The Anonymous Widower

GWR Buys Vehicles Outright In HST Fleet Expansion

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

This is the introductory paragraph.

Despite concerns over future passenger numbers, the Department for Transport has given permission for Great Western Railway to procure three more shortened HST diesel trainsets, branded as the Castle Class by the franchisee.

These pictures show some of the Castle Class trains.

They must be profitable and/or popular with passengers.

If I have a problem with these trains, it is with the Class 43 diesel power cars.

  • Each train has two power cars.
  • It would appear that there are about 150 of the Class 43 power cars in regular service.
  • Each is powered by a modern MTU 16V4000 R41R diesel engine, that is rated at 1678 kW.
  • The engines are generally less than a dozen years old.
  • They will be emitting a lot of carbon dioxide.

As the trains are now only half as long as they used to be, I would suspect, that the engines won’t be working as hard, as they can.

Hopefully, this will mean less emissions.

The article says this about use of the fleet.

With its fleet now increasing to 14, GWR expects to use 12 each day on services across the west of England. Currently the fleet is deployed on the Cardiff – Bristol – Penzance corridor, but the company is still evaluating how the additional sets will be used.

It also says, that they are acquiring rolling stock from other sources. Some of which will be cannibalised for spares.

Are First Rail Holdings Cutting Carbon Emissions?

First Rail Holdings, who are GWR’s parent, have announced in recent months three innovative and lower-carbon fleets from Hitachi, for their subsidiary companies.

Hitachi have also announced a collaboration with Hyperdrive Innovation to provide battery packs to replace diesel engines, that could be used on Class 800 and Class 802 trains.

First Rail Holdings have these Class 800/802 fleets.

  • GWR – 36 x five-car Class 800 trains
  • GWR – 21 x nine-car Class 800 trains
  • GWR – 22 x five-car Class 802 trains
  • GWR – 14 x nine-car Class 802 trains
  • TransPennine Express – 19 x five-car Class 802 trains
  • Hull Trains – 5 x five-car Class 802 trains

Note.

  1. That is a total of 117 trains.
  2. As five-car trains have three diesel engines and nine-car trains have five diesel engines, that is a total of 357 engines.
  3. In Could Battery-Electric Hitachi Trains Work Hull Trains’s Services?, I showed that Hull Trains could run their services with a Fast Charging system in Hull station.
  4. In Could Battery-Electric Hitachi Trains Work TransPennine Express’s Services?, I concluded that Class 802 trains equipped with batteries could handle all their routes without diesel and some strategically-placed charging stations.

In the Wikipedia entry for the Class 800 train, there is a section called Powertrain, where this is said.

According to Modern Railways magazine, the limited space available for the GUs has made them prone to overheating. It claims that, on one day in summer 2018, “half the diagrammed units were out of action as engines shut down through overheating.

So would replacing some diesel engines with battery packs, also reduce this problem, in addition to cutting carbon emissions?

It does appear to me, that First Rail Holdings could be cutting carbon emissions in their large fleet of Hitachi Class 800 and Class 802 trains.

The Class 43 power cars could become a marketing nightmare for the company?

Could Class 43 Power Cars Be Decarbonised?

Consider.

  • Class 43 power cars are forty-five years old.
  • They have been rebuilt with new MTU engines in the last dozen years or so.
  • I suspect MTU and GWR know everything there is to know about the traction system of a Class 43 power car.
  • There is bags of space in the rear section of the power car.
  • MTU are part of Rolls-Royce, who because of the downturn in aviation aren’t performing very well!

But perhaps more importantly, the power cars are iconic, so anybody, who decarbonises these fabulous beasts, gets the right sort of high-class publicity.

I would also feel, if you could decarbonise these power cars, the hundreds of diesel locomotives around the world powered by similar diesel engines could be a useful market.

What methods could be used?

Biodiesel

Running the trains on biodiesel would be a simple solution.

  • It could be used short-term or long-term.
  • MTU has probably run the engines on biodiesel to see how they perform.
  • Biodiesel could also be used in GWR’s smaller diesel multiple units, like Class 150, 158, 165 and 166 trains.

Some environmentalists think biodiesel is cheating as it isn’t zero-carbon.

But it’s my view, that for a lot of applications it is a good interim solution, especially, as companies like Altalto, will be making biodiesel and aviation biofuel from household and industrial waste, which would otherwise be incinerated or go to landfill.

The Addition Of Batteries

This page on the Hitachi Rail Ltd web site shows this image of the V-Train 2.

This is the introduction to the research program, which was based on a High Speed Train, fotmed of two Class 43 power cars and four Mark 3 carriages.

The V-Train 2 was a demonstration train designed in order to demonstrate our skills and expertise while bidding for the Intercity Express Programme project.

The page  is claiming, that a 20 % fuel saving could be possible.

This paragraph talks about performance.

The V-Train 2 looked to power the train away from the platform using batteries – which would in turn be topped up by regenerative braking when a train slowed down to stop at a station. Acceleration would be quicker and diesel saved for the cruising part of the journey.

A similar arrangement to that Hitachi produced in 2005 could be ideal.

  • Technology has moved on significantly in the intervening years.
  • The performance would be adequate for a train that just trundles around the West Country at 90 mph.
  • The space in the rear of the power car could hold a lot of batteries.
  • The power car would be quiet and emission-free in stations.
  • There would be nothing to stop the diesel engine running on biodiesel.

This might be the sort of project, that Hitachi’s partner in the Regional Battery Train; Hyperdrive Innovation. would probably be capable of undertaking.

MTU Hybrid PowerPack

I wouldn’t be surprised to find, that MTU have a drop-in solution for the current 6V4000 R41R diesel engine, that includes a significant amount of batteries.

This must be a serious possibility.

Rolls-Royce’s 2.5 MW Generator

In Our Sustainability Journey, I talk about rail applications of Rolls-Royce’s 2.5 MW generator, that has been developed to provide power for electric flight.

In the post, I discuss fitting the generator into a Class 43 power car and running it on aviation biofuel.

I conclude the section with this.

It should also be noted, that more-efficient and less-polluting MTU engines were fitted in Class 43s from 2005, so as MTU is now part of Rolls-Royce, I suspect that Rolls-Royce have access to all the drawings and engineers notes, if not the engineers themselves

But it would be more about publicity for future sales around the world, with headlines like.

Iconic UK Diesel Passenger Trains To Receive Green Roll-Royce Jet Power!

COVID-19 has given Rolls-Royce’s aviation business a real hammering, so perhaps they can open up a new revenue stream by replacing the engines of diesel locomotives,

I find this an intriguing possibility. Especially, if it were to be fitted with a battery pack.

Answering My Original Question

In answering my original question, I feel that there could be several ways to reduce the carbon footprint of a Class 43 power car.

It should also be noted that other operators are users of Class 43 power cars.

  • ScotRail – 56
  • CrossCountry – 12
  • East Midlands Railway – 39
  • Network Rail – 3

Note.

  1. ScotRail’s use of the power cars, is very similar to that of GWR.
  2. CrossCountry’s routes would need a lot of reorganisation to be run by say Hitachi’s Regional Battery Train.
  3. East Midlands Railway are replacing their Inter-City 125s with new Class 810 trains.

The picture shows the power car of Network Rail’s New Measurement Train.

These may well be the most difficult to decarbonise, as I suspect they need to run at 125 mph on some routes, which do not have electrification and there are no 125 mph self-powered locomotives. After the Stonehaven crash, there may be more tests to do and a second train may be needed by Network Rail.

Why Are GWR Increasing Their Castle Class Fleet?

These are possible reasons.

GWR Want To Increase Services

This is the obvious explanation, as more services will need more trains.

GWR Want To Update The Fleet

There may be something that they need to do to all the fleet, so having a few extra trains would enable them to update the trains without cutting services.

GWR Want To Partially Or Fully Decarbonise The Power Cars

As with updating the fleet,  extra power cars would help, as they could be modified first and then given a thorough testing before entering passenger service.

GWR Have Been Made An Offer They Can’t Refuse

Suppose Rolls-Royce, MTU or another locomotive power plant manufacturer has a novel idea, they want to test.

Over the years, train operating companies have often tested modified trains and locomotives for manufacturers.

So has a manufacturer, asked GWR to test something in main line service?

Are Other Train Operators Thinking Of Using Introducing More Short-Formed InterCity 125 Trains?

This question has to be asked, as I feel there could be routes, that would be suitable for a net-zero carbon version of a train, like a GWR Castle or a ScotRail Inter7City.

Northern Trains

Northern Trains is now run by the Department for Transport and has surely the most suitable route in the UK for a shorted-formed InterCity 125 train – Leeds and Carlisle via the Settle and Carlisle Line.

Northern Trains may have other routes.

Transport for Wales Rail Services

Transport for Wales Rail Services already run services between Cardiff Central and Holyhead using diesel locomotive hauled services and long distance services between South Wales and Manchester using diesel multiple units.

Would an iconic lower-carbon train be a better way of providing some services and attract more visitors to the Principality?

Conclusion

GWR must have a plan, but there are few clues to what it is.

The fact that the trains have been purchased rather than leased could be significant and suggests to me that because there is no leasing company involved to consult, GWR are going to do major experimental modifications to the trains.

They may be being paid, by someone like an established or new locomotive engine manufacturer.

It could also be part of a large government innovation and decarbonisation project.

My hunch says that as First Rail Holdings appear to be going for a lower-carbon fleet, that it is about decarbonising the Class 43 power cars.

The plan would be something like this.

  • Update the three new trains to the new specification.
  • Give them a good testing, before certifying them for service.
  • Check them out in passenger service.
  • Update all the trains.

The three extra trains would give flexibility and mean that there would always be enough trains for a full service.

Which Methods Could Be Used To Reduce The Carbon Footprint Of The Class 43 Power Cars?

These must be the front runners.

  • A Hitachi/Hyperdrive Innovation specialist battery pack.
  • An MTU Hybrid PowerPack.
  • A Rolls-Royce MTU solution based on the Rolls-Royce 2.5 MW generator with batteries.

All would appear to be viable solutions.

 

 

 

 

September 10, 2020 Posted by | Transport/Travel | , , , , , , , , , , , , , , , , | 1 Comment

Having A Bath – Steptoe Style

One the funniest episodes of the 1960s TV series; Steptoe and Son, is when the father has a bath.

In this episode, amongst other things, he washes his clothes in the bath, whilst washing himself.

I had a mask that needed a quick wash, and as my washing machine has died, I thought why not?

So armed with some Fairy Liquid, the mask joined me for a wash.

Incidentally, I like to have a hot bath every day, as I have very dry eyes, that always get bunged up with sleep. An optician in Vision Express suggested the bath to improve my eyesight and it seems to help.

September 10, 2020 Posted by | Health | , , , | Leave a comment

Beeching Reversal – To Reinstate The Keswick To Penrith Railway

September 10th – This Beeching Reversal project appears to have been rejected.

Thoughts On The Design Of The Route

Consider.

  • Keswick and Penrith are around 17.3 miles apart by road.
  • The rail distance should be less than 20 miles.
  • There could be perhaps six intermediate stations.
  • A battery electric train typically has a range of 55-65 miles.
  • A quiet battery electric train would be ideal for this route.

I believe that a battery electric train could handle this route.

  • Charging would be mainly in Penrith station, using the existing 25 KVAC overhead electrification in Platform 3.
  • A charging station would be provided in Keswick station to be safe.

A battery electric train could go between the two stations, recharge the battery and be ready to return in under an hour.

The route would be single track, except for a short double track station in the middle to allow trains to pass.

The route would not be electrified.

All stations could be single track, except for the passing station.

Two trains would be needed to work an hourly service.

Four trains would be needed to work an two trains per hour (tph) service.

Could the track could be designed to these criteria?

  • No level crossings.
  • Gentle curves and gradients
  • 80 mph operating speed.

I suspect modern computer technology, which was not available to the Victorians, would ease the design of an efficient track.

  • If a highly-efficient track could be created, it might be possible for a train to do a round trip from Penrith to Keswick, within an hour.
  • This would mean that one train could provide the hourly service.
  • Charging would only be at Penrith, using existing electrification.
  • The passing loop would not be built, but provision would be made to add it later, if the frequency were to be increased.

We could be seeing several of these highly-efficient branch lines run by 100 mph battery-electric trains, that are charged on existing electrified main lines.

The Effect Of High Speed Two

Consider.

  • Currently, there is a roughly hourly service in both directions on the West Coast Main Line at Penrith station.
  • High Speed Two will only provide an hourly service between Birmingham Curzon Street and Edinburgh or Glasgow via Wigan North Western, Preston, Lancaster and Carlisle.
  • Carlisle will have three tph on High Speed Two, between England and Scotland.
  • Carlisle will have scenic services to Edinburgh, Glasgow, Leeds and Newcastle.
  • Services between Carlisle and Penrith take thirteen minutes.

But most importantly, High Speed Two could bring lots of extra tourists to the area.

So would it be better for the Keswick and Penrith service to terminate at Carlisle?

  • Charging would now be on the West Coast Main Line.
  • Trains would only make a typical two-minute stop in Penrith station.

This would probably mean that an hourly service could be provided with only one train on the branch at a time.

Conclusion

I feel the economics of this project could be transformed by using battery electric trains on this proposed route and terminating them at Carlisle.

 

 

September 10, 2020 Posted by | Transport/Travel | , , , , , , , | 3 Comments

Siemens To Build One Of Europe’s Largest Energy Storage Systems

The title of this post, is the same as that of this article on Smart Energy International.

This is the introductory paragraph.

Siemens Smart Infrastructure and Fluence have been awarded a contract by the Portuguese energy provider EDA – Electricidade dos Açores to build a battery-based energy storage system on Terceira.

Read the article, as it shows how battery storage and advanced methods of generation, can transform the electricity systems of islands and other remote places.

We will be seeing many systems like this, all over the world.

September 10, 2020 Posted by | Energy, Energy Storage | , , | Leave a comment

Will There Be A Sports And Arts Bounceback As There Was After World War II?

This may be optimism, but after World War II, all sports had massive attendances, and I wonder if the same thing will happen, when we get a 100 % reliable vaccine against the covids?

There was even a great desire for fun during the war, as this news item on British Pathe, which is entitled Wartime Derby at Newmarket 1941 shows.

There are several horse racing videos of this period on YouTube.

Perhaps, the proximity of Newmarket to the major fighter base at Duxford, meant that the Luftwaffe didn’t feel safe to attack Newmarket in daylight? Or their intelligent was bad.

September 10, 2020 Posted by | Health, Sport | , , , , | Leave a comment