The Anonymous Widower

A Hydrogen-Powered Locomotive

If Alstom’s ventures in Germany and the UK with hydrogen-powered trains, are successful, I don’t think it will be long before engineers start thinking about a hydrogen-powered locomotive.

Consider some of the various locomotives used in the UK.

  • Class 66 – Diesel – 2,500 kW – Over 400 in service
  • Class 67 – Diesel – 2,400 kW – 30 in service
  • Class 68 – Diesel – 2,800 kW – 34 in service
  • Class 70 – Diesel – 2,800 kW – 37 in service
  • Class 88 – Diesel – 700 kW – Electric – 4,000 kW – 10 in service
  • Class 90 – Electric – 3,700 kW – 50 produced.
  • Class 91 – Electric – 4,800 kW – 31 produced
  • Class 92 – Electric – 5.000 kW – 46 produced.

Note.

  1. Many of the diesel locomotives, like the Class 66, don’t meet the latest emission regulations.
  2. Class 66 locomotives spent a lot of time pulling freight trains on electrified lines.
  3. The Class 90 electric locomotives are getting old and need careful maintenance.
  4. The Rail Minister, Jo Johnson, would like to see diesel power on UK railways gone by 2040.

I have not included some of the heritage locomotives, that are regularly seen on the UK rail network pulling freight.

This picture shows a pair of Class 86 locomotives hauling a freight train through Hackney Wick station.

These two Class 86 locomotives date from the mid-1960s. But they do have 2,700 kW of power. Each!

According to Wikipedia, fourteen of Freightliner‘s thirty Class 86 locomotives are still in regular use.

Not only is this a tribute to 1960s engineering, but it does show that there is a shortage of suitable locomotives in the UK.

So could a modern environmentally-friendly locomotive be developed to fill the gap?

A Look At The Class 88 Locomotive

There could be a clue as to what could be a useful power output in the design of the Class 88 locomotive.

  • These are a modern design from Shadler that entered service in 2017.
  • They have a power output of 4,000 kW from electricity.
  • They have a power output of 700kW from diesel.
  • They can switch between power sources automatically.
  • They can haul passenger trains, as well as heavy freight trains.
  • They comply with Euro III B emission limits.

Did Direct Rail Services make sure they got a correctly-sized locomotive with the right capabilities?

They obviously find the diesel Class 68 locomotive to their liking, as they have bought over thirty.

So they probably knew very well, the sort of power that they would need from a dual-mode electro-diesel locomotive.

On electricity, the Class 88 locomotive is more powerful than a Class 90 electric locomotive, which commonly haul heavy freight trains on the electrified network.

In this article in Rail Magazine, the following is said about Class 88 locomotives, operating from Preston to Glasgow.

When hauling the maximum permitted load of 1,536 tonnes on the 1 in 75 banks on this route, Class 88 has a balancing speed of 34mph in electric mode or 5mph in diesel mode.

This shows how a well-delivered 700 kW, isn’t that inadequate.

I suspect that there is sufficient power to bring a heavy freight train out of Felixstowe and the other ports without electrification.

So perhaps, we should take the specification of a Class 88 train, as a starting point for the specification of a proposed hydrogen locomotive?

Possible Routes And Duties

There are also some specific problems associated with various routes and duties, where the current UK fleet of locomotives are used.

InterCity 225 Trains

There are currently thirty-one InterCity 225 trains, running on the East Coast Main Line.

  • They are hauled by a 4,800 kW Class 91 electric locomotive.
  • The trains consist of nine Mark 4 coaches and a driving van trailer.
  • The trains were designed for 140 mph, but normally run at 125 mph.
  • The trains have a capacity of over five hundred passengers.
  • The trains could be made to meet all proposed access regulations for those with reduced mobility, with not a great deal of expensive work.
  • Most of the trains will be replaced by Class 800 trains in the next couple of years.
  • The trains are owned by Eversholt Rail Group, who are gaining a reputation for innovation.

The trains could probably give a few more years of service.

One suggestion, that has been made, would be to run the trains on the Midland Main Line.

  • Sections of the route allow running at 125 mph.
  • The route needs an urgent replacement for InterCity 125 trains.
  • The route is only to be electrified as far as Kettering and Corby.

So an alternative and powerful  locomotive would be needed, that could run on both lines with and without electrification.

The Class 91 locomotives are powerful beasts running on electricity, but with careful calculations, I’m sure that the power needed on lines with and without wires should be known.

The trains might also be formed of less coaches and selective electrification could be used in stations to accelerate the trains.

Note that accelerating the train to 125 mph, will be the major use of electricity. Hence, electrified stations would be welcome.

Expect some innovative proposals to use Mark 4 coaches from the InterCity 225 on the Midland Main Line.

Initially, could two Class 88 locomotives working in push-pull mode, handle say six Mark 4 coaches between London and Derby, Nottingham and Sheffield?

Who knows? But there are probably teams of engineers working away to create plausible solutions for the bidders for the new East Midlands Franchise, which will be awarded in April 2019.

Class 66 Locomotive Replacement

Because of their number, you see Class 66 locomotives everywhere on the UK network.

  • They haul long inter-modal freight trains.
  • They haul freight into and out of docks like Felixstowe, that are without electrification.
  • They haul engineering trains.
  • They are often seen hauling trains using diesel power on electrified lines.

But they are one of the most environmentally-unfriendly of diesel trains, which don’t meet the latest emission regulations.

How long before residents and rail passengers, start to complain about these locomotives, where electric haulage is possible?

I believe there is an increasingly urgent need for a go-anywhere replacement for the Class 66 locomotive.

It would appear, that the Class 88 locomotive, was specified so it can take over some of the duties of a Class 66 locomotive,

Could this see more orders for the Stadler locomotive?

I also believe that we could see other types of locomotive built to replace the Class 66 locomotive.

We might even see a locomotive with a lower power rating able to use electric or hydrogen power for work with all the smaller trains, that Class 66 locomotives haul.

Hydrogen Instead Of Diesel

The 700 kW diesel engine in a Class 88 locomotive is a Caterpillar C27, which drives an ABB alternator.

The engine alone weighs three tonnes.

By comparison Ballard make a hydrogen fuel cell that has an output of 100 kW, for a weight of  385 Kg.

This gives a weight of 2.7 tonnes for an output of 700 kW.

There will need to be a substantial battery. I estimate that a 500 kWh battery will weigh about eight tonnes.

On balance, the hydrogen-powered locomotive will probably be heavier than a diesel one, but it will have environmental advantages.

But with good design, I do think that a locomotive with similar performance to a Class 88 can be produced.

It might need to be longer and have more powered axles, to cope with extra weight.

Conclusion

I am led to the belief that a hydrogen-powered locomotive with sufficient power is possible.

They may be able to handle a lot of the duties of Class 66 locomotives, but I doubt they would be powerful enough for hauling full rakes of Mark 4 coaches.

It will be interesting to see, what solutions are proposed to solve the forthcoming rolling stock shortage on the Midland Main Line.

 

 

 

May 18, 2018 Posted by | Transport | , , , , | 1 Comment

Thoughts On Belgium’s Coastal Tram

I enjoyed riding Belgium’s Coastal Tram, which I wrote about in Riding The Coast Tram.

The Belgians appear to be upgrading it, with rebuilt stops, track replacement and new low-floor trams, so it must have a solid future.

The nearest we have in the UK to the Belgian tram is the Blackpool Tramway. But that is very different.

  • The Blackpool Tramway is just eleven miles long, as opposed to the Belgian Coast Tram’s forty-two miles.
  • Frequencies are roughly similar, but the Blackpool Tramway carries five million passenger per year, as opposed to about three million for the Belgian Coast Tram.
  • The Belgian tram uses metre gauge track, whereas Blackpool is standard gauge.
  • The Belgian Coast Tram connects to four railway stations, whereas the Blackpool Tramway is only getting a connection to Blackpool North station in 2019.

So could we see other coastal tramways developed around the world?

The Advance Of Technology

Both tramways are embracing modern low-floor trams, but also still run heritage tram services, so tram manufacturers seem to be able to update the ride experience to modern standards, without losing all the charm of heritage trams.

The next tramway technology will be the use of tram-train technology, which is currently being trialled between Sheffield and Rotherham on the Sheffield Supertram.

This can’t be used in Belgium, as the tram and railways have different gauges, but the technology could be used in Blackpool.

I have not seen the designs for the tramway stop at Blackpool North station, but with the right track layout, it would be possible for a tram-train like the Class 399 tram-train being trialled at Sheffield, to go between Preston and Blackpool North as a train and then take to the tramway to go North to Fleetwood or South to Starr Gate as a tram.

This technology is very applicable to extend railways through a terminal station, where there is convenient geography, as at Blackpool.

There must be many places around the world, where electric trains run to a coastal station, where an extension is possible with a tramway.

And then there is battery technology, which will be used in Birmingham with trams in a couple of years.

Extensions At Blackpool

Blackpool Tramway has various possibilities for extension.

  • Along the coast to Lytham St. Annes
  • Reinstating the Fleetwood Branch Line from Poulton-le-Fylde as a tramway.

Tram-trains and battery power could feature to save construction costs.

Along The North Norfolk Coast

This is a route, that could be developed, to ease the traffic problems in the area.

It could connect Kings Lynn and Sheringham stations.

Conclusion

There will be other coastal tram lines built.

 

May 18, 2018 Posted by | Transport | , , , | Leave a comment

Where’s The Beard News?

As a beard wearer for fifty years, I wonder if Harry will be hirsute tomorrow, like his great-great-grandfather, George V, was at his wedding.

 

This article in The Independent discusses the question.

It says this.

  • Beards are not allowed with Army dress uniforms.
  • The Queen is not a fan of beards.

But Harry is a Spencer, and there will be independent thought!

 

 

May 18, 2018 Posted by | Transport | , , , | Leave a comment