The Anonymous Widower

Taking A Bus In London? It Might Be Quicker To Walk

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

This is the sub-heading.

The mayor has been urged to review cycle lane and low-traffic policies after a watchdog revealed that average bus speeds had fallen as low as 6.6mph

After my weekend experiences that I wrote about in Struggling To Get Home From Moorgate Station, I would wholeheartedly agree.

But it’s all Londoners’ fault, as they had the chance to vote him out in May, but no party put up a creditable candidate.

So we’re stuck with SadIQ for another four years.

November 18, 2024 Posted by | Transport/Travel | , , | 1 Comment

Struggling To Get Home From Moorgate Station

In most cases to get back to my house, I take a convenient 141 bus from Moorgate station.

  • The bus stop at Moorgate is the same side of the road as the exit from Moorgate station.
  • At the stop at my home, I just cross the not very busy road and there is a zebra crossing, if the road is busy.
  • The walks at both ends are not more than fifty metres.
  • The 141 bus, used to share the route with the 21 bus, which meant there was a bus every five minutes.
  • The 21 buses are more comfortable New Routemasters.

Now, that the 21 bus no longer shares the route, timings of the 141 are much extended, with sometimes a wait of as long as 15 minutes.

This is because.

  1. The traffic has got a lot heavier.
  2. One fleet of buses, is taking both groups of passengers.
  3. Islington has laid out numerous Low Traffic Neighbourhoods.

Consequently, the remaining 141 buses have a much higher passenger density and I don’t always get a seat.

This Saturday and Sunday, the Elizabeth Line wasn’t running, so the buses were overcrowded.

On both days, I had to get a 76 bus from Moorgate to De Beauvoir Town, as I had waited for a long time and one had not been shown on the app.

Yesterday, I would have had to wait 26 minutes for the 141 bus to do the last mile to get home.

So I walked and took these pictures of Islington’s not so pretty pavements.

Compared to Hackney, they are not a pretty sight. And the pavements did make walking difficult.

As I did the last leg to my house, five 141 buses passed me, as Transport for London don’t believe in spreading them out, where there are punters.

Luckily, I wasn’t carrying anything heavy!

Today, I was even luckier in that a 141 bus stopped, soon after I got off the 76.

November 17, 2024 Posted by | Transport/Travel | , , , , , , , , , | 1 Comment

Avanti West Coast Increases Liverpool – London Services With Launch Of Electric Evero Trains

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

This is the sub-heading.

Avanti West Coast officially launched the Class 807 electric only-version of its Hitachi-built Evero trainsets into service on November 11. This enables the operator to offer an additional weekday return service between Liverpool Lime Street and London Euston.

On the 14th of November 2024, these services were run by new Class 807 trains.

  • 3F79 – 807001 – 2100 – Northampton to Liverpool Lime Street
  • 3F80 – 807001 – 0023 – Liverpool Lime Street to Edge Hill Depot
  • 5A99 – 807001 – 0836 – Edge Hill Depot to Liverpool Lime Street
  • 1A99 – 807001 – 0901 – Liverpool Lime Street to London Euston – 02:40
  • 1F12 – 807003 – 0743 – London Euston to Liverpool Lime Street – 03:07
  • 1A28 – 807003 – 1043 – Liverpool Lime Street to London Euston – 02:20

Note,

  1. I have shown all Class 807 movements that happened. Some possibly didn’t!
  2. There appear to be extra services, which I’ve marked with their times.
  3. Time seems to be available to go to Edge Hill Depot if needed.
  4. I suspect an open return ticket can be used on any train, that’s running.

Services seem to be slow, but they can be booked.

Avanti Are Ramping Up The Service

I suspect that as they add more trains, times will come down and a stop at Liverpool South Parkway will be added.

The Class 390 trains currently used on the Liverpool route are too long for Liverpool South Parkway station.

But seven-car Class 807 trains would fit easily.

The shorter and lighter seven-car Class 807 trains may well have faster acceleration and deceleration than the nine- or eleven-car Class 390 trains with their heavy tilting mechanism.

Could this extra performance mean that the Class 807 trains could still meet the timetable with extra stops?

In Is Liverpool Going To Get High Speed One-Point-Five?, I discussed various options for the London and Liverpool service.

I believe that a practical timetable like this could work.

  • Eleven-car Class 390 train – one tph – Non-stop or perhaps a single stop in the Midlands – Under two hours
  • Seven-car Class 807 train – one tph – Stopping at Nuneaton, Stafford, Crewe, Runcorn and Liverpool South Parkway – Current time or better

Note.

  1. An hourly service between London and Liverpool in under two hours would surely be a passenger magnet.
  2. Two tph would be a 43 % hourly increase in the number of seats between London and Liverpool.
  3. There would be better connections between Liverpool Lime Street and the East Midlands.

The Railway Gazette article also says this.

From the December timetable change AWC will supplement the current hourly Liverpool – London service with an extra two trains each way every weekday and a third service on Saturdays.

In the short term, AWC will not be delivering the long-standing plan for a half-hourly service on the route, but further services are to be introduced over the next year.

One constraint relates to the power supply. Network Rail has identified two locations where additional electric services cannot currently be accommodated, and discussions over a resolution are ongoing.

A fast service could also be applied to one of the London and Manchester services.

It should be noted, that the two hours and eight minutes record between Manchester and London Euston was set by an InterCity 225 in 1992, so perhaps a seven-car Class 807 could do better than a Class 390 train.

Could A Pair Of Class 807 Trains Leave Euston For Liverpool And Manchester, And Split At Crewe?

Train lengths are as follows.

  • Seven-car Class 807 train – 182 metres.
  • Fourteen-car Class 807 train – 364 metres.
  • Nine-car Class 390 train – 217.5 metres.
  • Eleven-car Class 390 train – 365.3 metres.
  • Caledonian Sleeper – 374 metres.

I suspect with perhaps a small amount of platform lengthening, a pair of Class 807 could be fitted into all stations, where they would need to call.

This might be a way of adding extra capacity and faster services to Manchester, without needing an extra path on the West Coast Main Line.

Could A Single Class 807 Train Call At Manchester Airport Station?

The platforms at Manchester Airport station are 192 metres long, so a single Class 807 train should fit.

This would allow an hourly service from Manchester Airport to the South, without a change at Manchester Piccadilly or Crewe.

To save paths, it could split and join with the second Liverpool service at Crewe.

Conclusion

The new Class 807 trains could increase performance to between London Euston and both Liverpool Lime Street and Manchester Piccadilly.

November 16, 2024 Posted by | Transport/Travel | , , , , , , , , , | 2 Comments

German Firm Plans To Build Britain’s Biggest Solar Farm

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

These three paragraphs outline the project.

The developers behind a controversial solar power project in Oxfordshire have submitted a planning application for what is thought will be the largest such scheme in western Europe.

The site in Botley West is being developed by Photovolt, a German company, and could generate 840 megawatts (MW) of electricity, enough to power about 330,000 homes.

However, the project has sparked a backlash among some local residents, who argue the scheme will blight the landscape.

A map shows the site and it is certainly a large one.

  1. The Botley West site will cover a total of about 3,200 acres.
  2. It will pass through 15 villages.
  3. About 1,235 acres will not be covered with solar panels.
  4. It has a web site, which gives more information.
  5. There is also a Stop Botley West web site.

I can certainly understand the opposition.

These are my thoughts.

I Would Add A Battery To The Panels

An added battery would undoubtedly smooth the output of the solar panels. Especially, when the sun is not out to play!

A total capacity of 840 MW is planned for Botley West and in my opinion as a Control Engineer, a sizeable battery is needed.

I would not use a Battery Energy Storage System or BESS based on lithium-ion batteries, as I believe that Highview Power’s liquid air batteries and others offer cost and environmental advantages. But that is one for the accountants and the environmentalists!

I Might Add A Few Appropriately-Sized Wind Turbines To The Farm

In Skegness Wind Turbine Trial To Light Up Pier In UK First, I discuss using small, vertical wind turbines from a Norwegian company called Ventum Dynamics.

This picture shows a Ventum Dynamics turbine on Skegness Pier.

On the Ventum Dynamics web site, there are several pictures of buildings with flat roofs, that have several turbines on each.

Surely, if you’re installing a comprehensive electrical network, then it should be used to collect all the electricity it can.

I believe that Ventum’s turbines could be alternated in a line with trees, so that they merged more into the countryside. Some experiments need to be done.

I Would Also Fit Solar Roofs To Suitable Buildings

Every little helps!

Conclusion

When mixing solar panels and wind turbines into the countryside, you need to be bold and discard preconceived ideas.

November 16, 2024 Posted by | Energy, Environment | , , , , , , | 2 Comments

Ricardo’s Hydrogen Fuel Cell Module Celebrates Key Milestone To Successfully Generating Power

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

This is the sub-heading.

Ricardo’s ground-breaking high-powered multi-stack hydrogen fuel cell module has reached a new milestone. Following its initial activation, the module is generating significant power output.

These are the first two paragraphs.

Initially developed to generate high energy output with zero-emissions for the maritime sector as part of the Sustainable Hydrogen Powered Shipping (sHYpS) project, the core technology is suitable for a wide range of high-power applications. Ricardo is already seeing strong interest from sectors including, stationary power, rail, off-highway and high-performance vehicles.

The module has already achieved Lloyd’s Register’s Approval in Principle for the system’s safety and certification approach for ocean-going applications. As well as the fuel cell power plant, the sHYpS project is developing a novel swappable liquid hydrogen storage solution, which can be adapted to multiple types of vessels and accelerate the achievement of the International Maritime Organisation’s decarbonisation targets.

Note.

  1. It seems to be a versatile fuel cell module.
  2. Ricardo also seem to have designed or sourced a novel refuelling solution.
  3. The power of the fuel cell module is not given.

I can see a lot of applications for a large fuel cell module.

 

November 16, 2024 Posted by | Energy, Hydrogen, Transport/Travel | , , | 1 Comment

HiiROC Partners With Siemens To Boost Clean Hydrogen Production

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

These two bullet points, act as sub-headings.

  • HiiROC and Siemens sign a Memorandum of Understanding to provide advanced control technology and ensure the safe automation of hydrogen production.

  • HiiROC’s Thermal Plasma Electrolysis (TPE) process produces clean hydrogen and solid carbon, using significantly less electricity than water electrolysis and without creating carbon dioxide.

These five paragraphs explain the deal.

Clean hydrogen producer HiiROC, has partnered with technology company Siemens on its hydrogen production technology, helping customers to decarbonise their operations and support their Net Zero ambitions.

Under the agreement, HiiROC will leverage Siemens’ control technology and factory and automation expertise to ensure the safe, efficient automation of hydrogen production and support in scaling.

HiiROC’s proprietary Thermal Plasma Electrolysis (TPE) technology is designed to meet rising demand for low-cost, scalable solutions for clean hydrogen production at the point of use, which helps to significantly reduce costs by removing the need for specialised storage and transportation.

The TPE process disassembles gaseous hydrocarbons into hydrogen and solid carbon without creating carbon dioxide. This highly efficient process, recognised under the UK’s Low Carbon Hydrogen Standard, requires only a fifth of the electricity of water electrolysis.

As a key technology partner, Siemens will collaborate with HiiROC to advance product development, while its global developer support community will help in achieving the hydrogen producer’s international expansion goals. Siemens, which has ambitious commitments to decrease carbon emissions and contribute to a more sustainable society, works with organisations across sectors to decarbonise using technology.

Many chemical processes are all about brute force and very large amounts of energy. This marriage made in chemical heaven, is all about elegance and finesse.

The investors in HiiROC are not without substance and include Melrose Industries, HydrogenOne, Centrica, Hyundai and Kia.

I wrote more about HiiROC and a similar process in Centrica Partners With Hull-Based HiiRoc For Hydrogen Fuel Switch Trial At Humber Power Plant.

November 15, 2024 Posted by | Energy, Hydrogen | , , , , , , , | 1 Comment

Race For Clean Power Surges Ahead As New Electricity Superhighway Greenlit

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

These three paragraphs, explain the infrastructure.

Flagged by the National Energy System Operator (NESO) as an essential element in achieving the Government’s Clean Power 2030 ambition, Eastern Green Link 1 (EGL1As part of its mission to rapidly upgrade the energy system with a minimum cost to customers, Ofgem has identified over £43m of savings which have been cut from the project costs without impacting delivery or quality. Communities that host the infrastructure in Scotland and North-East England are also set to benefit from a £7.9m social value and community benefit fund.) is a high voltage electricity superhighway able to transport 2 gigawatts of homegrown wind generated electricity between Torness, East Lothian and Hawthorn Pit, County Durham. A gigawatt (GW) is equivalent to one billion watts, and one gigawatt hour (GWh) of electricity is enough to power one million homes for one hour. Most of the 196km cable will be under the North Sea, with the remaining 20km of cables underground linking the cable to substations and converter stations in Scotland and England.

The project will reduce Great Britain’s reliance on volatile international gas markets by further harnessing the power of homegrown North Sea wind. NESO’s recent Clean Power 2030 Report has also shown that the project will deliver annual saving of over £870m by reducing the need to compensate British wind generators who are currently asked to turn off production during times of high wind due to lack of grid capacity. This in turn will help drive down consumer bills.

Note.

  1. Eastern Green Link 1 (EGL1) is a high voltage electricity superhighway able to transport 2 gigawatts of homegrown wind generated electricity between Torness, East Lothian and Hawthorn Pit, County Durham.
  2. This is the second down the eastern side of the UK.
  3. In Contracts Signed For Eastern Green Link 2 Cable And Converter Stations, I described how contracts were signed for EGL2 from Peterhead in Scotland to Drax in England .
  4. Most of the 196km cable will be under the North Sea, with the remaining 20km of cables underground linking the cable to substations and converter stations in Scotland and England.

There are another two 2 GW cables to follow in the current plan!

 

November 15, 2024 Posted by | Energy Storage | , , , , , , , | Leave a comment

9.58 GW of Renewable Energy Contracts Signed In UK’s Latest CfD Auction

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

This is the sub-heading.

The Low Carbon Contracts Company (LCCC), a UK government-owned company, has signed 130 contracts for a total of 9.58 GW of renewable energy generation, covering the projects that were successful in the country’s latest Contracts for Difference (CfD) allocation round 6 (AR6).

These three paragraphs give more detail.

AR6 secured a broad range of technologies from wind and solar to emerging, innovative projects like tidal and floating offshore wind.

Offshore wind developers were awarded contracts for approximately 5.3 GW of capacity.

In the Round 6 auction, nine contracts for fixed-bottom projects were awarded, totalling 4.9 GW, while a single contract was granted for a floating wind project to Green Volt Offshore Windfarm, a consortium of Flotation Energy and Vårgrønn.

Once operational, AR6 projects will see 9.58 GW of renewable generation coming online, bringing the total CfD capacity to 34.74 GW. According to LCCC, this is the highest number of contracts ever signed in a single round.

Note that this will add nearly a third to the UK’s current renewable capacity.

November 15, 2024 Posted by | Energy | , , , , , | 1 Comment

Rochdale Station – 12th November, 2024

Yesterday, I went to Rochdale station, to ascertain, the suitability of running a Lumo service between Euston and Rochdale stations.

Note.

  1. The building in the style of a mosque, is actually a Catholic church.
  2. The island tram platform is at right angles to the railway lines through the station.
  3. The tram takes you a short distance to the North to the town centre.

This map shows the station and the tram stop.

Note.

  1. The station has four platforms and two tram platforms.
  2. The two outer train platforms are quite long.
  3. The West-facing bay platform could probably take a five-car Lumo train.
  4. The tram platform runs North from the station.
  5. There is a co-working space by the tram-stop.
  6. There is a cafe in the station.
  7. There is a manned ticket office.
  8. Car parking is free.
  9. There are sixteen bicycle spaces.

With some tidying up, this could be a neat interchange.

These are my thoughts.

Will Rochdale Station Accommodate One Of Lumo’s Five-Car Trains?

The Wikipedia entry for Rochdale station, says this about the Bay Platform 4, that was used for the Cltheroe train.

In 2015, construction on a fourth railway platform began. The 135m-long bay platform was completed in 2016 and is used to relieve congestion at Manchester Victoria, where terminating trains would otherwise occupy the through platforms; numerous services now continue on to Rochdale as opposed to terminating at Victoria. It is located at the south end of the main island platform, with the southbound through line having been re-aligned slightly further east to accommodate the new terminating line and is used by the half-hourly stopping service from Blackburn/Clitheroe via Bolton and Victoria.

A 135 metre platform should be able to accommodate a five-car train with 27 metre carriages, so it looks like a 5-carriage Lumo train with 26-metre cars would fit in the bay platform 4.

Will Rochdale Station Accommodate A Pair Of Lumo’s Five-Car Trains?

Consider.

  • Lumo’s Hitachi trains, like all their siblings can run in pairs. As I reported in Ten-Car Hull Trains, Hull Trains do it regularly.
  • Rochdale station may or may not be able to accommodate a pair of five-car trains, but say if one of Manchester’s Premier League clubs was playing in the FA Cup Final, I’m sure they would find a way to run a ten-car train to London.
  • It looks like Warrington Bank Quay, Newton-le-Willows, Eccles and Manchester Victoria could all take 10-car trains.
  • Euston probably can as well, as 9-car and 11-car Class 390 trains are 217.5 and 265.3 metres respectively long respectively and a 10-car Lumo train would only be 260 metres.

Perhaps, one train can start at Rochdale and the other at Manchester Victoria, before they join at Victoria and go to London as a pair.

Could The Lumo Service Be Extended Across The Pennines?

Distances Along the Calder Valley Line to Leeds are as follows.

  • Rochdale 10.4 miles – 
  • Hebden Bridge – 23.6 miles
  • Halifax – 32.7 miles
  • Low Moor – 37.5 miles
  • Bradford Interchange – 40.4 miles
  • Leeds – 49.8 miles

Note.

  1. The 70 km. rang of a Lumo train will be 43.5 miles.
  2. The train can be charged at both end stations and will be fully charged, when it leaves Manchester Victoria and Leeds.
  3. There are short lengths of electrification at Manchester Victoria and Leeds.
  4. There may be extra electrification between Bradford Interchange and Leeds, in the next few years.

I am fairly certain, that a battery-electric Lumo Class 803 train will be able to provide a London Euston and Leeds service.

How Long Will Services Take?

Timings on the extended route from London Euston to Manchester Victoria, Rochdale, Bradford and Leeds would take.

  • London-Euston – Warrington Bank Quay – One hour and forty-four minutes – Current Avanti timings.
  • Warrington Bank Quay – Newton-le-Willows -Eleven minutes – Current Northern timings.
  • Newton-le-Willows – Eccles -Ten minutes – Current Northern timings.
  • Eccles – Manchester Victoria – Ten minutes – Current Northern timings.
  • Manchester Victoria – Rochdale – Fourteen minutes – Current Northern timings.
  • Rochdale – Hebden Bridge – Sixteen minutes – Current Northern timings.
  • Hebden Bridge – Halifax – Fifteen minutes – Current Northern timings.
  • Halifax – Low Moor – Six minutes – Current Northern timings.
  • Low Moor – Bradford Interchange -Ten minutes – Current Northern timings.
  • Bradford Interchange – Leeds – Nineteen minutes – Current Northern timings.

Totals.

  • London and Manchester Victoria – Two hours and fifteen minutes.
  • London and Rochdale – Two hours and twenty-nine minutes.
  • London and Bradford – Three hours and six minutes.
  • London and Leeds – Three hours and twenty-five minutes.

I suspect times could be speeded up a bit.

Proposed Developments Of Manchester Metrolink

This sub-title has its own Wikipedia entry.

Developments that would be beneficial to a Lumo service might include.

A station at Cop Road on the Oldham and Rochdale Line, that would support new housing.

Tram-trains between Oldham and Heywood On the Calder Valley Line.

These two developments will directly bring more passengers to the Lumo service, but because the Lumo service has links with the Metrolink at Eccles, Manchester Victoria and Rochdale any Metrolink improvements should benefit the Lumo service.

 

November 13, 2024 Posted by | Transport/Travel | , , , , , , , , | 4 Comments

A Simple Late Lunch

I’ve just had one of my typical late lunches.

It was one parcel of Marks and Spencer’s smoked salmon pate on toast, washed down with a half-litre bottle of Adnams  Ghost Ship 0.5 % beer.

O’ll probably have the second parcel of salmon for lunch tomorrow.

November 11, 2024 Posted by | Food | , , , | 2 Comments

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