The Anonymous Widower

Hydrogen Fuel Cells Could Get A Lot Cheaper With Newly Developed Iron Catalyst

The title of this post, is the same ass that of this article on Hydrogen Fuel News.

These are the first two paragraphs.

Scientists have been looking for an alternative to precious metals such as platinum for decades, in the hopes of bringing down the cost of hydrogen fuel cells.

An alternative to a platinum catalyst that costs considerably less will help to bring down the cost of hydrogen fuel cells and of using H2 as a carbon emission-free fuel. This would make it cheaper to both produce and use H2.

Researchers at the University of Buffalo, appear to be on the road to using iron as an affordable catalyst.

This paragraph describes he structure of the catalyst.

The researchers looked to iron because of its low cost and abundance. On its own, iron does not perform as well as platinum as a catalyst, particularly because it isn’t as durable in the face of highly corrosive and oxidative environments such as those within hydrogen fuel cells. The researchers bonded four nitrogen atoms to the iron in order to overcome that barrier, followed by embedding the material within a few graphene layers “with accurate atomic control of local geometric and chemical structures,” said Wu.

Gang Wu is leading the research.

In the early 1970s, I worked with one of ICI’s catalyst experts and he said, that improvements in this area will be large in the future.

Increasingly, I see his prediction being proved right, in the varied fields, where catalysts are used.

July 13, 2022 Posted by | Energy, Hydrogen | , , , , , , , , | 2 Comments

Network Rail Uses Tree Planting Initiative To Combat Graffiti Hotspot

The title of this post, is the same as that of this article on Rail Technology Magazine.

These two paragraphs introduce the article.

Network Rail has planted 35 trees, as part of its many sustainability initiatives, at a graffiti hotspot location in London with the hopes of acting as a vandalising deterrent whilst also improving the natural habitats within the area.

This action marks the first time that Network Rail have used ecological measures such as these to prevent graffiti and vandalism. The tree planting at the Bermondsey Dive Under – a junction where one set of rail lines tunnel under another – will not only create nicer visual stimulants for passengers and local residents but will also contribute to significant cleaning cost savings. It is estimated that the graffiti at the South-East London hotspot has cost taxpayers £150,000 in cleaning and rejuvenation works over the last 2 years.

I would expect that £150,000 buys a lot more than 35 trees.

These pictures show the trees from a train going Between East Croydon and London Bridge stations.

I also wonder whether those that are caught for painting the graffiti, should be sentenced to a community service order to plant new trees to stop the vandalism.

July 13, 2022 Posted by | Transport/Travel | , , , | Leave a comment

Rolls-Royce Secures Funding To Build Direct Air Capture Demonstrator

The title of this post, is the same as that of this press release from Rolls-Royce.

These are the two introductory paragraphs.

Rolls-Royce has secured £3m from the UK Government to build a demonstrator Direct Air Capture (DAC) system, which could play a vital role in keeping global temperature rises to below 1.5C by removing CO2 from the atmosphere.

The demonstrator funding comes from the Net Zero Innovation Portfolio (NZIP) through the Department for Business, Energy and Industrial Strategy (BEIS) and helps deliver on the UK Government’s 10 Point Plan for a Green Industrial Revolution. It follows initial Phase 1 funding of £250,000 awarded in 2021, that allowed Rolls-Royce to design the demonstrator in partnership with the Commonwealth Scientific and Industrial Research Organisation (CSIRO).

These two paragraphs, give a few clues to the technology.

Jess Poole, Direct Air Capture Lead for Rolls-Royce, said: “Every credible climate change model requires us to decarbonise today’s emissions, as well as removing CO2 already in the atmosphere via carbon negative technologies such as DAC. Our system combines our expertise in moving large quantities of air efficiently and integrating complex systems, which have been gained from designing world-leading jet engines, with novel DAC technology developed by CSIRO.

“Together the system works like a giant lung, sucking in air, absorbing the CO2, and releasing what is not wanted. We use a water-based liquid to wash around 50% of the CO2 from the captured air. Our technology is distinctive because very little water is used, and the liquid is recycled at low temperatures, making it energy efficient. Other technologies consume a lot of water and require substantial amounts of energy to generate heat for the separation of the CO2.

I was unaware of CSIRO, but that is not surprising, as they are Australian. They are introduced like this in their Wikipedia entry.

The Commonwealth Scientific and Industrial Research Organisation (CSIRO) is an Australian Government agency responsible for scientific research.

CSIRO works with leading organisations around the world. From its headquarters in Canberra, CSIRO maintains more than 50 sites across Australia and in France, Chile and the United States, employing about 5,500 people.

Their motto is “We imagine. We collaborate. We innovate.”

There’s certainly been several brilliant ideas and projects from the country in the last few years.

Is this another?

Another Problem With Carbon Dioxide

When I’m in an optimistic mood, I feel that scientists and engineers may develop so many ideas for the use of carbon dioxide, that we may need to burn natural gas in power stations, so we have the carbon dioxide for industrial or agricultural uses.

I know of one tomato grower, who uses a gas-powered combined heat and power boiler to heat his greenhouses. The carbon dioxide is fed to the tomatoes and any spare electricity is sold to the grid.

Direct Air Capture (DAC) systems might be needed to provide a carbon dioxide feedstock for some processes. Suppose in the tomato example, the grower is heating his greenhouses with an energy source, that doesn’t generate carbon dioxide, he might want to obtain his carbon dioxide from the air.

July 12, 2022 Posted by | Finance & Investment | , , , , , , | Leave a comment

York And Church Fenton Electrification

This news item from Network Rail is entitled Yorkshire’s First New Electric Railway In 25 Years Set To Cut Carbon And Slash Journey Times.

This section summarised the work

Work began on the York to Church Fenton electrification scheme in October 2019, and to date has delivered:

  • 17 kilometres of new, more reliable track, ready to run faster trains
  • An innovative 65-metre-wide under-track crossing
  • 270 new steel masts, which carry the overhead electric wires

When the new wires are energised, they will allow more environmentally friendly hybrid trains to run along this section at speeds of up to 125mph – that’s 30mph faster than they currently run.

This OpenRailwayMap shows between York and Church Fenton.

Note.

red lines indicate 25 KVAC overhead electrification.

York is in the North-East corner of the map.

Church Fenton is in the South-West corner of the map.

The track marked in red going South is the Selby Diversion, which was built in 1983 to avoid the Selby coalfield. It joins the York and Church Fenton route at Colton Junction.

The Colton Junction and Church Fenton section is marked in red and black, indicating this section is being electrified.

This second OpenRailwayMap shows between Church Fenton and Neville Hill TMD in the East of Leeds.

Note.

  • Church Fenton is in the North-East corner of the map.
  • Neville Hill TMD is the big black blob in the middle of the West edge of the map.
  • The route marked in red and black will probably be the next to be electrified.
  • Between Leeds and Neville Hill is electrified.

Electrification of Church Fenton and Neville Hill TMD means that the electrification between Leeds and York would be complete.

These services use this route between Leeds and York.

  • TransPennine Express – 1 tph – Liverpool Lime Street and Newcastle
  • TransPennine Express – 1 tph – Manchester Airport and Redcar Central
  • CrossCountry – 1 tph – Plymouth and Edinburgh Waverley

In addition, the new electrified route will have other effects.

Electric trains will have direct electrified access to Neville Hill TMD from York.

Micklefield is only 42 miles from Hull and with charging at Hull, I suspect TransPennine’s Manchester Piccadilly and Hull service could go battery-electric.

 

July 12, 2022 Posted by | Transport/Travel | , , , , | 15 Comments

Speed Limit To Be Lowered To 20mph In Wales

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

These four paragraphs describe the policy.

Speed limits in built-up areas look set to be reduced from 30mph to 20mph in Wales from next year – a UK first that is controversial among some drivers.

Ministers say a 20mph speed limit will lower road collisions and traffic noise and encourage people to walk and cycle.

The slower limit has been divisive in areas where there have been trials with some motorists complaining of more congestion and journeys taking longer.

The proposed new law will be put before a Welsh Parliament vote on Tuesday.

I’m not sure that it will work.

I live in a 20 mph zone in Hackney.

But cars and motor bikes still speed through at up to 50 mph, as there is no visible enforcement.

 

July 12, 2022 Posted by | Transport/Travel | , , | 3 Comments

Extending The Elizabeth Line – Improving The Route To Windsor & Eton Central Station

This post is now complete.

I took the Elizabeth Line to Slough station, for onward travel to Windsor & Eton Central station today and took these pictures along the route.

Note.

  1. I joined the Elizabeth Line at Moorgate station and took a train all the way to Paddington station.
  2. As a Freedom Pass holder, I use the Elizabeth Line for nothing.
  3. I changed between the Central and Western sections of the Elizabeth Line at Paddington.
  4. I also bought my Slough and Windsor & Eton Central ticket at Paddington from a machine, for the princely sum of £2.10. It was with a Senior Railcard.
  5. There is a lot of building going on along the route.
  6. The diesel train on the Slough-Windsor & Eton Line was a three-car Class 165 train.

I have some thoughts on how to improve the train service to Windsor.

What Do I Mean By Improving?

I don’t mean direct trains, as that would be impossible for various reasons.

  • Platform length at Windsor & Eton Central station would be a problem.
  • Flat crossing across the fast lines would slow the expresses.
  • To make the running efficient, a flyover would need to be built. The disruption of building it and the cost would be immense.

What is needed, is a system, which means that getting from Central Elizabeth Line stations to  Windsor & Eton Central station is as easily as possible.

Windsor Is One Of Our Premier Tourism Destinations

I suspect that on passenger numbers; Bicester Village, Cambridge, Oxford and Windsor are the four most visited tourist sites by rail from London.

I don’t think it’s a good idea to provide some of the services to these destinations, with the exception of Cambridge, with British Rail-era diesel multiple units.

Could A Four-Car Train Be Run On the Slough-Windsor & Eton Line?

I took this picture of the Slough end of the three-car Class 165 train in Windsor & Eton Central station.

 

It does appear that say a four-car Class 387 train could be fitted into the platform, with perhaps some adjustment to the platform and the track.

Would The Train Be Electric Or Battery-Electric Powered?

Consider.

  • The Slough-Windsor & Eton Line is only 2.5 miles long.
  • It is single-track.
  • Trains take six minutes to do the trip.
  • Modern electric trains with better acceleration could probably do the trip in four minutes.
  • A battery-electric train will need charging.

This OpenRailMap map shows the electrification at Slough station.

Note.

  1. 25 KVAC overhead electrification is shown in red.
  2. The Slough-Windsor & Eton Line leaves the map in the South-West corner of the map and runs into the electrified Bay Platform 1.
  3. The electrification in Platform 1 could be used to charge a battery-electric train.
  4. The  Slough-Windsor & Eton Line appears to be partially electrified at the Slough end.

I wonder, if the simplest, most-affordable, least risky approach  is to electrify the 2.5 miles with 25 KVAC overhead electrification, as it would allow a standard Class 387 train to work the route.

Operation Of The Shuttle

Currently, the Class 165 trains take six minutes between Slough and Windsor & Eton Central stations, which means that with turning the train at each end of the route, where the driver must walk seventy metres or so to change ends only a three trains per hour (tph)  schedule is possible.

If I look at some of the station-to-station stops on the Elizabeth Line, I suspect that a well driven electric train could go between Slough and Windsor & Eton Central stations in perhaps four minutes. With a well-marshalled stop at either end of the route in perhaps two minutes, it could be possible to do a round trip in twelve minutes, which would allow a four tph service.

Capacity would go up from nine cars per hour to sixteen. or an over seventy percent increase in capacity.

There are several ways that, this shuttle could operate.

  1. As now, where the drivers have to be fit to change ends in the time.
  2. Two drivers are used with one in each cab.
  3. Drivers walk back on arrival at the terminal and then step-up into the next train. This is standard London Underground practice at stations like Brixton and Walthamstow Central.
  4. The train is fully-automated and the driver sits in either cab with an override, that allows him to take control, if say protestors or criminals get on the track.

As a Control Engineer, I certainly feel the fourth option is possible.

Intriguingly, I suspect the concept could be proved with two drivers in an existing three-car Class 165 train, to see if four tph are possible.

Ticketing

Ticketing is less of a problem now, than it was before March 28th 2022, as from that date Windsor & Eton Central station is now in the contactless area, so you could touch in with your bank card at any station in the London contactless area and touch out at that station.

It’s all explained on this page on the Great Western Railway web site.

I am a Freedom Pass holder, which gives me the ability to get free travel to and from anywhere on the Elizabeth line for free, so getting to and from Slough for nothing, is no problem, if I use the Elizabeth Line.

But I would need a ticket for the section between Slough and Windsor & Eton Central stations.

Before I got on the Elizabeth Line at Moorgate, I tried to buy an extension ticket between Slough and Windsor & Eton Central stations, from the ticket machines at Moorgate, but it was not possible, so in the end, I made a detour to the ticket office at Paddington and bought the ticket there. But when the Elizabeth Line is fully connected, there will have to be a rethink, as Freedom Pass holders from say Ilford would want a day out in Windsor.

Perhaps the Slough-Windsor & Eton Central line should become a fixed-fare line, where a bank card would be charged say a pound for each journey.

Note that I only paid £2.10 for a return ticket at Paddington with my Senior Railcard.

A Better Interchange At Slough

Currently, the Off Peak frequency of trains at Slough is as follows.

  • Slough and Windsor & Eton Central – 3 tph
  • Slough and Paddington – Elizabeth Line – 2 tph
  • Slough and Paddington – Great Western Railway – 2 tph – Non-stop
  • Slough and Paddington – Great Western Railway – 2 tph – Stopping

In TfL Confirms Details Of Reading Services, I wrote that the Elizabeth Line will have 4 tph to London in the Off Peak, with two extra services in the Peak.

This indicates to me, that the Slough and Windsor & Eton Central service needs four tph.

 

 

 

July 11, 2022 Posted by | Transport/Travel | , , , , , , , , , , | 3 Comments

Global Electrolyzer Capacity To Reach 8.52GW By 2026

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

This is the first paragraph.

GlobalData’s latest report, ‘Hydrogen Electrolyzers Market Report Market Size, Share and Trends Analysis by Technology, Installed Capacity, Generation, Key Players and Forecast, 2021-2026’, reveals that the global electrolyzer capacity is estimated to grow to 8.52GW in 2026. Hydrogen is gaining prominence as a critical component of the energy transition, as significant policy support and government commitment to deep decarbonisation are spurring investments in hydrogen. By the end of 2021, seventeen governments released hydrogen strategies, with more than 20 governments publicly announcing that they are developing strategies, and numerous companies planning to tap business opportunities in hydrogen.

Hydrogen certainly appears to be coming.

In The Mathematics Of Blending Twenty Percent Of Hydrogen Into The UK Gas Grid, I calculated how much electricity would be needed to blend twenty percent of hydrogen into the UK gas grid.

To achieve this blending, which would reduce our carbon emissions by a large amount and still be compatible with existing boilers and appliances would 8.2 GW of electricity to generate the hydrogen.

The world needs to be developing more electrolysers for green hydrogen.

 

July 11, 2022 Posted by | Energy, Hydrogen | , | Leave a comment

Will We Run Out Of Power This Winter?

Someone asked me if we will run out of power, if Vlad the Mad cuts all the gas to Western Europe.

This was my reply.

It appears that this year, 3.2 GW of new offshore wind farms could start producing electricity, followed by similar amounts in both 2023 and 2024.

One of those to come on stream about now is the 1.4 GW Hornsea 2 wind farm!

The follow-up 2.9 GW Hornsea 3, signed a contract last week for delivery in 2026/27.

Moray East in Scotland and Triton Knoll off Lincolnshire, are also scheduled to come on stream this year and they’re around 900 MW each.

As someone, who used to write project management software, I hope the companies building these fields have enough resources, in terms of people, boats, cranes and money. But as the companies are all the Shells of the wind industry, I would hope they have got their sums right.

What About The Contracts for Difference Awarded In Allocation Round 4?

We are currently fighting two wars at the moment.

  • The main war in Ukraine, where we are giving that unfortunate country all the help we can.
  • The secondary war in the UK against energy prices.

Would it help our cause in both wars, if we produced more energy?

  • More renewable energy would reduce our dependence on imported gas.
  • The gas saved could go to Europe.
  • Europe would not be buying Vlad the Mad’s bloodstained gas.
  • Replacing gas with solar and wind power might reduce energy prices.

If I put myself in the position of a struggling farmer with a contract for difference to build a solar farm on a poor field, I would want that farm to be earning money as soon as possible.

  • Now that I have the contract can I start assembling that solar farm?
  • Similar arguments can probably be used for onshore wind, which must be easier to assemble, than offshore wind.
  • I don’t think that the hard-pressed energy suppliers would bother, if they received some quality cheap electricity earlier than they expected.
  • Obviously, all the cables and the substations would need to be in place.

So I think that it is reasonable to assume, that energy might ramp up quicker than expected.

It could even be more front-loaded, if all the installers got a shift on.

Every little helps!

New Renewable Energy In 2023?

These wind farms are scheduled for commissioning in 2023.

  • Neart Na Gaoithe – 450 MW
  • Sofia Offshore Wind Farm – 1400 MW
  • Seagreen Phase 1 – 1075 MW

We could see 2925 MW of offshore wind power commissioned in 2023.

New Renewable Energy In 2024?

These renewable energy sources are scheduled for commissioning in 2024.

  • Dogger Bank A – 1200 MW
  • Round 4 Solar – 125.7 MW
  • Dogger Bank B – 1200 MW
  • Dogger Bank C – 1200 MW

Note, where a windfarm is given a commissioning date of 2023/24  in Wikipedia , I will put it in 2024.

We could see  3726 MW of renewable energy commissioned in 2024.

New Renewable Energy In 2025?

These renewable energy sources are scheduled for commissioning in 2025.

  • Moray West – 1200 MW
  • Round 4 Solar – 1958 MW
  • Round 4 Onshore Wind – 888 MW
  • Round 4 Energy from Waste – 30 MW
  • Vanguard Boreas Phase 1 – 1400 GW

We could see  6476 MW of renewable energy commissioned in 2025.

New Renewable Energy In 2026?

These renewable energy sources are scheduled for commissioning in 2026.

  • East Anglia 1 North – 800 MW
  • East Anglia 2 – 900 MW
  • Round 4 Tidal Stream – 5.62 MW

We could see  1705 MW of renewable energy commissioned in 2026.

New Renewable Energy In 2027?

These renewable energy sources are scheduled for commissioning in 2027.

  • Round 4 Tidal Stream – 35.2 MW
  • Round 4 Floating Offshore Wind – 32 MW
  • Round 4 Offshore Wind – 5594 MW
  • Hornsea 3 Offshore Wind – 2852 MW
  • Hinckley Point C Nuclear – 3,260 MW

We could see  13173 MW of renewable energy commissioned in 2027.

Too Much Electricity!

Summarising the figures for new capacity gives.

  • 2022 – 3200 MW
  • 2023 – 2925 MW
  • 3024 – 3726 MW
  • 2025 – 6476 MW
  • 2026 – 1705 MW
  • 2027 – 11773 MW

This totals to 28554 MW.

One problem we may have is too much electricity and as we are not blessed with much storage in the UK, where will be able to put it?

In a strange way, Vlad the Mad may solve the problem, by cutting off Europe’s gas.

We have a few interconnectors, where we can export the electricity to allow the Belgians, Dutch, French and the Germans to have a shower.

It looks like construction may be starting soon for another interconnector. NeuConnect will have a capacity of 1.4 GW between the Isle of Grain and Wilhelmshaven.

Conclusion

If I was the German Chancellor, I’d do everything in my power to accelerate the construction of NeuConnect!

July 10, 2022 Posted by | Energy, Energy Storage | , , , , , , , , , , , , , , , | 24 Comments

2.2 GW Of Solar Farms To Be Installed In The UK

This document from the Department of Business, Industry and Industrial Strategy lists all the Contracts for Difference Allocation Round 4 results for the supply of zero-carbon electricity that were announced yesterday.

There were sixty-six solar power projects, that totalled up to 2.2 GW, which gives an average size of 33.3 MW.

  • Many complain that we don’t have enough sun in this country, so surely solar farms totalling up to 2.2 GW is an astonishing figure.
  • For a comparison, Hinckley Point C will supply 3.26 GW.
  • In Cleve Hill Solar Park, I wrote about the largest, which will be a 350 MW solar farm with a 700 MWh battery.
  • Sixty-one are in England, two are in Wales and surprisingly three are in Scotland, So being that far North isn’t as bad for solar power, as you might think.
  • It looks like 251.38 MW are proposed to be installed in 2023/24 and 1958.03 MW in 2024/25.

The Wikipedia entry for Solar Power In The United Kingdom, gives these numbers.

UK solar PV installed capacity at the end of 2017 was 12.8 GW, representing a 3.4% share of total electricity generation. Provisionally, as of the end of January 2019 there was 13,123 MW installed UK solar capacity across 979,983 installations. This is an increase of 323 MW in slightly more than a year. A new record peak generation from photovoltaics was set at 9.68 GW on 20 April 2020.

How many people correctly predicted that the UK would be be generating so much energy from the sun?

How Many Of These Solar Farms Will Be Co-located With Batteries Or Wind Farms?

Consider.

  • Cleve Hill Solar Park will be a 350 MW solar farm, that is co-located with a 700 MWh battery.
  • Is it significant that the battery could supply 350 MW for two hours?
  • It also connects to the grid at the same substation, that connect the London Array offshore wind farm.
  • As substations are complicated and probably expensive bits of electrical gubbins, sharing a substation is probably a good idea to save costs.

I hope that companies like wind and solar farm developers, the National Grid and Network Rail talk a lot to each other, so that efficient infrastructure is developed.

Conclusion

Over the years 2023 to 2025, we should develop these solar farms at a rate of around 0.7 GW per year.

Can we sustain that rate in the future or will we run out of land?

 

July 10, 2022 Posted by | Energy, Energy Storage | , , , | 6 Comments

Birth Of A Station

Thanet Parkway station is under construction and should be opened in May next year.

Work is progressing as this Google Map shows.

Note.

  1. The A299 goes across the top of the map.
  2. The Ashford – Canterbury – Ramsgate Line runs diagonally from South-West to North-East across the map.
  3. Ashford and Canterbury are to the South-West.
  4. Ramsgate is to the North-East.

The new Thanet Parkway station appears to be being built on the triangular site between the A299 and the railway.

  • There appear to be two entrances/exits to the station from the A299.
  • The pedestrian bridge over the railway is under construction.
  • The roads and walkways around the station are being laid.

This video gives more details of the station.

Parking At Thanet Parkway

According to the video, there are nearly three hundred parking spaces, with a number of disabled spaces and spaces with charging for electric cars.

Is that going to be enough spaces?

But at least, there may be fields around the station, that could be used to provide additional parking.

Richborough Energy Park

This Google Map shows the area around the station and to the South towards Richborough.

Note.

  1. The under-construction Thanet Parkway station is in the North-East corner of this map to the West of the village of Cliffsend.
  2. The dual-carriageway of the A256 runs North-South down the map to a roundabout.
  3. To the West of the roundabout is Richborough Energy Park.

This Google Map shows the are round the energy park and the roundabout in more detail.

Note.

  1. The Richborough substation in the South-West corner of the map.
  2. The Richborough Energy Park sits to the East of the substation.
  3. The solar panels to the North of the roundabout are the 4.9 MW Ebbsfleet Solar Farm, which is part of Richborough Energy Park.

Richborough Energy Park is an ongoing project.

The national grid interconnector from the original power station is still in place, and is now the grid link for the 300 MW offshore Thanet Wind Farm.

It is the terminal for the NemoLink interconnector to Belgium.

Wikipedia says this about future plans.

The current owner of the site, BFL Management Ltd, plan to bring the site back into use as a £750 million green energy park. There are additional plans to create additional recycling and green energy facilities on site, including an anaerobic digester, a waste processing plant, a biomass combined heat and power generator, a pyrolysis plant and a peak demand 30MW diesel generator. When fully operational, the park could provide up to 1,400MW of power, employing 100 full-time equivalent, with up to 500 jobs in the construction phase.

I am surprised, that there is no mention of batteries or energy storage.

This press release from Network Rail is entitled Charge While You Travel With New Electric Vehicle Charging Points At Network Rail Stations.

This the body of the press release

Rail passengers with electric vehicles will be able to charge while they travel thanks to the introduction of 450 new electric vehicle charging points at Network Rail-managed car parks at railway stations.

The charging points, powered by guaranteed renewable energy, provide enough power to fully charge a vehicle in as little as 3-4 hours.

In this phase, Network Rail has powered: 160 charging points in Reading, 111 in Manchester, 84 in Edinburgh, 56 at Leeds and 41 in Welwyn Garden City.

Electric vehicle charging points will be installed across 10% of car parking spaces (approximately 779 spaces) at car parks managed by Network Rail by March 2024.

Rail is already the leading form of green public transport and this marks another milestone in Network Rail’s commitment to a low-emission railway – making sure rail is environmentally-friendly, resilient to climate change and able to provide an excellent service for years to come.

The new Compleo charging points are marked with green parking bays and passengers can pay for what they need quickly and easily via the APCOA Connect app.

Note, that there is no mention, if these are vehicle-to grid (V2G) chargers.

In Airport Plans World’s Biggest Car Parks For 50,000 Cars, I stated my belief that car parks, with hundreds or even thousands of vehicles could be turned into giant grid batteries.

  • All electric vehicles, when they are parked would be plugged in to V2G chargers.
  • The vehicle and the grid, would know your expected return time and how much power you would need. Probably from a parking app, assisted by AI!
  • If the grid borrowed your electricity, whilst you were away, you wouldn’t know, until you received the payment for the loan.
  • If your car runs on hydrogen, the parking could also handle the battery, that all hydrogen-powered vehicles have.

Thanet Parkway station would be an ideal station for such a parking system for electric vehicles.

July 10, 2022 Posted by | Energy Storage, Transport/Travel | , , , , , , , | 1 Comment

« Previous Entries     Next Entries »