The Anonymous Widower

The EuroAfrica Interconnector

The Wikipedia entry for the EuroAfrica Interconnector, introduces the project like this.

EuroAfrica Interconnector is a HVDC interconnector and submarine power cable between the Greek, Cypriot, and Egypt power grids.

The Wikipedia entry has a section called Technical Data, where this is said.

The EuroAfrica Interconnector will link Egypt with the Cypriot and Greek power grids through the island of Crete, with a high-voltage direct current submarine power cable of length around 1,396-kilometre (867 mi). Egypt will be connected with Cyprus with a 498-kilometre (309 mi) long cable. Cyprus will be connected with Crete with a 898-kilometre (558 mi) long cable providing a connection to the pan-European electricity grid.[1] The laying depth of cable will be up to 3,000 metres (9,800 ft) under sea level in some areas between Crete and Cyprus. It will have a capacity to transmit 2,000 megawatts of electricity in either direction. Annual transmission capacity is 17.5 TWh, much more than the annual production of the Aswan Dam.

In The EuroAsia Interconnector, I noted how Israel will be connected to Cyprus, thus when both interconnectors are complete, Cyprus, Egypt, Greece and Israel will be able to share electricity.

July 25, 2022 Posted by | Energy | , , , , , , , , | 2 Comments

The EuroAsia Interconnector

The Wikipedia entry for the EuroAsia Interconnector, introduces the project like this.

The EuroAsia Interconnector is a proposed HVDC interconnector between the Greek, Cypriot, and Israeli power grids via the world’s longest submarine power cable (310 kilometres (190 mi) from Israel to Cyprus and 898 kilometres (558 mi) from Cyprus to Greece, for a total of 1,208 kilometres (751 mi)). Connecting Kofinou, Cyprus to Hadera, Israel and Korakias, Crete, Greece and stated to finish construction in 2023.

When completed it will have a capacity of 2 GW.

From Wikipedia, it appears that at least initially, Israel will export electricity produced in gas-fired power stations from their own more than adequate supplies of natural gas.

In Andrew Forrest’s Fortescue Future Industries Inks Deal With Kingdom of Jordan For Green Hydrogen Study, I published this Google Map of Jordan.

Surely, in the future, the EuroAsia interconnector could be carrying solar generated green electricity from Iraq, Jordan and Saudi Arabia to Cyprus and Greece.

As, according to Reuters, Greece covers about 40% of its annual energy needs with Russian gas, this can’t be good for Vlad the Mad and his bloodstained gas.

 

 

July 25, 2022 Posted by | Energy | , , , , , , , , , , , | 3 Comments

Will We See More Multi-Country Renewable Energy Deals?

In this blog, I have talked about various deals, where two or more countries and/or companies are getting together to generate electricity in one country and transfer it to another, either as electricity or as hydrogen

Examples include.

There are also all the hydrogen deals done by Fortescue Future Industries.

Where Are There Possibilities Of More Multi-Country Renewable Energy Deals?

These are a few serious possibilities.

Argentina

This is an extract from this page on Wind Energy International, which is entitled Argentina.

Argentina has an estimated technical wind energy potential of 300 GW. In southern Patagonia (Chubut and Santa Cruz provinces), average wind speeds range between 9.0 and 11.2 m/s, whereas in the north (Neuquén and Río Negro provinces), wind speeds range from 7.2 to 8.4 m/s. The general average capacity factor for Argentina is 35% and in the Patagonia region it ranges between as much as 47% and 59%. Especially in Northwest Patagonia, locally known as the Comahue region, hydro and wind may seasonally complement each other and.benefit both technologies. One other promising region for wind power development is the Atlantic sea coast.

As I wrote in Australia’s FFI Plans $8.4 Billion Green Hydrogen Project In Argentina, it appears that Andrew Forrest and FFI are already on the ground.

Australia

There are already three major schemes based on Australia and I am certain they will be more. Especially, as Japan, Korea, Malaysia and Singapore will need the zero-carbon energy.

It would appear that except for the Australia-Asia PowerLink, the energy will be transferred as liquid hydrogen or liquid ammonia.

Bangladesh

Bangladesh wouldn’t be on the lists of many, where ideal countries for renewable energy are being discussed.

But, this report on Energy Tracker Asia is entitled The Renewable Energy Potential of Bangladesh, where this is said.

A report investigating the renewable energy technical capacity of Bangladesh found that the country could deploy up to 156 GW of utility-scale solar on 6,250 km2 of land and 150 GW of wind. Offshore wind power would account for 134 GW of this total capacity.

I wouldn’t be surprised to see Bangladesh, supplying renewable energy to the East, with international companies and organisations developing the renewable infrastructure.

I think it should be noted that international companies flock to countries, where the investment opportunities are good. That has happened in the UK, with offshore wind, where many wind farms have been developed by companies such as Equinor, Iberola, RWE and Wattenfall.

Chile

Chile has started to develop the 100,000 square kilometres of the Atacama Desert for solar power and I wrote about this in The Power Of Solar With A Large Battery.

This sentence in the Wikipedia entry for Energy In Chile, illustrates the potential of solar power in the Atacama Desert.

In 2013, Total S.A. announced the world’s largest unsubsidised solar farm would be installed with assistance from SunPower Corp into Chile’s Atacama desert.

I also wrote Chile Wants To Export Solar Energy To Asia Via 15,000km Submarine Cable, about Chile’s ambitions to supply Asia with energy.

Ethiopia

Andrew Forrest of Fortescue Future Industries is on the case, as I wrote in Fortescue Future Industries Enters Ethiopia to Produce Green Energy.

North Africa

Consider.

  • The major North African countries of Morocco, Algeria, Tunisia, Libya and Egypt, all have and depend on to a certain extent on fossil fuels.
  • There are gas pipelines to Spain and Italy.
  • Morocco will be the Southern end of the Morocco-UK Power Project, if it gets developed.
  • All five countries have some nuclear power stations.
  • All five countries have lots of sun for solar power.
  • Some Saharan countries to the South of Morocco, Algeria and Libya could also provide energy from the sun.
  • Egypt has substantial hydro-electric power on the River Nile.
  • Egypt will be connected to Greece through the EuroAfrica Interconnector.

I believe that a well-designed and co-ordinated project could generate a lot of electricity and hydrogen for Europe and bring much-needed income and employment to North Africa.

I feel that if the Morocco-UK Power Project can be successfully built, then this could create a flurry of activity all over North Africa.

Saudi Arabia

Saudi Arabia has a problem. As the rest of the world moves away from fossil fuels in the next few decades, they will see the revenues from oil and natural gas come under pressure.

But as a rich country, with 2.15 million km² of land and lots of sun, they must have some potential to generate solar electricity.

In the Wikipedia entry for Solar Power In Saudi Arabia, this is said.

The Saudi agency in charge of developing the nations renewable energy sector, Ka-care, announced in May 2012 that the nation would install 41 gigawatts (GW) of solar capacity by 2032.[2] It was projected to be composed of 25 GW of solar thermal, and 16 GW of photovoltaics. At the time of this announcement, Saudi Arabia had only 0.003 gigawatts of installed solar energy capacity. A total of 24 GW of renewable energy was expected by 2020, and 54 GW by 2032.

Wikipedia also says that Saudi Arabia also has nuclear ambitions.

I can see that Saudi Arabia will replace some of their oil and gas exports with green hydrogen.

July 25, 2022 Posted by | Energy, Hydrogen | , , , , , , , , , , , , , , , , , , , , , , , , , , , , | Leave a comment

Green Hydrogen Namibia

The title of this post, is the same as that of this web site.

This is the mission statement on the home page.

With its abundant, world-class renewable energy resources and increasing demand for green hydrogen worldwide, Namibia is quickly emerging as an early entrant in this new market and has ambitions of becoming the leading exporter of Green Hydrogen in Africa.

Namibia is serious about green hydrogen.

July 25, 2022 Posted by | Energy, Hydrogen | , , | 1 Comment

Rolls-Royce Chief Warren East Spies Rebound For Air Travel

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

It is a must-read article.

This is the first paragraph.

Warren East, the outgoing chief executive of Rolls-Royce, has sounded a bullish note on aviation’s recovery from Covid-19, reporting increased demand from the jet-engine maker’s airline customers and expressing his belief that China will gradually open up to international travel.

Certainly, with all the chaos at the Channel this weekend, people are starting to travel again.

Support For The Military

This is a paragraph in the article.

Tom Bell, head of Rolls-Royce Defence, said the company was in talks with the US and UK militaries about supplying “deployable” reactors for military bases.

I’m sure that a reactor would have advantages to a large diesel or gas-turbine generator to power a military base.

  • Military bases need a lot of power.
  • It would not need refuelling every day.
  • It could be connected to an electrolyser, to generate hydrogen for vehicles.
  • It would be a lot quieter.
  • I wonder, if it could be transported in a large transport aircraft.

But I feel, it might have other applications.

  • It could provide power support after a large earthquake or natural disaster.
  • It could provide power in remote or difficult locations.
  • If the only power station for a remote community had a catastrophic failure, a deployable reactor could be brought in.
  • It could provide power for a large construction site, which would help to decarbonise the construction.
  • Power would be zero-carbon at point of generation.

The reactors might even be rail-transportable, so they could be moved to where they are needed safely and quickly.

But I don’t think they would necessarily be the same size as the Rolls-Royce SMRs, which are 470 MW.

A Scalable Reactor

This is a paragraph in the article.

Rolls also has a contract with the UK Space Agency to develop a “micro reactor” for space vehicles and satellites, Bell added. “These are really exciting opportunities for us to not only perpetuate our business undersea, at sea, on land, in the air, but also to go to space,” he said. East noted the advantage of nuclear reactors in space: “You can’t have air-breathing engines on the moon.”

Note.

  1. East is Warren East, who is the outgoing Chief Executive of Rolls-Royce.
  2. Nuclear power sources have been used in space before, usually by using an isotope, that gives out heat, as it decays.
  3. How small is micro?
  4. The US deployed a 1.75 MW nuclear power plant in Antarctica under the Army Nuclear Power Program. That reactor also provided heating and hot water. It is worth reading the Wikipedia entry, especially the section about the MM-1 reactor.

It does seem that Rolls-Royce are designing a reactor that can be scaled in size, to cover a whole spectrum of applications.

 

 

July 24, 2022 Posted by | Energy, Transport/Travel | , , , , , | Leave a comment

UK-German Energy Link Reaches Financial Close

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

These are the three introductory paragraphs.

A multibillion-euro 725 km interconnector between the UK and Germany has reached financial close, paving the way for construction works to begin in the coming months.

The £2.4bn (€2.8bn) NeuConnect interconnector will form an “invisible energy highway” with subsea cables allowing up to 1.4GW of electricity to flow in either direction between the UK and Germany and will help deliver a more secure and resilient energy supply, particularly as more renewable generation is added.

Independent analysis shows the project will create over £1.7bn in UK consumer benefits over 25 years.

Other points about NeuConnect include.

  • It has been privately funded by a consortium of over twenty national and international banks.
  • It will run between the Isle of Grain and a the new Fedderwarden substation in Wilhelmshaven.
  • It should be operational in 2028.

Although, it is bi-directional, it appears that one of its major uses will be to provide Germany with UK wind energy to compensate for the loss of Putin’s bloodstained gas.

July 21, 2022 Posted by | Energy | , , , , | 4 Comments

Will Our Gas Supplies Hold Up This Winter?

I am prompted to ask this question because of this article in The Times, which is entitled ‘Really High Gas Prices’ Loom For UK As Europe Faces Winter Rationing.

These are a few thoughts.

UK Gas-Fired Power Station Capacity

This entry in Wikipedia is entitled List Of Natural Gas Power Stations In The United Kingdom.

This statement summarises the capacity.

There are currently 32 active gas fired combined cycle power plants operating in the United Kingdom, which have a total generating capacity of 28.0 GW.

This section is entitled Decline Of Gas For Power In The United Kingdom, where this is said.

In 2016 gas fired power stations generated a total of 127 TWh of electricity. Generation has dropped to 119 TWh in 2017, 115 TWh in 2018, 114 TWh in 2019 and 95 TWh in 2020. The decline is largely due to the increase in renewable sources outweighing the decline of coal, and an overall reduction in demand.

Putting these pictures as a table and applying a simple numerical analysis technique gives the following.

  • 2016 – 127 TWh
  • 2017 – 119 TWh – Drop of 8TWh
  • 2018 – 115 TWh – Drop of 4 TWh
  • 2019 – 114 TWh – Drop of 1 TWh
  • 2020 – 95 TWh – Drop of 19 TWh

In four years the amount of electricity generated each year by gas-fired power stations has dropped by an amazing 8 TWh on average per year.

Factors like the increase in renewables and an overall reduction in demand will still apply.

I wouldn’t be surprised to see a continuous reduction of electricity generated by gas of 8 TWh per year.

Figures like these could be possible.

  • 2021 – 87 TWh
  • 2022 – 79 TWh
  • 2023 – 71 TWh
  • 2024 – 63 TWh
  • 2025 – 55 TWh
  • 2026 – 47 TWh
  • 2027 – 39 TWh

I have stopped these figures at 2027, as one major event should happen in that year, as Hinckley Point C is planned to switch on in June 2027, which will contribute 3.26 GW. or 28.5 TWh per year.

In Will We Run Out Of Power This Winter?, I also summarised the energy that will be produced by the various projects, that were signed off recently in the Contracts for Difference Allocation Round 4′, where I said this.

Summarising the figures for new capacity gives.

  • 2022 – 3200 MW
  • 2023 – 1500 MW
  • 3024 – 2400 MW
  • 2025 – 6576 MW
  • 2026 – 1705 MW
  • 2027 – 7061 GW

This totals to 22442 MW.

Note that a 1 GW power source would generate 8.76 TWh of electricity per year.

 

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.

Jackdaw Gas Field

This document on the Shell web site is the standard information sheet for the Jackdaw field development.

This is the short description of the development.

The Jackdaw field is an uHPHT reservoir that will be developed with a not permanently
attended WHP. Four wells will be drilled at the Jackdaw WHP. Produced fluids will be
exported via a subsea pipeline to the Shearwater platform where these will be processed
before onward export via the Fulmar Gas Line and the Forties Pipeline System.

The proposed development may be summarised as follows:

  • Installation of a new WHP
  • Drilling of four production wells
  • Installation of a new approximately 31 km pipeline from the Jackdaw WHP to the Shearwater platform
  • Processing and export of the Jackdaw hydrocarbons via the Shearwater host platform

First production expected between Q3 – Q4 2025.

Note.

  1. Production could start in just over three years.
  2. This gas will come ashore at the Bacton gas terminal in Norfolk.
  3. Bacton has two gas interconnectors to Europe; one to Belgium and one to The Netherlands, so is ideally connected to export gas to Europe.

Given the high gas prices, I am sure any company would pull out all the stops to shorten the project development time.

HyDeploy

I described HyDeploy, which is a project to blend up to 20 % of hydrogen into the distributed natural gas in HyDeploy.

In The Mathematics Of Blending Twenty Percent Of Hydrogen Into The UK Gas Grid, I worked how much electricity would be needed for HyDeploy’s target blending of hydrogen.

It was 8.2 GW, but!

  • It would save a lot of carbon emissions.
  • Boilers and other appliances wouldn’t have to be changed, although they would probably need a service.
  • It would significantly cut the amount of natural gas we need.
  • It might even be a product to export in its own right.

I certainly feel that HyDeploy is a significant project.

Gas Imports And Existing Fields

This entry in Wikipedia is entitled Energy in the United Kingdom.

In this section, which is entitled Natural Gas, this is said.

United Kingdom produced 60% of its consumed natural gas in 2010. In five years the United Kingdom moved from almost gas self-sufficient (see North Sea gas) to 40% gas import in 2010. Gas was almost 40% of total primary energy supply (TPES) and electricity more than 45% in 2010. Underground storage was about 5% of annual demand and more than 10% of net imports.

Gasfields include Amethyst gasfieldArmada gasfieldEasington Catchment AreaEast KnaptonEverest gasfield and Rhum gasfield.

Consider.

  • We know that the amount of gas used for generating electricity is reducing , due to the increase in renewables and an overall reduction in demand.
  • The cost of both gas imports and exports are rising.
  • In two years time the Jackdaw gas field should be producing gas.

Would it be sensible to squeeze as much gas out of the existing fields, as by the time they run out, renewables, an overall reduction in demand, the Jackdaw gasfield and other factors will mean that we will have enough gas and electricity for our needs.

July 14, 2022 Posted by | Energy, Hydrogen | , , , , , , | 8 Comments

The World Economic Forum Talk About Gravitricity

This article on the World Economic Forum is entitled How Gravity Batteries Will Help Us Switch To Renewable Energy.

The article is a must-read and Gravitricity must be very pleased with the contents and placement of the article.

As an investor in Gravitricity, through crowd-funding, I am certainly pleased.

July 13, 2022 Posted by | Energy, Energy Storage, Finance & Investment | , , | Leave a comment

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

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

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