The Anonymous Widower

Gas-Fired Power Still Looks A Safe Bet For Centrica In The Renewables Era

I feel rather surprisingly, the title of this post, is the same as this article on the Guardian.

You’d think, that they would be critical of Centrica for keeping the gas power stations going.

But this is the sub-heading.

There will still be a need to have gas in the wings to keep the lights on, so the financials stack up on Severn plant purchase.

So why should Centrica buy a 832 MW closed cycle gas fired power station?

These posts describe, what Centrica have done at Brigg with another closed cycle gas fired power station.

Will Centrica be taking closed cycle gas fired power stations and making them more efficient to provide the back up to wind farms, when wind is having an off day?

I wouldn’t be surprised, if Centrica put a big battery on the two sites, as after all they are a godparent to Highview Power.

Are there any more closed cycle gas fired power stations, that they can acquire?

I asked, Google AI,”How many closed cycle gas fired power stations are there in the uk?” and received this answer.

As of early 2026, there are approximately 35 active combined cycle gas turbine (CCGT) power stations—often referred to as closed-cycle—in the UK.

These plants provide the bulk of the UK’s gas-fired capacity, totaling roughly 30-35 GW along with smaller, single-cycle (OCGT) plants which are used for backup.

Total Capacity: The total capacity of all gas-fired generation (CCGT and others) is approximately 35.7 GW.

Role in Power Mix: CCGTs are highly efficient and provide baseload power, while OCGT plants (about 14+ sites) are typically used for peak demand.

Key Locations: Major plants include Pembroke (RWE), Staythorpe (RWE), Didcot B (RWE), and Connah’s Quay (Uniper).

These plants remain the largest single source of electricity generation on the UK grid, though they are increasingly being paired with carbon capture proposals.

I think, that Engineer Baldrick is now working for Centrica and he has a cunning plan to use efficient CCGT power stations to back up the wind.

Consider.

  • Severn power station is an 832 MW combined cycle power plant running on natural gas, which is located near Newport in South Wales.
  • 4.5 GW of offshore wind is to be built near Port Talbot.
  • Will some hydrogen generated by HiiROC be used to part-fire Severn power station and reduce its carbon footprint.
  • South Wales can easily find space for a couple of Highview 300 MW/3.2 GWh CRYOBatteries.
  • It would be useful to have a good-sized hydrogen store in South Wales.

That mix would surely provide enough reliable power for green steelmaking and a few data centres.

 

 

 

May 8, 2026 Posted by | Artificial Intelligence, Energy, Energy Storage, Hydrogen | , , , , , , , , , , , , | Leave a comment

The Former Unilever Site At Warrington – 6th May 2026

I went past this site twice yesterday on my way to and from Blackpool.

I took these pictures going Northwards.

And I took these pictures going Southwards.

A quick search of the Internet on my phone revealed.

  • It was a former soap works, that had previously been owned by Unilever.
  • The site was now going to be developed as a data centre.

This OpenRailwayMap shows the railways through the area.

Note.

  1. Warrington Bank Quay station is indicated by the blue arrow in the middle of the map.
  2. The Unilever site is to its North-West.
  3. Warrington Bank Quay station is a major station on the West Coast Main Line and will probably be on High Speed Two, which will share tracks with the West Coast Main Line.
  4. The two East-West lines are not electrified.
  5. Warrington West is a relatively new station, that I wrote about in 2020, in The New Warrington West Station.

This OpenRailwayMap shows the railway lines between Liverpool and the coast in the West and the West Coast main Line in the East.

Note.

  1. The Merseyrail third rail network shown in lilac.
  2. Electrified tracks shown in red.
  3. Tracks without electrification shown in black.
  4. Warrington Bank Quay station indicated by the blue arrow.
  5. The West Coast Main Line (WCML) runs North-South at the Eastern edge of the map.
  6. Wigan North Western station is in the North East corner of the map.
  7. Wigan North Western and Warrington Bank Quay stations are both on the WCML.

Five lines connect the Liverpool local network to the WCML.

  1. The top unelectrified line connects the new Headbolt Lane station to Wigan Wallgate station.
  2. The most Northerly electrified line connects Liverpool Lime Street and Wigan North Western stations via Huyton station.
  3. The second electrified line connects Liverpool Lime Street and Manchester via Newton-le-Willows station.
  4. The most Northerly of the bottom pair of unelectrified lines connects Liverpool Lime Street and Manchester via Warrington Central station.
  5. The final line is a freight line between Liverpool and Manchester along the Mersey. This line runs under the WCML

The last line is likely to be upgraded to become Northern Powerhouse Rail between Liverpool Lime Street and Manchester via Manchester Airport.

This picture shows a freight train passing under Warrington Bank Quay station.

This OpenRailway Map shows how the lines cross to the South of Warrington Bank Quay station.

Note.

  1. The electrified North-South line is the West Coast Main Line (WCML).
  2. There is quite a good amount of space.

Could the junction be designed, so that HS2 trains could go between Manchester and London?

 

 

May 7, 2026 Posted by | Artificial Intelligence, Computing, Energy, Transport/Travel | , , , , , , , , , , , , , , , , , , | Leave a comment

Blackpool North Station Train And Tram Interchange – 6th May 2026

I took these pictures, as I changed between the train and the tram.

Note.

  1. There is a level step-free subway between train and tram.
  2. There is a Holiday Inn hotel over the subway.
  3. There is also a Premier Inn within walking distance.
  4. There is a black-cab rank at the station.
  5. The tram is step-free.
  6. The Sainsburys is a big superstore.

This OpenRailwayMap shows the interchange.

Note.

  1. The tram tracks are shown in pink.
  2. The train tracks are shown in orange.
  3. There appears to be a drop-off loop for passengers.
  4. Blackpool & Fylde Multiversity seems to be being built behind Sainsburys.

Blackpool must now have one of the best provincial stations in the UK.

 

 

May 7, 2026 Posted by | Transport/Travel | , , | Leave a comment

Approach To Blackpool North Station – 6th May 2026

I took these pictures as my train yesterday approached Blackpool North station.

 

Note.

  1. Blackpool North station has six platforms.
  2. The platforms are 277, 277, 217, 205,203 and 205 metres long respectively.
  3. It appears that 9-car Pendolinos can use Platforms 1-3.
  4. It appears that 11-car Pendolinos can use Platforms 1-2.
  5. It appears that HS2 Classic-Compatible trains will be able to use Platforms 1-3.

This OpenRailwayMap shows the layout of the train and tram tracks.

Note.

  1. Blackpool North station is indicated by the blue arrow in the middle of the map.
  2. The pink tracks are the Blackpool tramway.
  3. The black tracks in the North-East cornet of the map are the extensive Blackpool Carriage Sidings.

I took these pictures as I approached the station.

Note.

  1. Blackpool carriage sidings are extensive.
  2. There is even a train washer.
  3. Manchester are advertising their new Bee Network.
  4. Blackpool North station can handle 11-car Pendolinos.

Could trains like Pendolinos and HS2 Classic-Compatible trains have their overnight servicing in Blackpool, before they start their day with a fast service to London Euston starting with stops at Poulton-le-Fylde, Preston, Wigan North Western, Warrington Bank Quay and Crewe stations?

It does look to me, that Blackpool North station could be used much more efficiently, now that it is fully-electrified and Avanti have a fleet of 7-car Class 807 trains.

 

 

May 7, 2026 Posted by | Transport/Travel | , , , , , , , , , , | Leave a comment

National Grid Rollout New Technology To Expand The Capacity Of Existing Power Lines

The title of this post, is the same as that of this press release from National Grid.

These four bullet points act as sub-headings.

  • Latest rollout of Dynamic Line Rating (DLR) technology highlights spare capacity on existing power lines allowing greater power flows

  • New instalments on 585km of key north to south transmission network routes has the potential to save consumers up to £50 million in constraint costs

  • Over the last five years DLR has saved £21million in constraint costs and complemented upgrades to the existing transmission network (such as reconductoring and the use of power flow controllers) which have added over 16GW of new capacity to the existing network.

  • National Grid is unlocking more power from the existing grid faster and more cheaply, using innovative technology to meet increased demand, alongside constructing new infrastructure.

These first three paragraphs of the press release describe National Grid’s use of Dynamic Line Rating.

National Grid has announced a significant expansion of Dynamic Line Rating (DLR) technology across its electricity transmission network in England and Wales. Under a new five-year contract, Dynamic Line Ratings will be deployed across an additional 585km of key north-to-south transmission routes, potentially saving consumers up to £50 million over the next five years.

Meeting the growing demand for electricity requires both new infrastructure and smarter use of what already exists. DLR is an innovative yet proven technology that continuously monitors overhead line conditions to calculate a real-time capacity rating based on actual conductor behaviour and local weather, rather than the fixed conservative assumptions that have historically governed line ratings.

The result is a safe, reliable optimisation of available capacity on existing infrastructure, with the sensors and data analytics platforms allowing for a safe increase of the power carrying capacity of a circuit by an average of 8%. This reduces the need for constraint payments, where a generator is paid to stop generating to avoid overloading the electricity network.

This is an brilliant application of instrumentation, automation and very smart computing, that creates an average of eight per cent more capacity in the National Grid.

It’s like smart motorways for electrons, that from the press release appears to work.

I have some thoughts.

Reconductoring Is Mentioned

I suspect that the grid is highly instrumented and the grid can pick up areas that need to be replaced, but the masses of data a system like this will collect, will only improve their knowledge of the grid and give better predictions of where and how cables need to be replaced. Sophisticated modelling will also indicate, things like whether fatter cables here and there could squeeze more capacity into the network.

In the 1970s, I provided the software for the Water Resources Board to analyse and plan the pipelines and reservoirs for water supply in large parts of England.

Given that over the years, most of the problems over the years with the water industry, seem to apply to sewage, ownership, politics, equipment failure, rather than taps actually running dry, I suspect that Dr. Dimeloe and his team did a magnificent job. I would love to know the truth from one of the team.

As fifty years later, modelling software must be more sophisticated, I suspect a continuous analysis of the grid could give substantial benefits.

More And Better Sensors Will Be Developed

As needs arise, the systems will get more and more sophisticated and I wouldn’t be surprised to see the capacity of the grid increase by more than expected.

There Are 4,000 Miles Of High Voltage Overhead Lines In The UK

So if, National Grid can get an eight percent increase as the press release indicates, they might be able to add the equivalent of 320 miles to the electricity transmission network, without the hassle of applying for planning permission or dealing with Nimbies.

There might also be a cost saving as Google AI indicated that high voltage transmission lines cost around two million pounds per mile.

I Can Envisage Sophisticated Connection Networks For Offshore Wind Farms Using Coastal Or Even Offshore Batteries To Maximise The Energy Generated

Consider.

  • The output of a wind farm varies throughout the day and night.
  • Some of the variation in a wind farm’s output may be predictable.
  • Batteries and/or capacitors are good at smoothing variation in electrical power output and demand.
  • Capacitors are useful for smoothing out high-frequencies.
  • Highview Power are now building a 50 MW/300 MWh and a 500 MW/3.2 GWh battery, that both come with a sophisticated control system, they call a stability island providing inertia (frequency stability), short-circuit strength, and voltage control.
  • Dynamic Line Rating can be applied to the transmission line, that connects the wind farm and the battery to the grid.

Getting all these assets to work as a team, is a challenge some of the world’s best engineer/programmers would relish.

I could envisage, that systems like this could deliver hundreds of mill-pond smooth megawatts, that would be just what data centre owners wanted and needed.

Conclusion

The application of Dynamic Line Rating is going to revolutionise the electricity grid all over the world.

 

 

May 4, 2026 Posted by | Computing, Energy, Energy Storage | , , , , , , , , , , , , , , , | 2 Comments

Oman Set For Next Frontier In Energy Storage

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

This first paragraph introduces the story.

Oman’s solar story is already being written. Manah, Ibri II, and the next wave of solar IPPs moving through procurement have placed the Sultanate firmly among the region’s renewable leaders. The next chapter, the one every solar-rich nation is racing to author, is about the long-duration energy storage technology that powers the grid after sunset. Lithium-ion batteries handle the first few hours effectively. What comes after is the harder problem, and it is increasingly being solved by a technology called Liquid Air Energy Storage, or LAES: a technology that aligns naturally with Oman’s industrial base.

The article then describes how the technology to handle LAES technology aligns with all their expertise in handling liquified natural gas.

This paragraph outlines Oman’s expertise in cryogenic engineering.

Oman’s natural advantage in this race deserves far more attention than it has received. Cryogenic engineering, the discipline of holding substances at extraordinarily low temperatures without losing them, is the most demanding part of any LAES plant. It is also the foundation of the LNG export business that has run out of Qalhat for a quarter of a century. The workforce that liquefies natural gas at minus 162 degrees Celsius is the same workforce that can liquefy air. The insulation expertise, the compressor specifications, and the maintenance discipline are all already here, refined over decades and built locally. Few nations possess this depth of capability as a domestic resource. Oman does.

If Oman have called this one right, then any nation with plentiful renewable resources, of solar, hydro, offshore wind or geothermal, should be looking at Liquid Air Energy Storage.

This is not the first time, that Liquid Air Energy Storage has been paired with LNG.

Highview Power are the UK pioneers of Liquid Air Energy Storage and on the Projects page of their web site, there is this section on Japan.

Our investment partner Sumitomo Heavy Industries (SHI), together with Hiroshima Gas, is developing a grid‑scale LAES demonstration plant in Hatsukaichi, Hiroshima. The 5 MW, four‑hour facility will use waste cold from an adjacent LNG terminal to enhance efficiency and sustainability, showcasing the flexibility of Highview’s modular LAES technology. The plant is scheduled to be operational in 2025.

In Is Sumitomo Heavy Industries Highview Power Energy Storage System On Line At Hiroshima?, I describe how the Hiroshima plant held a completion ceremony on the 9th December, 2025.

Liquid Air Energy Storage and LNG may seem unlikely bedfellows, but when engineers share a few beers, joint projects seem to emerge.

 

May 4, 2026 Posted by | Energy, Energy Storage | , , , , , , , , , | Leave a comment

‘I Get To Work On The Most Scenic Railway Line In The World’

The title of this post, is the same as that of this article on the BBC. It is a quote from someone in the BBC article.

This is the sub-heading.

Have you heard the one about the railway line that was threatened with closure, so lots of people started using it and it was saved?

These three opening paragraphs add some detail to the story.

Welcome to the Settle to Carlisle line, the quirky steel road through some of Britain’s most magnificent countryside.

The line starts in Leeds and passes through Shipley and Skipton, but it is the section between North Yorkshire and Cumbria that is world-famous for its views.

Heading north from Settle, the peak of Pen-y-Ghent soon looms large, with Whernside and Ingleborough following a few miles later.

The saving of the line in the 1980s, is one of those classic British tales of a fight against bureaucracy, which like all these tales involved a dog, who gets a heroic mention in the BBC article.

In the next few sections, I will detail how improvements to the rail infrastructure between Bradford, Carlisle, Lancaster, Leeds have gradually developed the rail infrastructure, so that the Settle and Carlisle Line can play an increasing part in improving the economic outlook for a large area of England.

Is The Settle And Carlisle Line In Good Condition?

Google AI gives this answer to the question in the title of this section.

Yes, the Settle-Carlisle line is in good, operational condition and is considered a vital, well-maintained part of the National Rail network.

Despite a history of threatened closures and past structural issues, major investments have secured its future, and it currently carries over 1.2 million passengers a year.

Here is the current status of the line as of early 2026:

Infrastructure Condition: Following significant repairs, including a major £2.1 million project on the Ribblehead Viaduct completed in 2021 and extensive work at Eden Brows (2017), the line’s 14 tunnels and 22 viaducts are in good condition.

Active Usage: It is regularly used by Northern passenger services and is a designated diversionary route for mainline express trains when the West Coast Main Line is closed.

Operational Status: The line is fully operational, featuring regular commuter services, tourist trains, and steam heritage charter trains.

Safety & Upgrades: While it is a historic line, the infrastructure is deemed safe.

Occasional, isolated issues (like the 2022 freight derailment near Carlisle) have been managed with swift repairs.As of early 2026, the line is heavily used, with special passenger services and 150th-anniversary celebrations planned.

It’s probably in better condition, than many houses in the UK.

What Is The Operating Speed Of The Settle And Carlisle Line?

Google AI gives this answer to the question in the title of this section.

The Settle and Carlisle Line generally operates at a maximum speed of 60 mph/97 km/h.

While historically faster, this 60 mph limit is standard for modern passenger and freight services on the route.

Usage Examples and ContextPassenger Services: Northern Rail and various chartered services, including the scenic “Staycation Express” HST 125, operate along the route.

Freight: The line is used for heavy freight, including oil, timber, and cement trains.

Diversions: The line is frequently used as a, albeit slower, alternative route (approx. 2.5 hours for Leeds-Carlisle) during major West Coast Main Line (WCML) closures.

Scenic Tourism: The line is renowned as one of England’s most scenic, carrying over a million travelers annually, with notable sights like the Ribblehead Viaduct.

The Settle And Carlisle Line Is Well Connected To The Rail Network At The Northern End

This OpenRailwayMap shows how the line connects to the West Coast Main Line and the Tyne Valley Line, to the South of Carlisle.

Note.

  1. Electrified lines are shown in red and lines shown in black are not electrified.
  2. The electrified West Coast Main Line runs diagonally across the South-West corner of the map.
  3. The blue arrow on this line, indicates Carlisle station.
  4. The Northernmost of the two black cross lines is the Tyne Valley Line between Carlisle and Newcastle.
  5. The Southernmost of the two black cross lines is the Settle And Carlisle Line, which goes South to Settle, Bradford Forster Square, Leeds and Settle stations.
  6. The line going South-West joins the Cumbrian Coast Line, which joins the West Coast Main Line at Carnforth.

It does appear that the junction South of Carlisle is very comprehensive and allows very flexible routing.

The Settle And Carlisle Line Is Well Connected To The Rail Network At The Southern End

This OpenRailwayMap shows how the line connects to the West Coast Main Line and the Tyne Valley Line, to the North of Skipton.

 

Note.

  1. Electrified lines are shown in red and lines shown in black are not electrified.
  2. The blue arrow on this line, indicates Bradford Forster Square station.
  3. The fully-electrified Leeds station is in the South-East corner of the map. You can just pick out the ee of the name.
  4. The electrified Leeds-Bradford Line connects Bradford Forster Square and Leeds station via Shipley station and its triangular junction.
  5. The electrification continues in a North-Westerly direction as far as Skipton, where the red track stops.
  6. Electric intercity trains can run from London to Leeds, Bradford Forster Square and Skipton.
  7. Self-powered intercity trains can also run from London to Harrogate, which is on the line without electrification, that runs North from Leeds.
  8. Leeds receives a London service of two trains per hour (tph).
  9. Bradford Forster Square station receives a London service of one train per two hours (tp2h) via Leeds.
  10. Harrogate station receives a London service of 1 tp2h via Leeds.
  11. Skipton station receives a London service of one train per day (tpd) via Leeds.

The Leeds-Bradford area gets a frequent service to London and the South.

This OpenRailwayMap shows how the Settle and Carlisle Line connects to the electrification at Skipton.

Note.

  1. Electrified lines are shown in red and lines shown in black are not electrified.
  2. The only electrified lines on the map are at Skipton station in the South-East corner of the map.
  3. The blue arrow on this line, indicates Settle station.
  4. Skipton and Settle stations are 15.2 miles apart.
  5. Settle and Carlisle are 71.5 miles apart.

To bridge the gap in the electrification between Carlisle and Skipton, trains will need to be able to run 86.7 miles on their own power.

Bridging The Carlisle And Skipton Gap

But once the train gets to Carlisle or Skipton, the train will have the luxury of 25 KVAC overhead electrification to both power the train and charge any batteries.

In my opinion, there are three intercity trains coming into service, that could handle an 86.7 mile gap in electrification.

  1. East Midland Railways’s Class 810 train, which is a diesel bi-mode with lots of power, which is described in this Wikipedia entry.
  2. LNER’s Class 802 trains, which currently is a diesel bi-mode, that Hitachi could convert into a Hitachi Intercity Battery Train, which is described on this Hitachi web site.
  3. LNER’s Class 897 trains, which is a diesel tri-mode, that CAF are building in Spain and Wales, which is described in this Wikipedia entry.

In How Far Will A Hitachi Intercity Battery Train Travel Without Using The Electrification?, I answer the question for both Hitachi and CAF trains.

Surprisingly, I got the answer of a range of 120 miles for both the Hitachi and CAF trains. But could it be that Network Rail and the train companies wanted a range of 120 miles to electrify the UK rail network and so a 120 mile battery range was in the specification.

My estimate of 120 miles for Hitachi’s trains, was also confirmed by the company.

Bridging The Gaps

Some other distances, where gaps must be bridged include.

  • Sheffield and South Wigston – 69.4 miles
  • Holyhead and Chester – 84.4 miles
  • Exeter and Basingstoke – 124,3 miles
  • Fishguard Harbour and Cardiff Central – 119.1 miles
  • Aberystwyth and Shrewsbury – 81.5 miles
  • Bristol Temple Meads and Newbury – 70.8 miles
  • Inverness and Aberdeen – 108.3 miles
  • Carlisle and Glasgow Central via Dumfries – 115.9 miles
  • Hereford to Didcot Junction – 96.9 miles

120 miles could be a good fit.

Could it be that that distance was the range of a steam locomotive on a full load of water?

The Updating Of Bradford Forster Square Station

This is now a four-platform station, with two platforms able to take a pair of 5-car Hitachi or the new CAF 10-car Class 397 trains.

In Bradford Forster Square Station – 20th May 2025, I describe and show pictures of the updated station.

Bradford Forster Square station now gets seven trains per day to and from London King’s Cross via Leeds.

This article on the BBC, which is entitled New Platform’s Opening Gives Bradford More Trains has this sub-heading.

A new £35m platform at Bradford’s Forster Square Station has opened – boosting rail services in the city

£35million seems a lot of money to spend to just increase the number of services between King’s Cross and Bradford, even though 2025 was the year that Bradford was UK City of Culture, but there may be valid reasons to create a new route between London and Scotland, using the Settle and Carlisle Line.

  • The Settle and Carlisle Line is one of the UK’s most famous scenic routes with 20 viaducts, 14 tunnels and countless beautiful vistas along its 72 mile track.
  • You put the Mona Lisa on display, not in a store.
  • LNER now has battery-electric bi-mode trains, with CAF tri-mode trains due to enter service in 2028, that can both handle the 86.7 mile gap in the electrification in silence.
  • The CAF trains have extra diesel power, about which CAF is not disclosing much. This to me, suggests some innovative use.
  • There appear to be no flights between Leeds/Bradford Airport and Scotland.
  • There appear to be no direct trains between Glasgow and West Yorkshire.
  • A direct train between Glasgow and Leeds and Bradford Forster Square would add additional connectivity between Scotland and Yorkshire.
  • With the cancellation of High Speed Two, we need more train paths between London and Scotland.
  • Decarbonisation of aviation is difficult, but replacing fossil-fueled planes with zero-carbon trains is easier.
  • A single Class 897 train can carry 569 seated passengers, which is about 3.5 times the capacity of a single Airbus A320.
  • The proposed Leeds Metro would bring passengers to the new service.
  • Leeds and Bradford could see an upturn in tourism.

I also think the line will not be lightly used due to its iconic status.

How Would A Leeds/Bradford And Scotland Service Call At Bradford Forster Square Station?

  • Bradford Forster Square station now gets seven trains per day to and from London King’s Cross via Stevenage, Newark Northgate, Doncaster, Wakefield Westgate, Leeds and Shipley.
  • There is one fewer train on Sunday.
  • There is a triangular junction at Shipley station, which connects the three electrified lines to Leeds, Bradford Forster Square and Skipton.

This OpenRailwayMap shows Shipley station and the triangular junction.

Note.

  1. All rail lines are electrified and shown in red.
  2. The blue arrow on this line, indicates Shipley station.
  3. Shipley station appears to be in the middle of the junction.
  4. The line going East connects to Leeds station.
  5. The line going South connects to Bradford Forster Square station, which is at the end of the line.
  6. The line going West connects to Skipton station and the Settle and Carlisle Line.

Trains returning to London would reverse out of Bradford Forster Square station and take the Eastern route through Shipley and Leeds back to London.

  • An appropriate number of trains for Carlisle and Scotland, could surely just reverse out of the station and take the Western route through Skipton station and go on to the Settle and Carlisle Line.
  • The trains would call at Wakefield Westgate, Leeds, Shipley, Bradford Forster Square and Skipton stations in the Leeds/Bradford conurbation.
  • Other stations could be added to the route if required.
  • The trains would effectively reverse direction in their call at Bradford Forster Square station.
  • Going North the trains might check their battery levels in Bradford Forster Square station and use a fast-charger if necessary.
  • Going South, there would be no need for charging, as the route South from Bradford Forster Square station, is already fully-electrified.
  • Would the operator, use this longer stop to replace the crew with a fresh one?

It could be a simple and efficient way to run a London and Scotland service via the Settle and Carlisle Line.

What About Hull, Sheffield And York?

I’m asking this question, as Yorkshire is a large county and this article has only mentioned a few places, where people live and might need to go to London or Scotland.

In February, I wrote Northern Launches New Yorkshire Flyer Fast Service Between Leeds And Sheffield.

I’m fairly sure that Hull, York and other cities and large towns in Yorkshire already have a good regional service to Bradford Forster Square or Leeds station, which will give a good connection to the new service.

Could Dumfries Be Served By Using The Glasgow South Western Line?

This OpenRailwayMap shows the Southern part of the Glasgow South Western Line.

Note.

  1. Electrified lines are shown in red and lines shown in black are not electrified.
  2. The blue arrow on the black track, indicates Dumfries station on the Glasgow South Western Line.
  3. The red track is the West Coast Main Line.
  4. Carlisle is in the South-East corner of the map.
  5. Carlisle and Glasgow Central via Dumfries is 115.9 miles
  6. The Thames-Clyde Express, ran on this route until 1974.
  7. According to the Wikipedia entry for the Thames-Clyde Express, the train called at Dumfries and Kilmarnock stations.

From this brief look it appears that the new service could include Dumfries and should be able to serve the town on battery power.

Is More Capacity Needed On The West Coast Main Line Between Carlisle And Glasgow?

I asked Google AI, this question, to see if there is capacity.

This was the answer I received.

Yes, increased capacity and infrastructure enhancements are required on the West Coast Main Line (WCML) between Carlisle and Glasgow, as the line is currently full and unable to meet modern, growing passenger and freight demands.

Upgrades are necessary to tackle aging infrastructure, bottlenecks, and the need for more frequent services.

Key Aspects of the Need for Capacity:Full Capacity: The WCML is essentially full, with little space left for growth, despite 75 million passengers using it annually.

Freight and Passenger Growth: Passenger numbers are expected to double by 2050, and the line is a crucial artery for Anglo-Scottish freight.

Infrastructure Age: The northern section is undergoing its largest upgrade in half a century to address reliability issues.

Performance Bottlenecks: Specific locations, such as those north of Carlisle, require signaling and track improvements to prevent delays.

Proposed Upgrades: Current initiatives include a £400m investment until March 2029 for upgrades, including signalling and track renewals, though these are largely to boost reliability rather than provide a massive increase in capacity.

It looks to me, that a bit of a redesign and some use of battery trains on the Glasgow South Western Line, might squeeze a few more trains into the route.

 

 

 

 

 

May 2, 2026 Posted by | Artificial Intelligence, Transport/Travel | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , | Leave a comment

Is The 141 The Worst Bus Route In London?

Judging by the constant conversation on the 141 bus, that I take regularly, I thought with local elections coming up this week, this was a very timely question to ask Google AI.

Google AI gave me this answer.

The 141 bus route is often considered poor by passengers, though it is not officially ranked as London’s worst.

Criticisms center on overcrowding, issues with BYD electric buses, and reliability issues while traveling between Palmers Green and London Bridge.

Why the 141 Route is Criticized:

Overcrowding: The route is heavily used to connect outer areas like Turnpike Lane to Bank and Moorgate, leading to high passenger volume.

Vehicle Issues: Complaints have been made regarding the BYD double-deck buses used on this route, which have been described as having narrow seats, high steps, and poor handling of cold weather.

Reliability: The route has been affected by roadworks, such as on the North Circular.

Comfort: The back of the bus downstairs has been described as “pokey”.

While the 141 has negative feedback, other routes have officially received more complaints or had lower average speeds (e.g., the 14 bus).

According to, the 141 is popular for the Hopper Fare, but the issues with the buses make it a less-than-ideal journey.

I wonder who’s standing for election on a ticket, that includes improving the buses.

Google AI wasn’t any help.

 

May 1, 2026 Posted by | Artificial Intelligence, Transport/Travel, World | , , , , , , | Leave a comment

What Is The Collective Noun For Pedivans?

I took these pictures yesterday at the junction of Moorgate and London Wall.

Here’s what Google AI says on the subject.

I got nowhere with “What Is The Collective Noun For Pedivans?”

But  “What Is The Collective Noun For Cargo Bikes?” gave this answer.

While there is no single official dictionary definition, several creative and descriptive terms are used for a group of cargo bikes, with the most popular being a cargo collective.

Other popular suggestions from cargo bike enthusiasts include:

A “Quiver” of Urban Arrows: A play on words referring to the popular “Urban Arrow” brand.

A “Bakfiets” Generation/Showpiece: Often used to describe the large number of box-bikes in the Netherlands, as bakfiets means “box bike”.

A “Swarm” of Family Cyclists: Frequently used when many families are riding together, such as at a school drop-off.

A “Dazzle” or “Gaggle”: Sometimes used to describe the sight of several cargo bikes parked together.

The term “cargo collective” is often used to describe community groups of cargo bike users, such as in London.

Cargo Collective would fit what I saw.

April 30, 2026 Posted by | Artificial Intelligence, Transport/Travel | , , | Leave a comment

Across London At The Back Of A 38 Bus

To get to see Banksy’s new statue, that I wrote about in Banksy’s New Statue In Waterloo Place, I took to 38 bus from behind my house to Piccadilly Circus.

I sat in the two seats at the back of the bus and took these pictures on the route.

Note.

  1. The fourth picture shows the statue of Hugh Myddleton at Islington Green.
  2. Pictures 41-45 show the distinctive Centre Point and the major interchange of Tottenham Court Road station.
  3. Foyles is in Picture 50.
  4. A zedwell capsule hotel in the Picture 58. It has over a 1,000 capsules.
  5. The last two pictures show Piccadilly Circus with Eros.

From Piccadilly Circus, I just walked down Regent Street to Waterloo Place.

April 30, 2026 Posted by | Transport/Travel, World | , , , , , , , , | Leave a comment

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