The Anonymous Widower

ITM Signs 200MW Electrolyser Deal

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

This is the sub-heading.

Agreements with Linde Engineering will be for installation at RWE’s GET H2 Nukleus project in Germany

These paragraphs outline the deal.

ITM Power has signed two contracts for electrolysers, totalling 200MW, which will be installed in green hydrogen plants in Germany that will be supplied by North Sea offshore wind.

The contracts, both with Linde Engineering, are each for 100MW of PEM electrolysers.

The machines will be installed at two plants operated by RWE in Lingen, Germany.

Note.

  1. Linde Engineering and ITM Power were preselected by RWE for these orders.
  2. ITM Power seem to be going through scale-up problems.

But the comments in the article and the orders, surely show that ITM Power is now more likely to recover.

January 31, 2023 Posted by | Hydrogen | , , , , , | 2 Comments

Electrolyser System To Linde For Green Hydrogen Production In Niagara Falls, New York

The title of this post, is the same as that of this press release from Cummins.

This is the first paragraph.

Cummins Inc. will supply a 35-megawatt (MW) proton exchange membrane (PEM) electrolyzer system for Linde’s new hydrogen production plant in Niagara Falls, New York. Once commissioned, Cummins’ electrolyzer system will power Linde’s largest green hydrogen plant in the U.S., marking significant progress in moving the green hydrogen economy forward.

Note.

  1. The electrolyser will be powered by hydroelectricity.
  2. Linde have a strategic investment in iTM Power, who are a British manufacturer of electrolysers.
  3. ITM Linde Electrolysis is a joint venture between iTM Power and Linde.

Why did Linde choose Cummins over iTM Power?

Is it down to cost, delivery, politics or quality?

 

December 14, 2022 Posted by | Energy, Hydrogen | , , , , , , , | 2 Comments

ITM Power’s 24MW Electrolyser Sale to Yara

The title of this post, is the similar to that of this press release from ITM Power. I just added a few words.

These are the first three paragraphs.

ITM Power (AIM: ITM), the energy storage and clean fuel company, is pleased to provide details of the sale of a 24MW electrolyser to Linde Engineering contained in the Company’s Half Year Report issued yesterday. The electrolyser is to be installed at a site operated by Yara Norge AS (“Yara”) located at Herøya outside Porsgrunn, about 140 km southwest of Oslo. The site covers an area of approximately 1.5 square kilometres and is the largest industrial site in Norway. The Porsgrunn site produces 3 million tons of fertiliser per year.

The hydrogen required for ammonia production is currently produced from SMR. Yara intends to start replacing this grey hydrogen with green hydrogen produced from renewable energy and electrolysis. The 24MW system supplying 10,368 kg/day of hydrogen will account for approximately 5% of the plant’s consumption and serve as a feasibility study for future upscaling. Yara has received a grant of up to NOK 283m (£23.6m,pending ESA approval) from Enova SF, a Government funding body, to invest in green solutions for hydrogen used for industrial purposes in Norway.

The electrolyser equipment is due to be ready for shipment from ITM Power in Q4 2022 with revenue realised in the Company’s 2022/2023 financial year.

These are my thoughts.

The Size Of The Electrolyser

A 24 MW electrolyser, that produces 10,368 Kg of hydrogen/day may sound a large device.

This is an extract from the press release.

In January 2021, the Company received an order for the world’s then largest PEM electrolyser of 24MW from Linde. In October 2021, the Company, with Linde, announced the deployment of a 100MW electrolyser at Shell’s Rhineland refinery, following the start-up of an initial 10MW facility at the site.

It appears that ITM Power have built one before and one four times the size has been ordered.

What Size Of Electrolyser Would Yara Need To Fully Decarbonise Ammonia Production?

According to the press release, a 24 MW electrolyser will produce five percent of the plant’s consumption, which means that a 480 MW electrolyser will be needed, if Yara use an ITM electrolyser to produce all their hydrogen.

Will manufacture of an electrolyser of this size be a problem for ITM Power?

The press release says this about electrolyser production.

ITM Power operates from the world’s largest electrolyser factory in Sheffield with a capacity of 1GW (1,000MW) per annum, with the announced intention to build a second UK Gigafactory in Sheffield with a capacity of 1.5GW expected to be fully operational by the end of 2023. The Group’s first international facility, expected to have a capacity of 2.5GW per annum, is intended to be operational by the end of 2024, bringing total Group capacity to 5GW per annum.

It also says that the company has raised £250m to accelerate expansion.

The Delivery Date

The delivery date of the electrolyser is stated as Q4 2022.

I find this rather quick, which makes me believe that one of the reasons for the success of ITM Power is their production process.

How Much Ammonia Is Produced Worldwide?

This is an extract from this publication from the Royal Society, which is entitled Ammonia: Zero-Carbon Fertiliser, Fuel And Energy Store.

Current global ammonia production is about 176 million tonnes per year and is predominantly achieved through the steam reforming of methane to produce hydrogen to feed into ammonia synthesis via the Haber Bosch process.

Ammonia production is a highly energy intensive process consuming around 1.8% of global energy output each year (steam methane reforming accounts for over 80% of the energy required) and producing as a result about 500 million tonnes of carbon dioxide (about 1.8% of global carbon dioxide emissions)2,3,4. Ammonia synthesis is significantly the largest carbon dioxide emitting chemical industry process. Along with cement, steel and ethylene production, it is one of the ‘big four’ industrial processes where a decarbonisation plan must be developed and implemented to meet the netzero carbon emissions target by 2050.

It looks like Linde and ITM Power have a fairly simple plan to decarbonise world ammonia production. And they have started with one of the easier targets; Yara in the very environmentally-correct Norway.

I estimate that to produce 176 million tonnes of green ammonia will need over 28 GW of electrolyser capacity.

Conclusion

If Linde and ITM Power can persuade the world, that their technology is the way to go, then they’ve got it made.

January 28, 2022 Posted by | Hydrogen | , , , , , , | 1 Comment

Whitelee Green Hydrogen Facility To Power Public Transport

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

Some points from the article.

It will be the country’s largest electrolyser. Is that Scotland or the UK?

The facility is being built by Scottish Power, ITM Power and BOC.

Friends of the Earth think it’s wrong and the electricity should be used immediately.

In ScottishPower’s Green Hydrogen Project Looks To Build UK’s Largest Electrolyser, the title says that the Whitelee project will be the UK’s largest electrolyser.

November 23, 2021 Posted by | Energy, Hydrogen, Transport/Travel | , , , , , , | Leave a comment

Linde Commits To Green Hydrogen For Trucks And Becomes H2Accelerate Member

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

  • Linde have already installed more than two hundred hydrogen filling stations around the world.
  • Now, it appears they intend to install a lot more.

Could this give a big stimulus to more hydrogen trucks, buses and other road vehicles?

It should probably be noted that Linde are a shareholder in ITM Power and have ordered several large electrolysers from the Sheffield company.

October 5, 2021 Posted by | Hydrogen, Transport/Travel | , , , | Leave a comment

Sale To Linde Of World’s Largest PEM Electrolyser

The title of this post, is the same as that of this press release on the ITM Power web site.

This is the first paragraph.

ITM Power, the energy storage and clean fuel company, is pleased to announce the sale to Linde of a 24MW electrolyser to be installed at the Leuna Chemical Complex in Germany.

Note.

  1. Leuna is a few miles to the West of Leipzig.
  2. As it’s green hydrogen, I would hope it’s not powered with electricity from coal.

I bet they’re pleased.

I said a similar thing, when they got funding for an 8 MW monster, that I wrote about in Funding Award to Supply An 8MW Electrolyser.

The press release says this about the electrolyser.

This new 24 megawatt electrolyzer will produce green hydrogen to supply Linde’s industrial customers through the company’s existing pipeline network. In addition, Linde will distribute liquefied green hydrogen to refueling stations and other industrial customers in the region. The total green hydrogen being produced can fuel approximately six hundred fuel cell buses driving 40 million kilometers and saving up to 40,000 tons of carbon dioxide tailpipe emissions per year.

In Can The UK Have A Capacity To Create Five GW Of Green Hydrogen?, I said the following.

Ryze Hydrogen are building the Herne Bay electrolyser.

  • It will consume 23 MW of solar and wind power.
  • It will produce ten tonnes of hydrogen per day.

The electrolyser will consume 552 MWh to produce ten tonnes of hydrogen, so creating one tonne of hydrogen needs 55.2 MWh of electricity.

This would mean that the Leuna electrolyser could be producing nearly four thousand tonnes of hydrogen per year.

Does this mean that every tonne of hydrogen saves ten tonnes of carbon dioxide tailpipe emissions?

 

February 17, 2021 Posted by | Hydrogen | , , | 1 Comment

Green Hydrogen For Scotland

The title of this post, has been taken from this press release from ITM Power, which is entitled ‘Green Hydrogen For Scotland’ To Help Reach Net Zero Targets: First Project To Deliver A 10MW Electrolyser To Glasgow Facility.

This is the introductory paragraph.

A pioneering Strategic partnership has been established to create new green hydrogen production facilities with clusters of refuelling stations across Scotland, supporting the country’s efforts to achieve net zero by 2045. ‘Green Hydrogen for Scotland’ – a partnership of ScottishPower Renewables, BOC (a Linde company) and ITM Power – brings together industry-leading names in the renewables and clean fuel industries to offer an end-to-end market solution for reducing vehicle emissions through the provision of green hydrogen.

Other details include.

  • The green hydrogen production facility located on the outskirts of Glasgow will be operated by BOC.
  • ITM Power will deliver a 10 MW electrolyser.
  • Electricity will come from , wind and solar produced by ScottishPower Renewables.
  • The project aims to supply hydrogen to the commercial market within the next two years.

This ITM Power infographic outlines Green Hydrogen for Scotland.

Surely it should be called tartan hydrogen. Does anybody know a tartan containing the blue of Scotland, the white of Yorkshire and the black, red and gold of Germany?

September 16, 2020 Posted by | Energy, Hydrogen, Transport/Travel | , , , , , , , | 1 Comment

Linde And RVK Unveil New Hydrogen Station For Buses

The title of this post, is the same as that of this article on H2 View.

This is the introductory paragraphs.

Linde and regional transport company Regionalverkehr (RVK) today presented an innovative hydrogen station for fuel cell buses to the public.

With a capacity of up to 20 refills per day, the new station located near Cologne, Germany features, for the first time, a new high-pressure storage technology developed by Linde: constant pressure tubes ensure that the refuelling pressure always remains at a constant level, even as the storage tank volume decreases.

It does appear that Linde is going to be big in hydrogen, as they already are an investor in electrolyser company;ITM Power.

August 27, 2020 Posted by | Hydrogen, Transport/Travel | , , | Leave a comment

Joint Venture With Linde AG And £38M Strategic Investment

The title of this post, is the same as that as this Press Release from ITM Power.

This is the first paragraph.

ITM Power plc  is pleased to announce its intention to raise at least £52.0 million (before expenses) through (i) a strategic investment of £38.0 million at 40 pence per share by Linde UK Holdings No. 2 Limited, a member of the Linde AG group (Linde) (the Share Subscription); and (ii) a conditional placing of £14.0 million at 40 pence per share (the Firm Placed Shares) with certain existing and new institutional investors (the Firm Placing).   The Group has also entered into a 50/50 joint venture with Linde (the Joint Venture) which will focus on delivering green hydrogen to large scale industrial projects, principally those with an installed electrolyser capacity of 10 Megawatts (“MW”) and above.

There is all the usual financial stuff and these sentences.

The net proceeds of the fundraising will be used principally to enhance the manufacturing capabilities of the Group, particularly for the development and production of large scale 5MW electrolysers, to facilitate product standardisation and manufacturing cost reduction.

The Joint Venture will focus on delivering green hydrogen to large scale industrial projects (generally being opportunities with installed electrolyser capacities of 10 Megawatts and above)

As ITM Power are constructing the largest electrolyser factory in the world, at Bessemer park in Sheffield, it appears to me that ITM Power are going for the larger scale hydrogen market.

Recently, I wrote these three posts.

News stories generated about the company or the production of hydrogen seem to require large electrolysers in excess of 5 MW.

It looks like ITM Power are setting themselves up to tap this market substantially.

How Much Hydrogen Would A 5 MW Electrolyser Create In A Day?

I found the key to the answer to this question on this page of the Clean Energy Partnership web site.

To produce hydrogen by electrolysis directly at the filling station, the CEP currently requires about 55 kWh/kg H2 of electricity at an assumed rate of efficiency of > 60 percent.

To produce 1 kg of hydrogen, nine times the amount of water is necessary, i.e. nine litres.

I will use that figure in the calculation.

  • A 5MW electrolyser will consume 120 MWh in twenty-four hours.
  • This amount of electricity will produce 2,182 Kg or 2.182 tonnes of hydrogen.
  • It will also consume 19.64 tonnes of water.

In Surplus Electricity From Wind Farms To Make Hydrogen For Cars And Buses, I described how Jo Bamford and his company; Ryze Hydrogen, have applied for planning permission to build the UK’s largest electrolyser at Herne Bay in Kent.

  • It will produce ten tonnes of hydrogen a day.
  • The hydrogen will be sent by road to London to power buses.

So could the electrolyser be a 25 MW unit built of five 5 MW modular electrolysers?

Linde and their UK subsidiary; BOC, must have a lot of knowledge in transporting tonnes of hydrogen by road. I can remember seeing BOC’s trucks behind ICI’s Castner-Kellner works in the 1970s, where they collected hydrogen to see to other companies.

 

May 29, 2020 Posted by | Transport/Travel, World | , , , , , , , | 3 Comments