x three-car.
- In Service – 9 x two-car and 15 x three-car.
- Stored – 2 x two-car and 1 x three-car.
These are 100 mph Coradia trains.
- Grand Central – 10 x five-car.
- East Midlands Railway – 1 x four-car and 2 x five-car.
- In Service – 1 x four-car and 12 x five-car.
These are 125 mph Coradia trains.
- TransPennine Express 51 three-car.
- In service – 51 three-car.
These are 100 mph Desiro trains.
- Northern Trains – 25 x two-car and 33 x three-car.
- In Service – 25 x two-car and 33 x three-car.
These are 100 mph CAF Civity trains.
- West Midlands Trains – 12 x two-car and 14 x four-car.
- In Service – 12 x two-car and 14 x four-car.
These are 100 mph CAF Civity trains.
- Northern Trains – 51 x two-car and 26 x three-car.
- In Service – 51 x two-car and 26 x three-car.
These are 100 mph CAF Civity trains.
- CrossCountry – 34 x four-car
- In Service – 34 x four-car
These are 125 mph Bombardier Voyager trains.
- Avanti West Coast -18 x five-cars
- CrossCountry – 24 x four-car.
- In Service – 24 x four-car and 18 x five-cars
- Stored – 2 x five-car
These are 125 mph Bombardier Voyager trains.
- CrossCountry – 23 x five-car and 4 x seven-car.
- In Service – 23 x five-car and 4 x seven-car.
These are 125 mph Bombardier Voyager trains.
- Transport for Wales – 11 x four-car.
- In Service – 11 x four-car.
These are 90 mph Stadler FLIRT bi-mode trains.
- Greater Anglia – 14 x three-car and 24 x four-car.
- In Service – 14 x three-car and 24 x four-car.
These are 100 mph Stadler FLIRT bi-mode trains.
- Transport for Wales – 7 x three-car and 17 x four-car.
- In Service – 7 x three-car and 17 x four-car.
These are 75 mph Stadler FLIRT bi-mode trains.
- Great Western Railway – 21 x five-car and 36 x nine-cars.
- LNER – 10 x five-car and 13 x nine-cars.
- In Service – 31 x five-car and 49 x nine-cars.
These are 125 mph Hitachi AT-300 trains.
- Great Western Railway – 22 x five-car and 14 x nine-cars.
- Hull Trains – 5 x five-car.
- TransPennine Express – 19 x five-car.
- In Service – 46 x five-car and 14 x nine-cars.
These are 125 mph Hitachi AT-300 trains.
- Avanti West Coast – 13 x five-car.
- In Service – 13 x five-car.
These are 125 mph Hitachi AT-300 trains.
- East Midlands Railways – 33 x five-car.
- In Service – 33 x five-car.
These are 125 mph Hitachi AT-300 trains.
These trains give totals as follows.
- One-car – 36
- Two-car – 601
- Three-car – 249
- Four-car – 135
- Five-car – 176
- Seven-car – 4
- Nine-car – 63
That is a total of 1254 trains that need to be decarbonised by either replacement or modification.
- Some trains are effectively double-counted, as both the current trains and their replacements are included.
- Some trains are planned to be replaced by electric trains.
- Some trains will be passed on.
But there are still a lot of trains to be decarbonised.
I will now look at each group in detail.
BR Second Generation Trains
- Class 150 – 129 x two-car and 6 x three-car.
- Class 153 – 36 x one-car.
- Class 155 – 7 x two-car.
- Class 156 – 109 x two-car.
- Class 158 – 155 x two-car and 15 x three-car.
- Class 159 – 29 x three-car.
- Class 165 – 59 x two-car and 16 x three-car.
- Class 166 – 21 x three-car.
Note.
- The trains have mostly Cummins engines, with some Perkins and a spattering of Rolls-Royce.
- Class 150,153, 155 and 156 trains are 75 mph trains and most of the others are capable of 90 mph.
- Condition of the interiors is variable, with some being excellent and others being terrible.
- There are 36 x one-car, 459 x two-car and 59 x three-car.
- There appears to be no plan to decarbonise these trains.
- Some will be replaced by new CAF diesel trains or new electric trains.
The best use of some of the better trains in this group would be to fill-in until zero-carbon trains are available.
Turbostar Trains
These trains are all Turbostars or their predecessor.
- Class 168 – 9 x two-car, 9 x three-car and 13 x four-car.
- Class 170 – 34 x two-car and 71 x three-car.
- Class 171 – 17 x three-car.
- Class 172 – 24 x two-car and 15 x three-car.
Note.
- The trains all have Rolls-Royce mtu engines.
- They are capable of 100 mph.
- Condition of the interiors is generally good.
- There are 67 x two-car, 112 x three-car and 13 x four-car.
- Rolls-Royce mtu engines may be able to run on sustainable fuel like Hydrotreated Vegetable Oil (HVO).
- 168329 has been converted into a diesel-hybrid, by Rolls-Royce mtu.
I feel that one way or another, the trains in this group should be capable of converting to net-zero operation.
Alstom Coradia, Bombardier Voyager and Siemens Desiro Trains
I am putting these trains together, as they are all 100-125 mph long-distance trains, that are not that old.
- Class 175 – 9 x two-car and 15 x three-car.
- Class 180 – 1 x four-car and 12 x five-car.
- Class 185 – 51 x three-car.
- Class 220 – 34 x four-car
- Class 221 – 24 x four-car and 18 x five-cars
- Class 222 – 23 x five-car and 4 x seven-car.
Note.
- The trains all have Cummins engines.
- They are capable of 100 mph or 125 mph.
- Condition of the interiors is generally good.
- There are 9 x two-car, 66 x three-car, 59 x four-car, 53 five-car and 4 x seven-car.
- Cummins engines may be able to run on sustainable fuel like Hydrotreated Vegetable Oil (HVO).
- In Grand Central DMU To Be Used For Dual-Fuel Trial, I described innovative fuel trails in a Class 180 train.
- I suspect Cummins will be taking an interest.
In Cummins And Leclanché S.A. To Collaborate On Lower-Emissions Solutions For Use In Marine And Rail Applications, I asked this question.
How many of these trains could be converted to hybrid operation, if Cummins and Leclanché were to create their version of the mtu Hybrid PowerPack?
I feel that one way or another, the trains in this group should be capable of converting to net-zero operation.
CAF Civity Trains
These three trains have all been recently introduced
- Class 195 – 25 x two-car and 33 x three-car.
- Class 196 – 12 x two-car and 14 x four-car.
- Class 197 – 51 x two-car and 26 x three-car.
Note.
- The trains all have Rolls-Royce mtu engines.
- They are capable of 100 mph.
- Condition of the interiors is probably as-new!
- There are 88 x two-car, 59 x three-car and 14 x four-car.
- All these trains were ordered between 2016 and 2018.
- Rolls-Royce mtu engines may be able to run on sustainable fuel like Hydrotreated Vegetable Oil (HVO).
I don’t believe that as these trains were only ordered a few years ago, that the trains were bought with the knowledge of a route which would convert these trains to net-zero operation.
I suspect the most likely route to net-zero operation, would involve the following.
- Replacing the Rolls-Royce mtu engines with mtu Hybrid PowerPacks.
- Running the trains on sustainable fuel.
The work needed would probably be the same for all trains.
Stadler FLIRT Bi-Mode Trains
- Class 231 – 11 x four-car.
- Class 755 – 14 x three-car and 24 x four-car.
- Class 756 – 7 x three-car and 17 x four-car.
Note.
- The trains all have Rolls-Royce mtu engines.
- They are capable of between 75 and 100 mph.
- Condition of the interiors is probably as-new!
- There are 21 x three-car and 52 x four-car.
- All these trains were ordered between 2016 and 2018.
- As with other recently ordered trains, I am fairly sure that the Deutz engines will be able to run on sustainable fuel like Hydrotreated Vegetable Oil (HVO).
Stadler have designed these trains, so that diesel engines can be replaced by battery packs.
I suspect the most likely route to net-zero operation, would involve the following.
- Replacing all or some the Deutz engines with battery packs.
- Running the trains on sustainable fuel.
The work needed would probably be the same for all trains.
Hitachi AT-300 Trains
Only the bi-mode trains are lists.
- Class 800 – 31 x five-car and 49 x nine-car.
- Class 802 – 46 x five-car and 14 x nine-car.
- Class 805 – 13 x five-car.
- Class 810 – 33 x five-car.
Note.
- The trains all have Rolls-Royce mtu engines.
- They are capable of 125 mph.
- Condition of the interiors is probably as-new!
- There are 123 x three-car and 63 x nine-car.
- Most were built after 2016.
- Rolls-Royce mtu engines may be able to run on sustainable fuel like Hydrotreated Vegetable Oil (HVO).
- Hitachi are developing battery packs for these trains.
I suspect the most likely route to net-zero operation, would involve the following.
- Replacing all or some the Rolls-Royce mtu engines with battery packs.
- Running the trains on sustainable fuel.
The work needed would probably be the same or similar for all trains.
Old Street Station – 22nd January 2024
I passed through Old Street station this morning and took these pictures.
Note.
- I arrived at the station on a Great Northern train from Moorgate.
- I walked through the dingy tunnels of the old station and then used the escalator to get to the surface.
- I then walked around the centre of the roundabout, before walking to the Southbound bus stop.
- From there I took a 21 bus to take the last few pictures.
- I wrote the first post about construction at Silicon Roudabout; Silicon Roundabout Goes Two-Way, in May 2019.
This really has been a slow construction job.
Could A Heathrow And City Line Be Created?
In The New Step-Free Entrance At Euston Square Station, the following comment was added by Martin.
As said cutting the two new pedestrian tunnels from the existing platforms outside the existing brickwork MAY be less demanding than extending the platform tunnel, however I feel that extending the rail platforms would be a more future proof solution as done on the Elizabeth Line, in addition to reducing walking time to the Main Line with Stuff. I would like to see this as a precursor to extending platforms 5 & 6 at Baker Street west to a new entrance at Glentworth Street. With other improvements along the line over time. Enabling a new “Heathrow & City Line” connection utilising the Elizabeth Line from a rebuilt platform at Westbourne Grove.
I will now look at Martin’s various suggestions.
A Connection Between Elizabeth Line And the Hammersmith & City Line At Westbourne Park Station
The last sentence of the comment is.
Enabling a new “Heathrow & City Line” connection utilising the Elizabeth Line from a rebuilt platform at Westbourne Grove.
Note.
- Martin means Westbourne Park not Westbourne Grove.
This OpenRailwayMap shows the lines through Westbourne Park station.
Note.
- The blue tracks are the Hammersmith & City Line.
- The blue arrow on the Hammersmith & City Line indicates Westbourne Park station.
- The orange tracks are the four tracks of the Great Western Main Line and the two tracks of the Elizabeth Line.
- To the East of this map, the Hammersmith & City Line crosses under the other tracks, so it can access platforms on the North side of Paddington station.
This second OpenRailwayMap is an enlargement of the lines through Westbourne Park station.
Note.
- As before the blue tracks and blue arrow indicate the Hammersmith & City Line and Westbourne Park station.
- Orange Lines 1 to 4, which are numbered from the South, are the four lines of the Great Western Main Line.
- The other three orange tracks are labelled Line 5, Westbound and Eastbound and handle GWR local services and the Elizabeth Line.
- I would assume that Eastbound and Westbound Elizabeth Line services use the appropriately named track.
This Google Map shows Westbourne Park station, Great Western Road, the rail tracks and the nearby Westbourne Park bus garage.
Note.
- The London Underground roundel indicates Westbourne Park station.
- The two Hammersmith & City Line platforms stretch to the West of the station entrance.
- Westbourne Park bus garage lies to the North of the Great Western Main Line and Elizabeth Line tracks.
- There are around fifty white-roofed buses parked on the roof of the bus garage.
- The Eastbound Elizabeth Line track runs along the South side of the bus garage.
Looking at the last two maps, I suspect that a two platform station serving the two Elizabeth line tracks under and to the East of Great Western Road.
- It would be connected to the Hammersmith & City Line by a walkway on the Western side of the Great Western Road.
- There would be step-free access to the Hammersmith & City and Elizabeth Lines.
I took these pictures from the platforms at the current Westbourne Park station and as I walked to and from Westbourne Park bus garage.
Note.
- The bus garage is recent and was built as part of the Elizabeth Line construction.
- There are two Westbourne Park station buildings.
- One building serves the Hammersmith & City Line and the other could have served the tracks now used by the Elizabeth Line.
- The Westbourne Park station buildings need a lot of restoration.
- Could a bus interchange be developed?
I believe that a station that connected the Hammersmith & City and Elizabeth Lines could be built.
High Speed Yorkshire
In December 2019, I wrote Could High Speed Two Be A One-Nation Project?, which I started like this.
As currently envisioned, High Speed Two is very much an English project, with the following routes
- London and Birmingham
- London and Liverpool via Birmingham
- London and Manchester Airport/Manchester via Birmingham and Crewe
- London and Sheffield via Birmingham and the East Midlands Hub
- London and Leeds via Birmingham and the East Midlands Hub
There are large numbers of mid-sized towns and cities that it won’t serve directly.
This is what I said about the East Coast Main Line in the post.
The East Coast Main Line serves the following routes.
- London and Bradford
- London and Cambridge
- London and Edinburgh via Doncaster, York and Newcastle
- London and Harrogate via Leeds
- London and Hull
- London and Kings Lynn via Cambridge
- London and Lincoln via Newark.
- London and Leeds via Doncaster
- London and Middlesbrough
- London and Skipton via Leeds
- London and Sunderland
The East Coast Main Line could become another high speed line.
Extra services could be added.
- London and Norwich via Cambridge
- London and Nottingham
- London and Grimsby and Cleethorpes via Lincoln.
- London and Sheffield via Retford.
Add the East Coast Main Line and High Speed Two together and there could be a wider range of towns and cities served.
- Peterborough and Doncaster could play the same role in the East as Birmingham and Crewe will play in the West.
- The East Coast Main Line between London and Doncaster will be upgraded to in-cab ERTMS signalling in a few years time, which will allow 140 mph running on several sections of the route.
- Improvements are either under way or being planned to reduce bottlenecks on the East Coast Main Line.
- If High Speed Two can handle eighteen trains per hour (tph), then surely the East Coast Main Line, which has a lot of quadruple track, can handle upwards of twelve 140 mph trains per hour between London and Doncaster, after the improvements to track and signalling.
- I estimate that 140 mph running between London and Doncaster could save as much as twenty minutes.
- I feel that Barnsley, Doncaster, Hull, Leeds, Sheffield and York could all be reached in under two hours from London using the existing Azuma trains.
- This morning the 0700 from Kings Cross is timetabled to reach York at 0852. Would it be possible for London and York to be around just ninety minutes?
- Savings would also apply to trains between London and Leeds, Middlesbrough, Newcastle, Scotland and Sunderland.
- Sub-four hour journeys between London and Edinburgh would be commonplace.
Note that the Internet gives a driving time of nearly three and a half hours between London and Leeds. Surely, two hours or less on High Speed Yorkshire would be much preferable.
I would add this infrastructure.
- There might be a good case to create electrified routes to Hull and Sheffield and between Sheffield and Leeds, but they wouldn’t be needed to start the service or obtain the time savings. But they would ease operation, cut carbon emissions and save a few more minutes.
- A station at Doncaster-Sheffield Airport.
- A parkway station at Barnsley on the Dearne Valley Line with direct services to Doncaster, Leeds, London and Sheffield.
The two latter improvements have been proposed in Sheffield Region’s transport plans.
High Speed Yorkshire should be finished as soon as possible. A completion date of 2024 is not unreasonable.
This was the first time I used the term High Speed Yorkshire.
Benefits Of Digital Signalling On The East Coast Main Line
The obvious benefit is there will be 140 mph running on several stretches of the East Coast Main Line.
But as a Control Engineer, I believe that the digital signalling can be used to eliminate two major bottlenecks on the route.
- The Digswell Viaduct, which I wrote about in Is There An ERTMS-based Solution To The Digswell Viaduct?.
- The Newark Flat Crossing, which I wrote about in Could ERTMS And ETCS Solve The Newark Crossing Problem?.
Digital Signalling will also offer techniques to run more trains per hour on the route.
LNER Orders CAF Tri-Mode Sets
The title of this section, is the same as this article in the December 2023 Edition of Modern Railways, which has this paragraph.
Modern Railways understands the new fleet will be maintained at Neville Hill depot in Leeds and, like the ‘225’ sets, will be used predominantly on services between London and Yorkshire, although unlike the ‘225s’ the tri-modes, with their self-power capability, will be able to serve destinations away from the electrified network such as Harrogate and Hull.
Note.
- This surprised me, as I’d always expected the Yorkshire routes will be served by Hitachi battery-electric trains.
- But it does look that both Harrogate and Hull stations, have long enough platforms to hold a ten-car train.
- With their tri-mode technology, it also looks like the CAF trains won’t be needed to be charged before returning to London.
The last point would enable them to try out new routes.
But it does look like LNER are planning to strengthen their Yorkshire routes.
- Does Azuma Test Train Takes To The Tracks As LNER Trials Possible New Route, also mean that they’re looking at a service to Cleethorpes?
- The curtailment of High Speed Two was hard on Yorkshire.
- The Government has had time to get a verdict from experts on TransPennine Express.
It could just be that, it’s easier to sell rail tickets to Yorkshire folk, than Lancashire folk.
FirstGroup Applies To Run New London To Sheffield Rail Service
The title of this section, is the same as that of this press release from First Group.
These two paragraphs outline FirstGroup’s initial plans.
FirstGroup plc, the leading private sector transport operator, has today submitted the first phase of an application for a new open access rail service between London and Sheffield to the Office of Rail and Road (ORR).
FirstGroup plans to expand its open access rail operations as part of its award-winning Hull Trains business, building on their successful existing service which has transformed long-distance connectivity between Hull and London.
Note.
- FirstGroup want to run two trains per day (tpd) between London King’s Cross and Sheffield stations via Retford.
- Services will be non-stop between London King’s Cross and Retford.
- The service will be run by Hull Trains.
- I suspect that Hull Trains will use a fleet of identical Hitachi trains for both services.
- Hull Trains could decarbonise the services by using battery-electric trains.
- I believe a time of 82 minutes will be possible between London King’s Cross and Sheffield.
- High Speed Two were promising a time of 87 minutes for their route from London Euston via Birmingham and Nottingham.
I believe there could be up to seven tpd to both Hull and Sheffield.
Timings On High Speed Yorkshire
In FirstGroup Applies To Run New London To Sheffield Rail Service, I felt the following is possible, between London King’s Cross and Sheffield.
- After the digital signalling is completed between King’s Cross and Retford, I suspect that a 135 mph average speed can be maintained between Woolmer Green and Retford. This would mean that a King’s Cross and Retford time of 68 minutes would be possible.
- If Network Rail improve the track between Retford and Sheffield, I believe that a 70 mph average could be achieved on the Retford and Sheffield section. This would mean that a Retford and Sheffield time of 20 minutes would be possible.
- I would expect at least six minutes would be saved by missing stops.
This gives a time of 82 minutes between London King’s Cross and Sheffield.
I will use these timings to calculate other possible times.
- Current time between London King’s Cross and Retford – 82 minutes
- Digitally signalled average speed between Woolmer Green and Retford – 135 mph
- Digitally signalled time between London King’s Cross and Retford – 68 minutes
- Digitally signaled time between London King’s Cross and Sheffield – 82 minutes
These are my estimated timings from London King’s Cross.
Barnetby via Newark Northgate and Lincoln
Operator: LNER
Served by High Speed Two: No
Time to/from London King’s Cross: 114 minutes
Barnetby via Peterborough and Lincoln
Operator: LNER
Served by High Speed Two: No
Time to/from London King’s Cross: 128 minutes
Barnsley via Sheffield
Operator: Hull Trains
Served by High Speed Two: No
Time to/from London King’s Cross: 112 minutes
Note: Uses Penistone Line and Hull Trains times to Sheffield
Beverley
Operator: Hull Trains
Served by High Speed Two: No
Time to/from London King’s Cross: 101 minutes
Note: Uses Hull Trains times from Doncaster
Bradford Foster Square via Leeds
Operator: LNER
Served by High Speed Two: No
Time to/from London King’s Cross: 146 minutes
Note: Uses LNER times from Leeds
Bradford Interchange via Doncaster
Operator: Grand Central
Served by High Speed Two: No
Time to/from London King’s Cross: 166 minutes
Note: Uses Grand Central times from Doncaster
Brighouse via Doncaster
Operator: Grand Central
Served by High Speed Two: No
Time to/from London King’s Cross: 143 minutes
Note: Uses Grand Central times from Doncaster
Brough
Operator: Hull Trains
Served by High Speed Two: No
Time to/from London King’s Cross: 101 minutes
Note: Uses Hull Trains times from Doncaster
Cleethorpes via Newark Northgate and Lincoln
Operator: LNER
Served by High Speed Two: No
Time to/from London King’s Cross: 141 minutes
Cleethorpes via Peterborough and Lincoln
Operator: LNER
Served by High Speed Two: No
Time to/from London King’s Cross: 155 minutes
Darlington
Operator: LNER
Served by High Speed Two: Yes
High Speed Two time to/from London Euston: 116 minutes
Time to/from London King’s Cross: 127 minutes
Doncaster
Operator: Grand Cenreal, Hull Trains, LNER
Served by High Speed Two: No
Time to/from London King’s Cross: 76 minutes
Durham
Operator: LNER
Served by High Speed Two: Yes
High Speed Two time to/from London Euston: 136 minutes
Time to/from London King’s Cross: 160 minutes
Eaglescliffe
Operator: Grand Central
Served by High Speed Two: No
Time to/from London King’s Cross: 155 minutes
Note: Uses Grand Central times from Northallerton
Edinburgh
Operator: LNER
Served by High Speed Two: Yes
High Speed Two time to/from London Euston: 220 minutes
Time to/from London King’s Cross: 234 minutes
Grantham
Operator: LNER
Served by High Speed Two: No
Time to/from London King’s Cross: 53 minutes
Grimsby Town via Newark Northgate and Lincoln
Operator: LNER
Served by High Speed Two: No
Time to/from London King’s Cross: 134 minutes
Grimsby Town via Peterborough and Lincoln
Operator: LNER
Served by High Speed Two: No
Time to/from London King’s Cross: 148 minutes
Halifax via Doncaster
Operator: Grand Central
Served by High Speed Two: No
Time to/from London King’s Cross: 153 minutes
Note: Uses Grand Central times from Doncaster
Harrogate
Operator: LNER
Served by High Speed Two: No
Time to/from London King’s Cross: 147 minutes
Note: Uses LNER times from Leeds
Hartlepool
Operator: Grand Central
Served by High Speed Two: No
Time to/from London King’s Cross: 175 minutes
Note: Uses Grand Central times from Northallerton
Horsforth
Operator: LNER
Served by High Speed Two: No
Time to/from London King’s Cross: 124 minutes
Note: Uses LNER times from Leeds
Huddersfield via Leeds
Operator: LNER
Served by High Speed Two: No
Time to/from London King’s Cross: 161 minutes
Note: Uses LNER times from Leeds
Huddersfield via Sheffield
Operator: Hull Trains
Served by High Speed Two: No
Time to/from London King’s Cross: 140 minutes
Note: Uses Penistone Line and Hull Trains times to Sheffield
Hull
Operator: Hull Trains
Served by High Speed Two: No
Time to/from London King’s Cross: 114 minutes
Note: Uses Hull Trains times from Doncaster
Keighley via Leeds
Operator: LNER
Served by High Speed Two: No
Time to/from London King’s Cross: 178 minutes
Note: Uses LNER times from Leeds
Leeds
Operator: LNER
Served by High Speed Two: Yes
High Speed Two time to/from London Euston: 81 minutes
Time to/from London King’s Cross: 116 minutes
Lincoln via Newark Northgate
Operator: LNER
Served by High Speed Two: No
Time to/from London King’s Cross: 85 minutes
Lincoln via Peterborough
Operator: LNER
Served by High Speed Two: No
Time to/from London King’s Cross: 99 minutes
Market Rasen via Newark Northgate and Lincoln
Operator: LNER
Served by High Speed Two: No
Time to/from London King’s Cross: 101 minutes
Market Rasen via Peterborough and Lincoln
Operator: LNER
Served by High Speed Two: No
Time to/from London King’s Cross: 115 minutes
Meadowhall via Sheffield
Operator: Hull Trains
Served by High Speed Two: No
Time to/from London King’s Cross: 90 minutes
Note: Uses Penistone Line and Hull Trains times to Sheffield
Middlesbrough
Operator: LNER
Served by High Speed Two: No
Time to/from London King’s Cross: 155 minutes
Mirfield via Doncaster
Operator: Grand Ccentral
Served by High Speed Two: No
Time to/from London King’s Cross: 136 minutes
Note: Uses Grand Central times from Doncaster
Newark Northgate
Operator: LNER
Served by High Speed Two: No
Time to/from London King’s Cross: 60 minutes
Newcastle
Operator: LNER
Served by High Speed Two: Yes
High Speed Two time to/from London Euston: 137 minutes
Time to/from London King’s Cross: 145 minutes
Northallerton
Operator: Grand Central, LNER
Served by High Speed Two: No
Time to/from London King’s Cross: 126 minutes
Peterborough
Operator: Grand Central, LNER
Served by High Speed Two: No
Time to/from London King’s Cross: 40 minutes
Pontefract Monkhill
Operator: Grand Central
Served by High Speed Two: No
Time to/from London King’s Cross: 103 minutes
Note: Uses Grand Central times from Doncaster
Retford
Operator: LNER
Served by High Speed Two: No
Time to/from London King’s Cross: 68 minutes
Selby
Operator: Hull Trains
Served by High Speed Two: No
Time to/from London King’s Cross: 92 minutes
Note: Uses Hull Trains times from Doncaster
Sheffield
Operator: Hull Trains
Served by High Speed Two: Yes
High Speed Two time to/from London Euston: 87 minutes
Time to/from London King’s Cross: 82 minutes
Shipley via Leeds
Operator: LNER
Served by High Speed Two: No
Time to/from London King’s Cross: 168 minutes
Note: Uses LNER times from Leeds
Skipton via Leeds
Operator: LNER
Served by High Speed Two: No
Time to/from London King’s Cross: 191 minutes
Note: Uses LNER times from Leeds
Sleaford
Operator: LNER
Served by High Speed Two: No
Time to/from London King’s Cross: 83 minutes
Spalding
Operator: LNER
Served by High Speed Two: No
Time to/from London King’s Cross: 61 minutes
Sunderland
Operator: Grand Central
Served by High Speed Two: No
Time to/from London King’s Cross: 194 minutes
Note: Uses Grand Central times from Northallerton
Thirsk
Operator: Grand Central
Served by High Speed Two: No
Time to/from London King’s Cross: 116 minutes
Note: Uses Grand Central times from Northallerton
Thornaby
Operator: LNER
Served by High Speed Two: No
Time to/from London King’s Cross: 146 minutes
Wakefield Kirkgate
Operator: Grand Central
Served by High Speed Two: No
Time to/from London King’s Cross: 118 minutes
Note: Uses Grand Central times from Doncaster
Wakefield Westgate
Operator: LNER
Served by High Speed Two: No
Time to/from London King’s Cross: 95 minutes
Worksop
Operator: Hull Trains
Served by High Speed Two: No
Time to/from London King’s Cross: 81 minutes
York
Operator: LNER
Served by High Speed Two: Yes
High Speed Two time to/from London Euston: 84 minutes
Time to/from London King’s Cross: 98 minutes
Note.
- Times have improved because of the digital signalling.
- As the digital signalling goes further North timings will will come down further.
- Unelectrified branches like those to Beverley, Cleethorpes, Grimsby, Harrogate, Huddersfield, Hull, Lincoln, Middlesbrough and Sheffield will be improved and further bring down times.
Sheffield could be as low as 80 minutes, with York at 91 minutes.
Google Starts Building £790m Site In Hertfordshire
The title of this post, is the same as that of this article on the BBC.
This is the sub-heading.
Google has invested $1bn (£790m) to build its first UK data centre
These are the first four paragraphs.
The tech giant said construction had started at a 33-acre site in Waltham Cross, Hertfordshire, and hoped it would be completed by 2025.
Google stressed it was too early to say how many jobs would be created but it would need engineers, project managers, data centre technicians, electricians, catering and security personnel.
The prime minister said it showed the UK had “huge potential for growth”.
The project marked the latest investment by a major US tech firm in Britain, after Microsoft announced it would invest £2.5bn to expand data centres for artificial intelligence (AI) across the UK.
Note.
- By “completed by 2025” do they mean completed before 2025 or completed by the end of 2025. Judging by the time they took to build their London HQ, its the latter.
- Rishi is right about the UK having a huge potential for growth! Especially, if the nihilists of the United States vote in the Big Orange!
- Judging by the total spend of £2.5 billion on data centres and the £790 million for this one, this looks to be the first of three.
But where is this data centre going to be built?
This article on EssexLive is entitled Google To Move Into Waltham Cross With £788m Data Centre To Support ‘AI Innovation’, where this is said.
The new data centre will go on land at Maxwell’s Farm, next to the A10 Great Cambridge Road and around one mile from the M25 junction 25. Debbie Weinstein, Google vice president and managing director in the UK and Ireland, set out the decision in a blog post on Thursday, January 18 – the fourth day of the World Economic Forum’s Davos 2024 in Switzerland.
This is a Goggle Map of that area, when I searched for Maxwell’s Farm.
Note.
- The red arrow indicates the result of my search, which Google interpreted as A.J. Maxwell.
- The dual-carriageway road running down the East side of the map is the A10 between London and Cambridge.
- The A10 road joins the M25 at Junction 25.
- The arrow to the South-West of the roundabout indicates the new studios; Sunset Waltham Cross, which is being built.
- At the other side of the studio site, there is a label saying New River and this important piece of London’s water infrastructure can be traced to the top of the map.
- The other dual-carriageway road is the B198 or Lieutenant Ellis Way.
- A quick calculation shows that 33 acres is roughly a 365 metre square.
I would suspect that the data centre will lie somewhere between the A10, the B198 and the New River.
This Google Map shows the South-East corner of the site.
Note.
- There appears to be a lane running East-West, that crosses over both the A10 and the New River.
- Theobalds Lane appears to have some housing and possibly a farm.
- The smaller field by the roundabout appears to have some animals using it as grazing.
- The field between the East-West lane and Theobalds Lane appears to have a good crop of cereal.
The East-West lane would appear to be a possible Southern border of the site.
This Google Map shows where the East-West lane goes.
Note.
- The lane leads to Queen Mary’s High School.
- The school also has access from Lieutenant Ellis Way.
- The New River appears to form, the Eastern boundary of the school site.
- There are sports pitches between the New River and the school.
The New River looks to be the Western boundary of the Google site.
This Google Map shows around the red arrow from the Google search that led me to this area.
Note.
- A.J. Maxwell is identified by the red arrow in the Theobalds Enterprise Centre.
- The New River can be seen at the West of the map.
- A hedge runs roughly East-West to the North of the Enterprise Centre.
- North of the hedge are a number of football pitches, which appear to belong to the Affinity Academy at Goffs Churchgate.
The hedge could be the Northern boundary of the Google site.
This Google Map shows the area between the South of the Enterprise Centre and the East-West lane I picked out earlier.
A crude measurement indicates it could be around 33 acres or slightly more.
This picture is used in nearly all the news reports about the Data Centre.
Note.
- Could that be the gentle curve of the New River on the left?
- With the high fence, the New River forms an almost-mediaeval defence against trespassers.
- There looks to be a dual-carriageway road running down the other side of the site, which would be the A10.
- Between the A10 and the site, there appears to be loots of dark areas, which I take to be car parks.
- Are the car-parking spaces in the front of the picture marked for those, who are disabled? There certainly appear to be chargers on some spaces.
I have a few thoughts.
The Relative Locations Of Google’s Data Centre And Sunset Studios?
This Google Map shows the two sites to the West of the A10.
Note.
- St. Mary’s High School is in the North-West corner of the map.
- Cheshunt Football Club is in the North-East corner of the map.
- The dual-carriageway A10 runs North-South on the map.
- I believe that Google’s Waltham Cross Data Centre will be located in the field to the West of the A10, at the top of the map.
- The A10 connects to the M25 at Junction 25, which is in the centre at the bottom of the map.
- In The Location Of Sunset Studios In Broxbourne, Sunset Studios are placed to the North West of the Junction 25 roundabout.
- Just as the A10 forms the Eastern boundary of both sites, the New River forms the Western boundary.
The two sites are close together between the A10 and the New River, separated by the dual-carriageway Lieutenant Ellis Way.
Will Google’s Data Centre Be Storing Data For Sunset Studios?
I’ve never worked in the production of films, but these days with digital electronic cameras, CGI, motion capture and other techniques, producing a film must need huge amounts of data storage.
- So have Sunset Studios outsourced their data storage needs to Google?
- Perhaps too, Sunset Studios found the local authority welcoming and this attitude was recommended to Google.
- Both sites will need local services like electricity, gas, sewage and water.
I suspect that there would be cost savings in construction and operation, if the two sites shared the utilities.
Providing Electricity And Heat For Both Sites
Consider.
- I estimate from information given in the Wikipedia entry for Google Data Centres, that a data centre needs between 10 and 12 MW.
- There is no obvious power source like offshore wind or a nuclear power station nearby.
- There is the 715 MW Rye House gas-fired power station, which is a few miles away.
- In Google Buys Scottish Offshore Wind Power, I talked about how Google had signed a Corporate Power Purchase Agreement to buy 100 MW from the Moray West offshore wind farm.
Google and Sunset Studios would also want an electrical and heat supply that is at least 100 % reliable.
Liverpool University had the same problem on their hundred acre campus in the centre of Liverpool.
- The University decided to build their own 4 MW Combined Heat and Power Unit (CHP), which is described in this data sheet.
- It is fired by natural gas.
- On their web site, Liverpool University state that their CHP can be adapted to different fuel blends. I take this includes zero-carbon fuels like hydrogen and carbon-neutral fuels like biomethane.
But given their location in Waltham Cross close to the Lea Valley, CHP units may have a use for their carbon dioxide.
This Google Map shows between Junction 15 of the M25 and Tomworld.
Note.
- Junction 25 of the M25, where it joins the A10 is in the South-West corner of the map.
- The sites of Google’s Data Centre and Sunset Studios can be picked out with reference to the previous map.
- Tomworld is in the North-East corner of the map.
- So why should Tomworld need a lot of carbon-dioxide?
This Google Map shows Tomworld.
Note.
- This web page indicates what Tomworld do.
- They have 44 acres of glass growing tomatoes, about five miles to the North-East of Google’s Data Centre.
- The map has lots of other greenhouses.
I know of a guy, who has a large greenhouse, that grows tomatoes for the supermarkets.
- He heats the greenhouse with a gas-fired Combined Heat and Power Unit (CHP).
- The electricity produced runs his business.
- Any surplus electricity is fed into the grid.
- The carbon dioxide is fed to the plants in the greenhouse, which helps them grow quality tomatoes.
I just wonder, if carbon dioxide from CHP units at Google’s Data Centre and Sunset Studios could be used by the multitude of greenhouses in the Lea Valley.
Could A Carbon Dioxide Pipeline Be Built Along The M25?
This Google Map shows the Northern section of the M25, South of Waltham Cross.
Note.
- The M25 running East-West across the bottom of the map.
- Junction 25 of the M25 in the South-West corner of the map.
- The A10 running North-South at the West of the map.
- Google’s data centre and Sunset Studio are to the West of the A10.
- The River Lee, which has numerous water courses is at the East of the map.
I wonder, if a carbon dioxide pipeline could be built along the M25 to connect the producers to those who could use it?
- It would not be a dangerous pipeline as carbon dioxide is a fire extinguisher.
- It wouldn’t be a huge pipe.
I think it would be possible.
Google’s Commitment To Being Zero-Carbon
This blog post on the Google web site is entitled Our $1 Billion Investment In A New UK Data Centre, has a section, which has a sub-title of 24/7 Carbon-Free Energy By 2030, where this is a paragraph.
Additionally, we’re also exploring new and innovative ways to use the heat generated by data centres, and this new facility will also have provisions for off-site heat recovery. Off-site heat recovery presents an opportunity for energy conservation that benefits the local community, as it allows us to capture the heat generated by the data centre so that it can be used by nearby homes and businesses. The data centre is also set to deploy an air-based cooling system.
If they are using off-site heat recovery, it would be logical to use waste carbon dioxide from CHPs to provide carbon dioxide for the local horticultural businesses.
Will Google Be Building A Vertical Farm Nearby?
In Schneider Electric: Vertical Farming – The Next Yield In Data Centre Sustainability, I noted that some data centres are paired with vertical farms to increase their sustainability.
Could Google be doing that in Waltham Cross?
- They will have a lot of waste heat.
- They will have a fair bit of carbon dioxide, which could be used to help plants grow.
- The local workforce probably contains a lot of experience of market gardening.
I like the idea of pairing a data centre and a vertical farm.
Public Transport Access
Consider.
- Increasingly, the cost of electric vehicles, medical problems and the UK economic situation are causing people to adopt a car-free lifestyle.
- After my stroke, my eyesight deteriorated such, that I am no longer allowed to drive.
- Others may live in one-car families and it may not be their’s to use every day.
- Or your car may just break down on the way to work.
For these and probably lots of other reasons, any large site employing a lot of employees, must have a valid way of getting there by public transport.
The nearest rail station to Google’s Data Centre and Sunset Studios is Theobalds Grove station.
This Google Map shows the roads between the sites and the station.
Note.
- The Sunset Waltham Cross label in the South West corner.
- Google’s Data Centre will be just off the map to the West of the A10.
- Theobalds Grove station is marked by the TfL roundel in the North-East corner of the map.
- There would appear to be no bus stops on Winston Churchill Way or the A10.
I walked South from the station to Winston Churchill Way, where I took these pictures.
Note.
- At that point, I gave up because of the cold and pollution.
- It was also a Saturday morning about midday.
The route I took is certainly not an alternative route to get to Google’s Data Centre or Sunset Studios.
A Possible Station At Park Plaza North
This article on the BBC is entitled Broxbourne: Two New Stations Planned.
This is the sub-heading.
Two new train stations could be built in Hertfordshire if plans to tighten planning policies are adopted.
This is the first paragraph.
Broxbourne Borough Council said stops at Park Plaza North – between Turkey Street and Theobalds Grove London Overground stations – and Turnford on the London to Bishop’s Stortford route would be subject to a consultation.
Later the BBC say that Park Plaza North station will be South of the A121 Winston Churchill Way near Waltham Cross
This Google Map shows the area South-East of the roundabout, where Winston Churchill Way meets the A10.
Note.
- The green patch of land to the South-East of the roundabout where Winston Churchill Way meets the A10 appears to be ripe for development.
- Looking at the green patch with a higher resolution, the land is little more than high class scrub beloved of newts.
- The London Overground line to Cheshunt runs down the East side of the site.
- To the North, the London Overground crosses Winston Churchill Way to get to Theobalds Grove station.
- To the South, the London Overground crosses the M25 to get to Turkey Street station.
- There is a lane running East-West along the South edge of the site, which crosses the railway in a level crossing.
This picture clipped from Google StreetView shows the level crossing.
This is certainly one, that drivers dread.
This GoogleMap shows the level crossing and a stretch of the London Overground.
Note.
- The level crossing is in the South-East corner of the map.
- There isn’t much space to put a London-bound platform on the East side of the tracks, South of the Park Road circle.
- There is plenty of space to put a Cheshunt-bound platform on the West side of the tracks.
- North of the Park Road circle, there would appear to be space for two platforms.
It will need a lot of ingenuity to provide a safe and efficient solution to the problems of the level crossing and fitting a station in this limited space.
The first thing I’d do, would be to dig an underpass for pedestrians and cyclists to connect the two halves of Park Lane.
Northumberland Line ‘Phased Reopening’ By Summer
The title of this post, is the same as that as this article on the BBC.
These are the first three paragraphs.
The Northumberland Line will partially reopen this summer days after it was announced it would not be in service until the end of 2024.
Conservative county council leader Glen Sanderson said there had been “challenges” with the project, but when fully reopened the rail line would be a “game changer” for travellers.
The stations due to be open in the summer are Seaton Delaval, Ashington and Newsham.
In my lifetime, the Victoria, Jubilee and Elizabeth Lines in London, have opened on a phased manner.
So why shouldn’t the Northumberland Line?
In fact given the route, it could be opened with a shuttle between Ashington and Newcastle stations, to train drivers and test the concept.
- The intermediate stations could be added over a couple of years.
- I would add a station with lots of parking early.
- If the views live up to the pictures, a lot of passengers will have a day out for the views.
- I’m sure enthusiasts and locals, especially with their kids will be exploring this short railway in droves.
To me, this is definitely a line, that will suffer from London Overground Syndrome.
This OpenRailwayMap shows the railways to the North of Newcastle.
Note.
- The red track is the electrified East Coast Main Line.
- Ashington station is at the top of the map and is marked by a blue arrow.
- The blue track is the Tyne and Wear Metro.
- Newcastle station is where the Metro crosses the East Coast Main Line at the bottom of the map.
- The black trackrunning North-South to the East of the East Coast Main Line is the Northumberland Line.
This OpenRailwayMap shows the railways to the North of Ashington.
Note.
- The red track is the electrifed East Coast Main Line.
- Ashington station is at the bottom of the map and is marked by a blue arrow.
- There are a few disused colliery lines to the North of Ashington.
I believe that these railways to the North of Newcastle could and should be developed.
The East Coast Main Line Is Congested
Consider.
- The East Coast Main Line has only two tracks.
- It is one of only two rail routes between England and Scotland.
- It carries local services as well as long distance express services.
- In recent years more services have been added by Lumo and TransPennine Express.
It is my belief that applying digital signalling between Newcastle and Edinburgh via Berwick, should be a high priority project to increase the capacity of the East Coast Main Line.
Local Services Can Be Extended
The Northumberland Line opens up possibilities for extension, where track already exists..
- From Ashington to Newbiggin-on-Sea and Lynemouth.
- From Bedlington to Morpeth and the East Coast Main Line.
- From Bedlington to North Blyth.
It would appear that it might be possible to run a new line North from Ashington to connect with the East Coast Main Line.
Distances Are Short
Consider.
- Ashington and Newcastle is 20.6 miles
- Newcastle and Morpeth is 16.6 miles
- Newcastle and Berwick is electrified.
- In The Data Sheet For Hitachi Battery Electric Trains, I stated that Hitachi’s battery-electric express trains have a range of 43.5 miles on one battery. A slower commuter train would certainly achieve this distance.
I have a feeling that a passenger-friendly network of battery-electric trains can be developed along and around the Northumberland Line and the East Coast Main Line.
Hull Trains Sees Biggest Timetable Transformation In Its 23 Year History
The title of this post, is the same as that of this press release from Hull Trains.
These are the first two paragraphs.
Hull Trains has announced it is now running extended 10 carriage trains on a number of its services from Wednesday to Sunday due to growing passenger numbers, bringing an extra 4,000 available seats per week for customers.
Introducing this extra capacity, especially on a Sunday, has been an aspiration of the operator for some time now and it is delighted to finally be able to launch these longer train services. The change will bring additional seats and offers to Hull Trains’ services for customers.
These two paragraphs talks about their performance.
A report released in late 2023 by the Office of Road and Rail (ORR), showed that Hull Trains have led the way for long-distance train operators, reporting a 34% growth in journeys compared to the previous year.
This provided further evidence of Hull Trains’ stability and strength with the local open-access operator now delivering 28% more journeys than it was before the pandemic.
So why have they outperformed other operators?
A Local Presence And Name Must Help
So if you’re going to London, you’re probably more likely to use a local train company. It’s also easy to market.
Hull Has One Of The Best Bus/Train Interchanges In The Country
Recently, I went to an SSE presentation about their Hydrogen Pathfinder Project at Aldbrough. This was given at Horden about twenty miles from Hull and the buses to and from the station were just a hundred metres from the platform at Hull station.
They were also reasonable frequent.
At some stations like Leeds, Manchester Piccadilly and Newcastle the bus/train interchange is bad and require a walk halfway across the City Centre.
Money is Tight At The Moment
I suspect that bus and train is cheaper than going by car to the station.
As in many households there are at often two cars, I wouldn’t be surprised that if one partner can manage without a car, a lot of families have reduced the number of cars they have.
This would be difficult in some places as public transport, isn’t good enough to rely on.
So Hull’s excellent bus/train interchange would benefit train operators.
Interestingly, Doncaster has a co-located bus station.
Sheffield Also Is A Good Bus/Train Interchange
Hull Trains proposed new route is London and Sheffield, which I wrote about in FirstGroup Applies To Run New London To Sheffield Rail Service.
Conclusion
Hull trains are certainly getting it right, but I do think the buses in Hull help.
The Anonymous Widower 