The Anonymous Widower

Energy Storage System For Dominica

This title of this post is taken a section of this round-up article on pv magazine.

This is said.

A $50 million hurricane-resistant battery energy storage system is coming to the Caribbean island of Dominica through an investment by the UAE-Caribbean Renewable Energy Fund. The project includes a 5 MW/2.5 MWh battery energy storage system.

The system is intended to stabilize the electricity grid and deliver reserve power and frequency control to the extreme weather-prone nation.

Dominica is building a 7 MW geothermal plant to help drive the country’s energy mix to 51% renewables. One government program enables foreign investors to obtain Dominica’s citizenship in exchange for a $100,000 investment to the Economic Diversification Fund, or $200,000 into pre-approved luxury real estate that supports Dominica’s ecotourism.

Dominica uses the investments for energy security, infrastructure, and housing as it aims to be one of the world’s first climate-resilient nations, as pledged by the government after Hurricane Maria hit the island in 2017.

The UAE-CREF initiative is financed by the Abu Dhabi Fund for Development, the UAE’s national entity for international development aid. The fund is a partnership between the Ministry of Foreign Affairs and Cooperation and Masdar, which is leading project design and implementation. In March 2019, the first three renewable energy projects were inaugurated.

Dominica is an island in the Eastern Caribbean, with a population of about 72,000.

This description is from Wikipedia.

It is the youngest island in the Lesser Antilles, and in fact it is still being formed by geothermal-volcanic activity, as evidenced by the world’s second-largest hot spring, called Boiling Lake.

I think that this could be a very good development and a model for other small islands with a friendly volcano underneath.

 

May 12, 2021 Posted by | Energy, Energy Storage | , | 7 Comments

A Mysterious Attack On My Body

Last Friday, I went to Birmingham and looked at the extension of the West Midlands Metro to Fiveways and Perry Barr station before it is updated for the Commonwealth Games.

I also took a detour to Wolverhampton station to see how the new transport interchange is progressing.

I had travelled between Euston  and Wolverhampton on my least favourite trains – Alstom’s Class 390 trains.

  • The seats don’t align well with the windows.
  • The trains are cramped because of all the tilting mechanism.

These trains must a nightmare for anybody taller than my 1.70 metres or heavier than my sixty-two kilos.

But the biggest problem of these Pendolino trains is that Alstom updated the air-conditioning a few years ago for Virgin a few years ago and I find the air inside too dry.

I am glad to see that Avanti West Coast have ordered new Hitachi Class 807 trains for running to and from Liverpool.

In my few hours in Birmingham, I didn’t have much to eat or drink.

  • I had a hot chocolate from a stall outside Wolverhampton station.
  • I also took a box of Leon’s gluten-free chicken and a lemonade onto the train home.

I was fine until I got to about Watford, but about I felt a need for the toilet. I waited until Euston and then it seemed everything in my body went down the toilet in the station.

Saturday

I had slept well on Friday night going to bed after the ten o’clock news as I usually do.

I spent a very quiet Saturday mainly watching sport on the television and not leaving my house.

Sunday

After a good night’s sleep, I noticed things seemed to have gone a bit wrong with my left hand.

  • I couldn’t get my left arm to co-operate with putting on a shirt.
  • I had trouble opening a yoghurt pot, by gripping it in my left hand and ripping the top off with my right.
  • I couldn’t tie my shoe-laces and had to use a pair of slip on shoes.

But

  • At no time was I having any balance problems and bathed successfully,
  • I did manage to get to the shops at the Angel to get a few bits and pieces I needed.

In the end I phoned 111 and they decided, I should be looked at professionally in hospital.

Royal London Hospital

Once in A & E at the Royal London things started to get better.

  • A CT-Scan had shown no problems.
  • I had a negative Covid test.
  • They did a few blood tests.
  • They told me that I had an infection.

But remarkably after an hour or so, my hand had started working normally.

The only reason, I could think, was that the air in the hospital was fully climate-controlled, whereas at home, it was just hot and dry.

They kept me in overnight and after a couple of human-based checks in the morning sent me home in a taxi.

Conclusion

The whole episode does seem so like an incident I described in A Couple of Days in Hospital.

May 12, 2021 Posted by | Health, Transport/Travel | , , , , , , , | 5 Comments

Skills And Post-16 Education Bill

On this page of The Times, there is an outline of the bills that the government will bring forward.

The title of this post is the name of one of the proposed bills.

This is said about the proposed contents of the bill.

A right to government-funded training for all adults lacking A-levels or the equivalent. The bill will also extend the student loan system to those who want to study at local further education colleges. All adults will be entitled to four years’ worth of loans for training or education that can be taken at any point in their life.

I know one person, who will be overjoyed, if he is still alive; John Eardley, who was my Personnel Officer at ICI Runcorn around 1970.

I can remember a story he told.

After a meeting with several union representatives, one of them asked if he could have a personal chat with John. The guy was a foreman in their vehicle maintenance department for ICI’s specialist chemical transport.

He told John how his last daughter had got married at the weekend and he perhaps needed to do something more challenging.

John found him an interesting position. He became a volunteer for Voluntary Services Overseas.

His job was part of a small team, who went to Zambia to sort out the elderly buses in Lusaka.

John was an excellent Personnel Officer and his guidance on personnel matters certainly stuck with this twenty year-old graduate, as I then was.

The Skills And Post-16 Education Bill appears to be what John really needed in the 1970s for the many employees he developed.

I can certainly see members of my own family, who would have been empowered by such a Bill since the Second World War! These include my father, mother and sister for a start.

It should be noted, that I am the first of my family to go to University.

Conclusion

I am totally in favour of this proposed Bill.

 

 

May 11, 2021 Posted by | World | , , , , | Leave a comment

Perry Barr Station – 7th May 2021

Birmingham will be hosting the 2022 Commonwealth Games.

Perry Barr station is to be rebuilt for the games.

This page on the West Midlands Railway web site explains what will happen.

This is the first two paragraphs.

From Monday 10 May 2021, Perry Barr Railway Station will be closed for a large refurbishment project. This means trains will not call at the station during this time, and passengers will not be able to get on or off trains from this station.

The closure is part of a large regeneration plan for the area, being built on the existing site. The current station will be demolished to make way for a new, modern and more accessible station for Perry Barr, scheduled to reopen in May 2022.

I took these pictures on a visit.

Note.

  1. The station certainly needs a lot of improvement.
  2. The stairs are steep.
  3. The information displays are total crap.
  4. There are ramps.
  5. Crossing the main road outside the station is difficult.

This article on the Construction Enquirer indicates the following.

  • There will be a bus and train interchange for the Athletes Village.
  • Pictures in the article clearly show lift towers.

It will be a great improvement.

 

May 8, 2021 Posted by | Sport, Transport/Travel | , , | 6 Comments

The West Midlands Metro Reaches Towards Five Ways

Whilst I was in Birmingham today, I took a ride on the West  Midlands Metro as far as Library and then walked along the route as far as I could get.

I took these pictures,

Note.

  1. The tracks fit neatly into the road.
  2. There appears to be no poles for wires to the West of the Library.
  3. It looks like the trams will be running under battery power between Library and Five Ways.

A worker told me, that it could open in a couple of months.

Will Edinburgh trams use a similar system?

May 7, 2021 Posted by | Transport/Travel | , , , , | 2 Comments

Councillors Approve Train Station For Inverness Airport

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

These are the first two paragraphs.

Planning permission has finally been granted for a two-platform train station at Inverness Airport.

The plans were “reluctantly” granted by the Highland Council, as much debate over the Petty Level crossing which is to be removed as a consequence.

Ir certainly looks like there were strong arguments over the level crossing.

This Network Rail visualisation shows the station from a virtual helicopter hovering over the Airport.

And this Google Map shows the Airport from the South-West

Note.

  1. The link road to the A96 crossing the railway in both images. But from opposite directions.
  2. In the Network Rail visualisation you can see the roundabout, where the link road joins the A96 in the top left corner.
  3. The current railway is only single track, but Network Rail will be doubling it.
  4. From these images and this document on the Network Rail web site, I can deduce this about the station.
  5. The station will have two platforms that will be capable of handling six-car trains.
  6. The footbridge is shown with lifts.
  7. The station will be able to be used as a Park-and-Ride for Inverness.

I suspect there will be a shuttle bus to the Airport terminal.

Travel Between London And Inverness

I’ve been to Inverness twice and and in both cases, I’ve gone by train.

  • The first time, I went by a  day train from Edinburgh. And I was in the cab courtesy of East Coast. I wrote about it in Edinburgh to Inverness in the Cab of an HST.
  • The other occasion, I took the Caledonian Sleeper to Inverness and that is a civilised way to go.

I feel that on this route very keen competition could develop.

Advantages Of Flying

Flying to Inverness Airport has these advantages.

  • A shorter journey time.
  • A greater choice of destinations.
  • Destinations in the sun.
  • After the new station is built it will be rail connected all the way to Aberdeen.

This Google map shows Inverness and Inverness Airport.

Note.

  1. The city of Inverness is at the Southern end of the Moray Firth.
  2. With all the water, I suspect the airport can be a good neighbour as far as noise and pollution are concerned.
  3. The Airport would have good access to green hydrogen and electricity from renewable sources.
  4. Even the Airport train and all the ground-handling equipment could run on hydrogen.

I feel that the Airport could sell itself as an environmentally-friendly way to the Highlands, when sufficient numbers of zero-carbon aircraft are available.

  • You should be able to fly in from Amsterdam, Birmingham, Brussels, Geneva, London, Manchester etc. and not feel any environmental guilt.
  • Airbus’s proposed hydrogen-powered ZEROe Turbofan is quoted as having a range of 2,000+ nautical miles,
  • That distance would put a lot of the sun in range of Inverness Airport.
  • Smaller feeder airliners could connect to other airports in the North of Scotland and the islands.

Inverness Airport will not be beaten without a fight.

Advantages Of Trains

Taking the train to Inverness has the following advantages.

  • Luxury
  • Zero Carbon-Footprint
  • The possibility of an overnight trip on a sleeper train.
  • The scenery through the Highlands.

I also believe that it would be possible  to design a hydrogen-powered luxury train. I laid out my ideas in LNER Seeks 10 More Bi-Modes.

I believe a train could have this specification.

  • 140 mph operation on 25 KVAC overhead electrification. This was done by British Rail almost forty years ago.
  • Ability to use full digital in-cab signalling. This is on its way and already working in some applications.
  • 110 mph operation on hydrogen. Hitachi are planning 100 mph battery trains, so it should be possible.
  • 400 mile range on one filling of hydrogen. This is working in Germany.
  • Ability to be upgraded to higher speeds on electric power, should the East Coast Main Line be upgraded for higher speeds in the future. The train manufacturers are probably ahead of track designers with this one.

I believe a sub-seven hour time would be possible between London and Inverness.

Conclusion

This is the sort of route, where rail and air will have a hard fight for supremacy.

 

 

May 6, 2021 Posted by | Transport/Travel | , , , , , , , , | Leave a comment

Hydrogen Aircraft Market To Reach $174 Billion By 2040

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

That is a very large sum of money!

The article gives the current status and outlines the plans of the major players.

May 6, 2021 Posted by | Hydrogen | , , , | Leave a comment

Work Begins On Okehampton Parkway Station

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

These are the first two paragraphs.

Following confirmation of government funding from the ‘Restoring Your Railway ideas’ fund, work has started on the Okehampton Parkway railway station that will serve the east of the town when the Dartmoor Line reopens.

Services are expected to restart later this year on the 14-mile stretch of railway for the first time in almost 50 years, providing a regular, daily passenger rail service between Okehampton and Exeter.

Okehampton Parkway station will be a completely new station for the Dartmoor Line.

This Google Map shows the probable location of the station.

The Wikipedia entry for the station, says this about its location.

The station is to be sited at the A30 junction at Stockley Hamlet and would be sited at the Business Park at Okehampton as well as serving a further 900 homes close to the site.

Stockey Hamlet is in the North-East corner of the map with the Dartmoor Line running along its Western side. Wikipedia also says this about the station design.

In April 2018, two preferred options for a new station which included an option for a double-sided platform which included a through platform and a bay platform. Another is for a platform single-sided platform on the south side of the railway with staggered faces. Exeter-bound trains would use the north through platform and the Dartmoor Railway would use the bay platform.

But as the track is only single-track and Devon has several single-platform stations, I will be surprised if the station has more than a single platform initially.

May 6, 2021 Posted by | Transport/Travel | , , , | 4 Comments

Bristol And South Gloucestershire Set For Seven New Train Stations

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

These are the first two paragraphs.

Multi-million-pound proposals to breathe new life into Bristol and South Gloucestershire’s defunct railways and reverse the Beeching cuts from the 1960’s, are set to go ahead.

With an investment strategy which proposes £350m for transport over the next 20 years. The West of England Combined Authority (WECA), comprising Bristol city, South Gloucestershire and Bath & North East Somerset councils, is expected to agree investments into a raft of projects at its committee meeting on Friday, June 14.

The improvements include.

Note.

  1. The reopening of Henbury station must mean the reopening of the freight-only Henbury Loop Line to passenger services.
  2. Portway Parkway station will be built adjacent to an existing Park-and-Ride.
  3. I wrote about Charfield station in Beeching Reversal – Charfield Station.

It certainly looks like MetroWest is finally getting underway.

May 6, 2021 Posted by | Transport/Travel | , , , , , , , | 2 Comments

Do BP And The Germans Have A Cunning Plan For European Energy Domination?

The headline of this post may be slightly tongue in cheek, but I believe that a plan is being hatched.

Preamble

I’ll start with a preamble, where I’ll outline some of the factors behind what may be happening.

Decarbonisation

It is generally accepted by most people that there is a need to decarbonise everything we do.

And large oil companies like Shell, BP and others are starting to move in the same direction.

Hydrogen

Using hydrogen instead of fossil fuels is becoming one of the major routes to decarbonisation.

Hydrogen can be used for the following.

  • Provide power for cars, buses, trucks, trains, locomotives and ships.
  • Hydrogen can be used in steelmaking instead of coking coal.
  • As a chemical feedstock to make ammonia, fertiliser and a large range of petrochemicals.
  • I believe that hydrogen could be a viable fuel to power aircraft over thousands of miles.

Hydrogen will become the most common zero-carbon fuel.

Hydrogen  And Natural Gas

In many applications hydrogen can replace natural gas, so for large users of natural gas, hydrogen offers a route to decarbonisation.

But hydrogen can also be mixed up to a level of around twenty percent in natural gas for partial decarbonisation of applications like space heating. Most industrial uses, boilers and appliances can be made to work very successfully with this mixture.

I grew up in the 1950s with coal gas, which according to Wikipedia had this composition.

  • hydrogen 50%
  • methane 35%
  • carbon monoxide 10%
  • ethylene 5%
  • When we changed over in the 1970s, all my appliances were converted.

This is the UK government description of natural gas.

It contains primarily methane, along with small amounts of ethane, butane, pentane, and propane. Natural gas does not contain carbon monoxide. The by-products of burning natural gas are primarily carbon dioxide and water vapour. Natural gas is colourless, tasteless and odourless.

As with the conversion from coal-gas to natural gas, conversion from Natural gas to a hydrogen/natural  gas mixture and eventually to hydrogen, will be a relatively painless process.

Note that carbon monoxide is a nasty poison and is not contained in either natural gas or hydrogen.

Green Hydrogen And Electrolysis Of Water

Green hydrogen is hydrogen produced exclusively from renewable energy sources.

Typically green hydrogen is produced by electrolysis of water using electricity produced by hydro, solar, tidal or wind.

The largest factory building electrolysers is owned by ITM Power.

  • It is located in Rotherham.
  • The factory has the capacity to build 1 GW of electrolysers in a year.
  • Typical electrolysers have a capacity of several MW.

Ryze Hydrogen are building an electrolyser at Herne Bay, that  will consume 23 MW of solar and wind power and produce ten tonnes of hydrogen per day.

Blue Hydrogen

‘Blue hydrogen is produced through a production process where carbon dioxide is also produced then subsequently captured via carbon capture and storage. In many cases the carbon dioxide is stored in depleted gas fields, of which we have plenty in the North Sea. Over the last few years, research has been ongoing into using the carbon dioxide. Applications in horticulture and agriculture, carbon structures and sustainable aviation fuel are being developed.

Shell have also developed the Shell Blue Hydrogen Process, where the carbon is extracted from methane as carbon dioxide and then stored or used.

CO2 In Greenhouse Horticulture

This paper from The Netherlands is called CO2 In Greenhouse Horticulture.

Read it and you might believe me, when I say, we’ll eat a lot of carbon in the form of tomatoes, salads and soft fruit. We’ll also buy flowers grown in a carbon-dioxide rich atmosphere.

Hydrogen As An Energy Transfer Medium

Every kilogram of natural gas when it burns releases energy, as it does in your boiler or gas hob. So it transfers energy in the form of gas from the gas well or storage tank to your house.

Electricity can also be transferred from the power station to your house using wires instead of pipes.

Hydrogen is being put forward as a means of transferring energy over hundreds of miles.

  • Electricity is converted to hydrogen, probably using an electrolyser, which would be powered by zero-carbon electricity.
  • The hydrogen is transferred using a steel pipe.
  • At the destination, the hydrogen is either distributed to end-users, stored or used in a gas-fired power station, that has been modified to run on hydrogen, to generate electricity.

It sounds inefficient, but it has advantages.

  • Long underwater cables have energy losses.
  • Electrical connections use a lot of expensive copper.
  • Re-use of existing gas pipes is possible.
  • Oil and gas companies like BP and their contractors have been laying gas pipes on land and under water for decades.

If hydrogen has a problem as an energy transfer medium, it is that it us difficult to liquify, as this statement from Air Liquide illustrates.

Hydrogen turns into a liquid when it is cooled to a temperature below -252,87 °C. At -252.87°C and 1.013 bar, liquid hydrogen has a density of close to 71 kg/m3. At this pressure, 5 kg of hydrogen can be stored in a 75-liter tank.

To transport, larger quantities of hydrogen by ship, it is probably better to convert the hydrogen into ammonia, which is much easier to handle.

The Germans and others are experimenting with using liquid ammonia to power large ships.

Hydrogen As An Energy Storage Medium

The UK has a comprehensive National Transmission System for natural gas with large amounts of different types of storage.

This section of the Wikipedia entry is entitled Natural Gas Storage and lists ten large storage facilities in salt caverns and depleted onshore gas fields. In addition, several depleted offshore gas fields have been proposed for the storage of natural gas. Rough was used successfully for some years.

I can certainly see a network of hydrogen storage sites being developed both onshore and offshore around the UK.

Iceland

With its large amount of hydro-electric and geothermal energy, Iceland can generate much more electricity, than it needs and has been looking to export it.

The UK is probably the only country close enough to be connected to Iceland to buy some of the country’s surplus electricity.

There has been a proposal called Icelink, that would build an electrical interconnector with a capacity of around a GW between Iceland at the UK.

But the project seems to have stalled since I first heard about it on my trip to Iceland in 2014.

Could the engineering problems just be too difficult?

The Waters Around The Northern Parts Of Great Britain

Look at a map of the UK and particularly Great Britain and there is a massive area of water, which is not short of wind.

Between Norway, Denmark, Germany, The Netherlands, the East Coast of England, the Northern Coasts of Scotland and Iceland, there are only a few islands.

  • Faroes
  • Orkney
  • Shetlands

To be complete we probably must include hundreds of oil and gas rigs and platforms and the Dogger Bank.

  • Oil and gas companies probably know most there is to know about these waters.
  • Gas pipelines connect the production platforms to terminals at Sullom Voe and along the East Coast from St. Fergus near Aberdeen to Bacton in Norfolk.
  • Many of the oil and gas fields are coming to the end of their working lives.

I believe that all this infrastructure could be repurposed to support the offshore wind industry.

The Dutch Are Invading The Dogger Bank

The Dogger Bank sits in the middle of the North Sea.

  • It is roughly equidistant from Norway, Denmark, the Netherlands and the UK.
  • The Western part is in UK territorial waters.
  • The Eastern part is mainly in Dutch territorial waters.

On the UK part, the Dogger Bank Wind Farm is being developed.

  • The turbines will be between 78 and 180 miles from the shore.
  • It could have a capacity of up to 5 GW.
  • It would be connected to East Yorkshire or Teesside.

On their side of the Dogger Bank, the Dutch are proposing the North Sea Wind Power Hub.

  • It is a collaboration between the Dutch, Germans, and Danes.
  • There have been reports, that up to 110 GW of turbines could be installed.
  • It will be connected to the Dogger Bank Wind Farm, as well as The Netherlands.

It is also planned that the connections to the Dogger Bank will create another interconnector between the UK and the Continent.

The Shetland Islands

The Shetland Islands are the only natural islands with a large oil and gas infrastructure in the waters to the North of Great Britain.

They have a large gas and oil terminal at Sullom Voe.

  • Oil is transported to the terminal by pipelines and tanker.
  • Oil is exported by tanker.
  • Gas is imported from oil and gas fields to the West of the islands through the West of Shetland Pipeline.
  • The gas-fired Sullom Voe power station provide about 80 MW of power to the islands.

This document on the APSE web site is entitled Future Hydrogen Production In Shetland.

It describes how the Shetland Islands can decarbonise and reposition themselves in the energy industry to be a major producer of hydrogen.

It gives these two facts about carbon emissions in the Shetlands Islands and Scotland.

  • Annual per capita CO2 emissions in the Shetland Islands are 17 tonnes.
  • In Scotland they are just 5.3 tonnes.

By comparison, the UK average is 5.55 and Qatar is 37.29.

Currently, the annual local market for road, marine and domestic fuel calculated
at around £50 million.

These are the objectives of the Shetland’s plan for future hydrogen production.

  • Supply 32TWh of low carbon hydrogen annually, 12% of the expected UK total requirement, by 2050
  • Provide more than 3GW of wind generated electrical power to Shetland, the UK grid, generating green hydrogen and electrification of the offshore oil and gas sector
  • Enable all West of Shetland hydrocarbon assets to be net zero by 2030 and abate 8Mt/year CO2 by 2050
  • Generate £5bn in annual revenue by 2050 and contribute significantly to the UK Exchequer.

They also envisage removing the topsides of platforms, during decommissioning of mature East of Shetland
oil fields and repurposing them for hydrogen production using offshore wind.

That is certainly a powerful set of ambitions.

This diagram from the report shows the flow of electricity and hydrogen around the islands, terminals and platforms.

Note these points about what the Shetlanders call the Orion Project.

  1. Offshore installations are electrified.
  2. There are wind turbines on the islands
  3. Hydrogen is provided for local energy uses like transport and shipping.
  4. Oxygen is provided for the fish farms and a future space centre.
  5. There is tidal power between the islands.
  6. There are armadas of floating wind turbines to the East of the islands.
  7. Repurposed oil platforms are used to generate hydrogen.
  8. Hydrogen can be exported by pipeline to St. Fergus near Aberdeen, which is a distance of about 200 miles.
  9. Hydrogen can be exported by pipeline to Rotterdam, which is a distance of about 600 miles.
  10. Hydrogen can be exported by tanker to Rotterdam and other parts of Europe.

It looks a very comprehensive plan!

The German Problem

Germany has an energy problem.

  • It is a large energy user.
  • It has the largest production of steel in Europe.
  • It prematurely shut some nuclear power stations.
  • About a quarter of electricity in Germany comes from coal. In the UK it’s just 1.2 %.
  • It is very reliant on Russian natural gas.
  • The country also has a strong Green Party.
  • Germany needs a lot more energy to replace coal and the remaining nuclear.
  • It also needs a lot of hydrogen to decarbonise the steel and other industries.

Over the last few months, I’ve written these articles.

Germany seems to have these main objectives.

  • Increase their supply of energy.
  • Ensure a plentiful supply of hydrogen.

They appear to be going about them with a degree of enthusiasm.

BP’s Ambition To Be Net Zero By 2050

This press release from BP is entitled BP Sets Ambition For Net Zero By 2050, Fundamentally Changing Organisation To Deliver.

This is the introductory paragraph.

BP today set a new ambition to become a net zero company by 2050 or sooner, and to help the world get to net zero. The ambition is supported by ten aims

The ten aims are divided into two groups.

Five Aims To Get BP To Net Zero

These are.

  1. Net zero across BP’s operations on an absolute basis by 2050 or sooner.
  2. Net zero on carbon in BP’s oil and gas production on an absolute basis by 2050 or sooner.
  3. 50% cut in the carbon intensity of products BP sells by 2050 or sooner.
  4. Install methane measurement at all BP’s major oil and gas processing sites by 2023 and reduce methane intensity of operations by 50%.
  5. Increase the proportion of investment into non-oil and gas businesses over time.

I would assume that by gas, they mean natural gas.

Five Aims To Help The World Get To Net Zero

These are.

  1. More active advocacy for policies that support net zero, including carbon pricing.
  2. Further incentivise BP’s workforce to deliver aims and mobilise them to advocate for net zero.
  3. Set new expectations for relationships with trade associations.
  4. Aim to be recognised as a leader for transparency of reporting, including supporting the recommendations of the TCFD.
  5. Launch a new team to help countries, cities and large companies decarbonise.

This all does sound like a very sensible policy.

BP’s Partnership With EnBW

BP seemed to have formed a partnership with EnBW to develop offshore wind farms in the UK

Their first investment is described in this press release from BP, which is entitled BP Advances Offshore Wind Growth Strategy; Enters World-Class UK Sector With 3GW Of Advantaged Leases In Irish Sea.

This is the first five paragraphs.

bp and partner EnBW selected as preferred bidder for two highly-advantaged 60-year leases in UK’s first offshore wind leasing round in a decade.

Advantaged leases due to distance from shore, lower grid cost, synergies from scale, and faster cycle time.

Projects expected to meet bp’s 8-10% returns aim, delivering attractive and stable returns and integrating with trading, mobility, and other opportunities.

Annual payments expected for four years before final investment decisions and assets planned to be operational in seven years.

In the past six months bp has entered offshore wind in the UK – the world’s largest market – and the US – the world’s fastest-growing market.

Note.

  1. EnBW are Energie Baden-Wuerttemberg AG, who, according to Wikipedia, are the third largest utilities company in Germany.
  2. It also appears, that EnBW have developed wind farms.

BP have issued this infographic with the press release.

Note.

  1. The lease areas don’t appear to be far from the Morecambe Bay gas field.
  2. The Morecambe Bay gas field is coming to the end of its life.
  3. The Morecambe Bay gas field is connected to the Rampside gas terminal at Barrow-in-Furness.
  4. At peak production 15 % of the UK’s natural gas came from Morecambe Bay.

I just wonder, if there is a cunning plan.

Could the platforms be repurposed to act as electrical hubs for the wind turbines?

  • 3GW of electricity would produce 55 tonnes of hydrogen per day.
  • The hydrogen would be exported to the Rampside gas terminal using the existing pipelines.
  • There may be savings to be made, as HVDC links are expensive.
  • BP either has the engineering to convert the platforms or they know someone who does.
  • Would the industrial complex at Barrow-in-Furnace and the nearby Sellafield complex have a use for all that hydrogen?
  • Or would the hydrogen be used to fuel Lancashire’s buses and trucks on the M6.

It certainly looks to me, that it could be a possibility, to bring the energy ashore as hydrogen.

BP Seeking Second Wind Off Scotland

The title of this section, is the same as that of this article in The Times.

These are the first two paragraphs.

BP is preparing to bid for the rights to build wind farms off Scotland as it signals no let-up in expansion after a £900 million splurge on leases in the Irish Sea.

The London-based oil giant caused waves in February by offering record prices to enter the UK offshore wind market through a Crown Estate auction of seabed leases off England and Wales.

As I said earlier.

  • The Shetland Islands are developing themselves as a giant hydrogen factory.
  • There are pipelines connecting platforms to the Sullom Voe Terminal.
  • There are plans to convert some of the redundant platforms into hydrogen production platforms.
  • The islands will be developing ways to export the hydrogen to the South and Europe.

BP also operates the Schiehallion oil and gas field to the West of the Shetlands, which is connected to the Sullom Voe Terminal by the West of Shetland pipeline.

Could BP and EnBW be coming to the party?

They certainly won’t be arriving empty-handed.

Does BP Have Access To Storage Technology?

I ask this question because both the Morecambe Bay and Shetland leases could be built with co-located depleted gas fields and offshore electrolysers.

So could hydrogen gas be stored in the gas fields?

I think it could be a possibility and would mean that hydrogen would always be available.

Could Iceland Be Connected To Schiehallion Via A Gas Pipeline?

I estimate that Iceland and Schiehallion would be about six hundred miles.

This wouldn’t be the longest undersea gas pipeline in the world as these two are longer.

The Langeled pipeline cost £1.7 billion.

Conclusion

I think there’s more to the link-up between BP and EnBW.

I am fairly certain, that BP are thinking about converting some redundant gas platforms into hubs for wind turbines, which use the electricity to create hydrogen, which is then exported to the shore using existing gas pipelines and onshore terminals.

Could it be said, that BP will be recycling oil and gas platforms?

I feel that the answer is yes! Or at least maybe!

The answer my friend is blowing in the wind!

May 6, 2021 Posted by | Energy, Energy Storage, Hydrogen | , , , , , , , , , , , , , , , , , , , , , , | 4 Comments

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