The Anonymous Widower

RWE And National Grid Answer New York Offshore Wind Call

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

This is the sub-heading.

Community Offshore Wind, a joint venture of RWE and National Grid Ventures, has submitted a proposal to the New York State Energy Research and Development Authority (NYSERDA) to develop 1.3 GW of new offshore wind capacity in response to New York’s expedited fourth competitive offshore wind solicitation.

These four paragraphs add more details.

This next phase of the project builds upon Community Offshore Wind’s provisional offtake award to deliver 1.3 GW of wind capacity as part of New York’s third solicitation for offshore wind. In total, the projects are expected to generate USD 4.4 billion in economic benefits to New York.

Combined with its provisionally awarded New York project, Community Offshore Wind is on track to deliver nearly USD 100 million in workforce and economic development investments, the developer said.

The new proposal includes nearly USD 50 million in funding for workforce and community initiatives, with a focus on creating opportunities for diverse New Yorkers and supporting local non-profit organizations.

The proposal also includes an investment of up to USD 10 million in the offshore wind supply chain, to help New York businesses prepare for the economic opportunities the growing industry will create. All of these commitments are contingent on NYSERDA’s final selections.

is this partly a result of the meeting between Energy Security Secretary Claire Coutinho and Germany’s Vice Chancellor, Robert Habeck, that I wrote abut in UK And Germany Boost Offshore Renewables Ties?

We certainly seem to be getting some good deals on renewable energy these days with the Germans and the Koreans.

Perhaps someone in the government is doing something right?

January 26, 2024 Posted by | Energy | , , , , , | Leave a comment

First Bid For Sheffield To King’s Cross Paths

The title of this post is the same as an article in the February 2024 Edition of Modern Railways.

I have covered this before in FirstGroup Applies To Run New London To Sheffield Rail Service.

These are extra pieces of information.

FirstGroup Says It’s Only A Start

This is a fragment from the article.

First says the service of two return services per day would enable testing of the market before considering more complex services as plans for the East Coast main line timetable and fleet plans develop. The service is planned to be an additional operation under the brand of existing open access operator Hull Trains, although it would be operated as ‘a separate free-standing daily set of services’.

 

Nothing is said, but expansion could be extra services or destinations beyond Sheffield.

Currently, Hull Trains run seven trains per day (tpd) between London and Hull, with two tpd extending to Beverley.

  • Would seven tpd be an objective for between Sheffield and King’s Cross?
  • Five-car Class 802 trains could run the services and look like they fit all the Sheffield, Woodhouse, Worksop and Retford stations.
  • Between Sheffield and Retford, the Sheffield and Lincoln Line is not very busy.
  • Paths between Retford and London could be a problem.
  • However, the new digital signalling would allow the Hull and Sheffield services to run as a flight in the same path, perhaps two or three minutes apart.
  • The trains would use one of the longer platforms at King’s Cross, which can accommodate two five-car Class 802 trains.
  • I suspect that the new service would use one of the through platforms at Sheffield.

I think, there are three possibilities for extending the service from Sheffield.

  • Huddersfield with a reverse and along the Penistone Line after calling at Meadowhall and Barnsley.
  • Leeds with a reverse and calling at Meadowhall and Barnsley.
  • Manchester Piccadilly calling at Hazel Grove and Stockport.

Note.

  1. I don’t think Huddersfield and Barnsley have a direct service to London.
  2. Huddersfield will be on the main electrified TransPennine route.
  3. Huddersfield station is being upgraded with more platforms and electrified.
  4. The Penistone Line is being upgraded.
  5. Leeds already has services from King’s Cross.
  6. Manchester Piccadilly could be used , when there are engineering works on the West Coast Main Line.

I feel that the Huddersfield service is the one that could be successful.

Hull Trains-Style Customer Service

This is a sentence from the article.

The level of customer service on board would match that which Hull Trains currently delivers.

I don’t think there’s anything wrong with that.

Woodhouse Station

This is a sentence from the article.

First says it will assess the requirement to invest in Woodhouse station to ensure its facilities are fit for purpose for long distance services and work in partnership with the station’s operator, as it did at Morpeth for Lumo services.

Woodhouse station certainly needs improvement.

Trains To Be Used

This is said in the article.

  • As they want to start services in 2025, it looks like they will use the available Class 221 or 222 trains.
  • But the article indicates that a consistent fleet for Hull Trains using possibly Class 802 trains would be best.
  • The route will be cleared for both types of trains.
  • Currently, overnight servicing for Hull Trains to Hull is done at Hull Botanic Gardens TMD.

I think that getting this route going by 2025 could give the project its own momentum and enable Hull Trains to add more trains to the fleet.

Timetable

Consider.

  • The timetable is based on two trains per day (tpd) in both directions, seven days a week.
  • The first train on Monday to Saturday from Sheffield leaves at 9:20, with the Sunday train forty minutes later.
  • The second train on Monday to Saturday from Sheffield leaves at 16:54, with the Sunday train twenty minutes later.
  • The first train on Monday to Saturday from London leaves at 12:48, with the Sunday train eight minutes later.
  • The second train on Sunday to Friday from London leaves at 19:56, with the Saturday train thirty-one minutes later.

Note.

  1. If there are no problems, one train could shuttle between London and Sheffield all week.
  2. As Hull Trains have been using one train to boost some services to ten cars, I suspect they could run the initial Sheffield service with a five-car only Hull service. But what happens if they have a train failure?
  3. If you catch the first train up from Sheffield and the last train down from London, you have 8 hours and 12 minutes in London on Monday to Friday, 8 hours and 43 minutes on a Saturday and 7 hours and 48 minutes on a Sunday.
  4. It looks like, there is good time to watch a show or a match on Saturday and have a meal before returning North.
  5. All last trains return to Sheffield about 22:00.

It looks to be a well-thought out professional-written timetable.

Timetabling From And To Huddersfield

This is a sentence from the article.

It is currently thought the first Up and last Down service will run as empty coaching stock via Meadowhall, so it is proposed to call there on such workings.

Suppose though what would be possible if the First Up and Last Down services started from Huddersfield.

  • A train between Huddersfield and Sheffield could call at Barnsley and Meadowhall.
  • Class 150 trains take around 80 minutes between Sheffield and Huddersfield via Barnsley.
  • Class 802 trains could probably do that route in an hour, once the Penistone Line has been improved.
  • The second train from London will arrive at Sheffield between 21:56 and 22:26.
  • The first train to London will leave from Sheffield between 09:20 and 09:57.

It looks to me, that the following would be possible every night.

  • The second Hull Train service from London arrives in Sheffield between 21:56 and 22:26.
  • It continues to Huddersfield, where it finishes its journey after dropping passengers at Meadowhall and Barnsley.
  • Overnight servicing is arranged.
  • In the morning, it runs to Sheffield, picking up passengers as required at Barnsley and Meadowhall.

The train then forms the first Hull Train service to London between 09:20 and 09:57.

Meadowhall, Barnsley and Huddersfield would get 1 tpd to and from London King’s Cross.

Conclusion

There is certainly scope to create a useful set of services between London King’s Cross and South Yorkshire.

 

 

January 25, 2024 Posted by | Transport/Travel | , , , , , , , , , , , , , , , , , , , | 1 Comment

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.

January 25, 2024 Posted by | Transport/Travel, World | , , | 2 Comments

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.

  1. There is a power car containing the hydrogen fuel cells and other gubbins behind the one or both locomotives.
  2. Hydrogen power is used, where there is no electrification.
  3. 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.

  1. No more electrification on these routes would be needed.
  2. The trains could use High Speed Two to wherever it goes.
  3. 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.

January 25, 2024 Posted by | Hydrogen, Transport/Travel | , , , | 13 Comments

British Gas Joins Forces With Samsung To Help Customers Power Smarter Energy Use

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

This is the sub-heading.

British Gas and Samsung have today announced the exciting first step in a long-term venture – aimed at helping customers better manage their energy use and increase the adoption of low carbon heating technologies in homes across Britain.

These are the first two paragraphs.

The collaboration will see British Gas integrate with Samsung’s SmartThings app to help customers optimise their home appliances to use energy when the cost and demand are lower. This is now possible through the integration of SmartThings Energy and British Gas’ PeakSave demand flexibility scheme informing customers (by sending notifications via their smartphone, TV or other compatible devices) of the best times to use household appliances to save money.

The PeakSave scheme includes PeakSave Sundays, running every Sunday until the end of February with half-price electricity from 11am to 4pm for British Gas customers and PeakSave Winter events which encourages customers to move their electricity use out of peak times when there is high demand on Britain’s energy grid.

As a Graduate Control Engineer, I believe that this could make optimising your energy use much easier.

  • It would surely be a lot easier to check usage on your phone rather than a smart meter, when you perhaps cook a ready meal, so that you can see if your microwave or traditional cooker is cheapest.
  • Suppose you and everybody, who lives with you are out for supper and British Gas want to cut off your gas for a reward, you can make an appropriate decision.
  • Hopefully, if you have the right controls, you’ll be able to switch lights and appliances off and on.

The possibilities are endless.

I shall certainly be looking at the reviews of this app.

There is a section in the press release called Scaling Up Low Carbon Heating Opportunities, where this is said.

The collaboration will also help support customers in their journey to decarbonising their homes by introducing smart technologies in a way that is simple and empowering. From early 2024, British Gas will include Samsung heat pumps in its offering to British households to support the UK’s commitment to reach net zero by 2050.

The venture will see specially trained British Gas surveyors and engineers working with consumers to explain the benefits of heat pumps and then conducting the installations on-site. Samsung will be supporting workforce training as part of their efforts to upskill the heating industry to ensure there are enough installers to service the expected growing demand.

British Gas also offers customers the chance to purchase heat pumps through flexible financing methods. This, combined with the recently increased UK Government Boiler Upgrade Scheme grant of £7,500, creates an attractive package of financing options to help people make the transition more affordable.

Various plumbers, who I would trust, have given me different views about heat pumps.

I suspect the Samsung’s SmartThings app might be able to simulate your energy usage with or without the heat pump, as it would know your energy use with your current boiler.

I was doing similar calculations for chemical plants in the early 1970s at ICI, using a PACE 231-R computer.

Consider.

  • It may look rather old fashioned, but it could solve a hundred simultaneous differential equations in one go.
  • Two similar computers linked together were the analogue half of NASA’s moon mission simulator.
  • Without these wonderful machines, NASA would not have been able to re-calculate the dynamics of Apollo 13 and the mission would be remembered as a disaster, rather than the first space rescue.

The average current smart phone has more computing power than a PACE 231-R.

What’s In It For Samsung?

I have a Samsung television, but unfortunately it has a screen fault because of age. So if I had the Samsung app and liked it, I might buy another Samsung TV.

Similarly, the app might give me a financial reason to buy a Samsung heat pump.

Samsung will sell more equipment.

What’s In It For Centrica?

Centrica would appear to be a loser, as bills will fall and they could be paying customers to not use energy.

But they are surely hoping that their market share will increase and I’m sure Samsung will give them a commission.

What’s In It For The Consumer?

Hopefully, they’ll get lower energy bills.

But also they might get a lot of convenience controlling their appliances and heating.

Conclusion

Using energy is becoming a computer game with monetary rewards.

Is the deal between Centrica/British Gas and Samsung another deal that has been brought to fruition by the Korean President’s visit to the UK?

It looks like this is the third recent deal signed between UK and Korean companies, after these two.

I suspect, there might be a few more deals, if Charles and Camilla really turned on the charm.

In Mersey Tidal Project And Where It Is Up To Now, I wrote about talks between Liverpool City Council and Korea Water about a tidal barrage of the Mersey. This project must surely be a possibility!

This is said in the Wikipedia entry for Korean Air under Fleet Plans.

At the Association of Asia Pacific Airlines Assembly in 2018, Korean Air announced that it was considering a new large widebody aircraft order to replace older Airbus A330, Boeing 747-400, Boeing 777-200ER and Boeing 777-300. Types under consideration for replacement of older widebody aircraft in the fleet include the Boeing 777X and Airbus A350 XWB. At the International Air Transport Association Annual General Meeting (IATA AGM) in Seoul, Chairman Walter Cho said Korean Air’s widebody order is imminent and it is considering an extra order of Airbus A220 Family including developing version, Airbus A220-500.

Note.

  1. Airbus A350 XWB have Welsh wings and Rolls-Royce engines.
  2. Airbus A220-500 are made in Canada with wings and composite parts from Belfast.  Rolls-Royce may have a suitable engine.

Could a deal have something in it for the UK?

Although Korea has its own SMR program, I wonder, if there could be a link-up between Korean industry and Rolls-Royce over SMRs?

 

 

 

January 24, 2024 Posted by | Business, Computing, Energy | , , , , , , , , , , , , , , , , , , | 1 Comment

BESS Projects Represent ‘Encouraging Progress’ in New York Efforts To Replace Dirty And Polluting Peakers

The title of this post, is the same as that of this article on Energy Storage News.

These are the first three paragraphs.

Battery storage is playing an active role in helping New York City retire its fleet of peaker power plants, with around 700MW of its most polluting power generation assets already fully retired.

According to a new report, 4,019MW – about two-thirds of a 6,093MW fleet – has either retired or put in place plans to replace turbines with cleaner technologies since New York adopted its climate goals and environment protection policies in 2019.

In addition to 700MW already retired, around the same amount again is actively being moved towards end of life.

Note.

  1. Just over 6,000 MW seems a lot of extra peaker power, even for a city as large as New York.
  2. But at least over 4 GW has been retired or the plans to replace it with cleaner technologies are in place.
  3. The New Yorkers certainly seem to be getting on with the conversion, with about a GW/per year either retired or planned to do so.

The article says this about batteries.

Battery storage is one of a number of different technologies that can be used to replace peaking capacity. While lithium-ion batteries with 4-hour duration might be the most directly analogous in terms of technical capability to peakers, effectively retiring the power plants could be facilitated with a combination of other resources including rooftop solar, offshore wind and energy efficiency measures.

I find the 4-hour duration interesting, but I suspect the Yanks know what they’re doing.

So if you were going to replace the 240 MW Glanford Brigg power station, which Centrica describe as a peaker station, with energy storage, you’d use a 240 MW/960 MWh battery, if you were working to New York rules.

Batteries in the UK, that I’ve talked about lately include.

Amp Hunterston – 400 MW/800 MWh – 2 hours

Amp Kincardine – 400 MW/800 MWh – 2 hours

  • Carlton Energy Park – 1040 MW/2080 MWh – 2 hours – Close to an 884 MW gas-fired power station.
  • Coalburn – 500 MW/1000 MWh – 2 hours- Close to a 946 MW collection of wind farms.
  • Gateway Energy Centre – 450 MW/900 MWh – 2 hours – Close to an 732 MW gas-fired power station.
  • Normanton Energy Reserve – 500 MW/1000 MWh – 2 hours
  • Richborough Energy Park – 100 MW/100 MWh – 1 hour
  • Spalding Energy Centre – 550 MW/1100 MWh – 2 hours – Close to an 860 MW gas-fired power station.

Note.

  1. The first field is Output/Storage Capacity.
  2. The second field is the duration.
  3. I have assumed Spalding Energy Centre is another two hour duration system, like Gateway Energy Centre, which is also being developed by Intergen.
  4. Two hours seems to be the most common duration for a UK battery.

Adding the batteries up gives a virtual 3940MW/7780MWh battery.

It amazing how they add up to quite large values. But then every little helps!

And these are only the ones I’ve talked about.

January 23, 2024 Posted by | Energy, Energy Storage | , , , , , | Leave a comment

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.

  1. To learn more visit hyperTunnel’s web site.
  2. 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.

 

 

January 23, 2024 Posted by | Transport/Travel | , , , | Leave a comment

The Biggest Strawberry In The World

I eat a lot of strawberries, either as fruit or as jam on a scone or bread.

  • I always have done since I left home to go to Liverpool University.
  • I do wonder, if it was a subconscious decision on my part, as my body reacted to all the alternatives like puddings with all their gluten.
  • Certainly, by the time, I was married, I know that I always annoyed my mother-in-law by never eating her gluten-rich puddings.
  • Strawberries were also my wife’s passion, when she was pregnant.

Have other coeliacs avoided gluten before diagnosis. I certainly did.

Today, I bought a punnet of strawberries in Marks & Spencer.

Note.

  1. They were Spanish strawberries.
  2. To say they were large would be an understatement.
  3. One weighed in at a massive 64 grammes.

But they all tasted fine with a good texture!

 

January 22, 2024 Posted by | Food | , , | Leave a comment

H2 Green Steel Raises More Than €4 billion In Debt Financing For The World’s First Large-Scale Green Steel Plant

The title of this post, is the same as that of this press release from H2 Green Steel.

This is the sub-heading.

H2 Green Steel signs definitive debt financing agreements for €4.2 billion in project financing and increases the previously announced equity raised by €300 million. Total equity funding to date amounts to €2.1 billion. The company has also been awarded a €250 million grant from the EU Innovation Fund. H2 Green Steel has now secured funding of close to €6.5 billion for the world’s first large-scale green steel plant in Northern Sweden.

These three paragraphs describe the company and outlines the financing.

H2 Green Steel is driving one of the largest climate impact initiatives globally. The company was founded in 2020 with the purpose to decarbonize hard-to-abate industries, starting by producing steel with up to 95% lower CO2 emissions than steel made with coke-fired blast furnaces. The construction of the flagship green steel plant in Boden, with integrated green hydrogen and green iron production, is well under way. The supply contracts for the hydrogen-, iron- and steel equipment are in place. A large portion of the electricity needed has been secured in long-term power purchase agreements, and half of the initial yearly volumes of 2.5 million tonnes of near zero steel have been sold in binding five- to seven-year customer agreements.

Today H2 Green Steel announces a massive milestone on its journey to accelerate the decarbonization of the steel industry, which is still one of the world’s dirtiest. The company has signed debt financing of €4.2 billion, added equity of close to €300 million and been awarded a €250 million grant from the Innovation Fund. Funding amounts to €6.5 billion in total.

H2 Green Steel has signed definitive financing documentation for €3.5 billion in senior debt and an up-to-€600 million junior debt facility:

Note.

  1. I first wrote about H2 Green Steel about three years ago in Green Hydrogen To Power First Zero Carbon Steel Plant.
  2. The Wikipedia entry for Boden in Northern Sweden, indicates it’s a coldish place to live.
  3. In that original post, H2 Green Steel said they needed €2.5 billion of investment, but now they’ve raised €4 billion, which is a 60 % increase in financing costs in just three years.

Is this Sweden’s HS2?

The Future Of Green Steelmaking

The finances of H2 Green Steel look distinctly marginal.

I have a feeling that green steel, as the technology now stands is an impossible dream.

But I do believe that perhaps in five or ten years, that an affordable zero carbon method of steel production will be developed.

You have to remember, Pilkington developed float glass in the 1950s and completely changed an industry. Today, we’d call that a classic example of disruptive innovation.

The same opportunity exists in steelmaking. And the rewards would be counted in billions.

 

January 22, 2024 Posted by | Energy, Finance & Investment, Hydrogen | , , , , , | 2 Comments

The UK-Wide Need For Self-Powered Trains

How Many Diesel Trains Are In Service In The UK?

Class 150 trains

These are 75 mph BR Second Generation trains.

Class 153 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.

Class 155 trains

  • Northern Trains – 7 x two-car.
  • In Service – 7 x two-car.

These are 75 mph BR Second Generation trains.

Class 156 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.

Class 158 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.

Class 159 trains

These are 90 mph BR Second Generation trains.

Class 165 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.

Class 166 trains

  • Great Western Railway – 21 x three-car.
  • In Service – 21 x three-car.

These are 90 mph BR Second Generation trains.

Class 168 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.

Class 170 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.

Class 171 trains

  • Southern – 17 x three-car.
  • In Service – 17 x three-car.

These are 100 mph Turbostar trains.

Class 172 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.

Class 175 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.

Class 180 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.

Class 185 trains

These are 100 mph Desiro trains.

Class 195 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.

Class 196 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.

Class 197 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.

Class 220 trains

  • CrossCountry – 34 x four-car
  • In Service – 34 x four-car

These are 125 mph Bombardier Voyager trains.

Class 221 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.

Class 222 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.

Class 231 trains

  • Transport for Wales – 11 x four-car.
  • In Service – 11 x four-car.

These are 90 mph Stadler FLIRT bi-mode trains.

Class 755 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.

Class 756 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.

Class 800 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.

Class 802 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.

Class 805 trains

These are 125 mph Hitachi AT-300 trains.

Class 810 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.

  1. The trains have mostly Cummins engines, with some Perkins and a spattering of Rolls-Royce.
  2. Class 150,153, 155 and 156 trains are 75 mph trains and most of the others are capable of 90 mph.
  3. Condition of the interiors is variable, with some being excellent and others being terrible.
  4. There are 36 x one-car, 459 x two-car and 59 x three-car.
  5. There appears to be no plan to decarbonise these trains.
  6. 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.

  1. The trains all have Rolls-Royce mtu engines.
  2.  They are capable of 100 mph.
  3. Condition of the interiors is generally good.
  4. There are 67 x two-car, 112 x three-car and 13 x four-car.
  5. Rolls-Royce mtu engines may be able to run on sustainable fuel like Hydrotreated Vegetable Oil (HVO).
  6. 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.

  1. The trains all have Cummins engines.
  2.  They are capable of 100 mph or 125 mph.
  3. Condition of the interiors is generally good.
  4. There are 9 x two-car, 66 x three-car, 59 x four-car, 53 five-car and 4 x seven-car.
  5. Cummins engines may be able to run on sustainable fuel like Hydrotreated Vegetable Oil (HVO).
  6. In Grand Central DMU To Be Used For Dual-Fuel Trial, I described innovative fuel trails in a Class 180 train.
  7. 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.

  1. The trains all have Rolls-Royce mtu engines.
  2.  They are capable of 100 mph.
  3. Condition of the interiors is probably as-new!
  4. There are 88 x two-car, 59 x three-car and 14 x four-car.
  5. All these trains were ordered between 2016 and 2018.
  6. 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.

  1. The trains all have Rolls-Royce mtu engines.
  2.  They are capable of between 75 and 100 mph.
  3. Condition of the interiors is probably as-new!
  4. There are 21 x three-car and 52 x four-car.
  5. All these trains were ordered between 2016 and 2018.
  6. 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.

  1. The trains all have Rolls-Royce mtu engines.
  2.  They are capable of 125 mph.
  3. Condition of the interiors is probably as-new!
  4. There are 123 x three-car and 63 x nine-car.
  5. Most were built after 2016.
  6. Rolls-Royce mtu engines may be able to run on sustainable fuel like Hydrotreated Vegetable Oil (HVO).
  7. 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.

 

 

January 22, 2024 Posted by | Transport/Travel | , , , , , , | 1 Comment

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