First Commercial-Scale Seaweed Farm Between Wind Turbines Fully Operational In Netherlands
The title of this post, is the same as that of this article on offshoreWIND.biz.
This is the sub-heading.
The world’s first commercial-scale seaweed farm within the Hollandse Kust Zuid offshore wind farm in the Netherlands is fully operational.
These initial three paragraphs fill out the details.
According to the non-profit organisation North Sea Farmers (NSF), the final deployment step was completed one week ago by deploying the seeded substrate.
North Sea Farm 1, initiated by NSF with funding from Amazon’s Right Now Climate Fund, is a floating farm located in the open space between wind turbines where seaweed production can be tested and improved.
The seaweed farm is located within the Hollandse Kust Zuid wind farm, nearly 22 kilometres off the coast of Scheveningen. The 1.5 GW project is owned by Vattenfall, BASF, and Allianz.
I find this an interesting concept.
I can remember reading in the Meccano Magazine in the 1950s, about the production of alginates from seaweed in Scotland.
Surprisingly, Wikipedia has very little on alginates, except for this illuminating Wikipedia entry for alginic acid.
This is the opening paragraph.
Alginic acid, also called algin, is a naturally occurring, edible polysaccharide found in brown algae. It is hydrophilic and forms a viscous gum when hydrated. When the alginic acid binds with sodium and calcium ions, the resulting salts are known as alginates. Its colour ranges from white to yellowish-brown. It is sold in filamentous, granular, or powdered forms.
But it does appear that the Scottish production of alginates is very much of the past. Unless someone else can enlighten me!
Perhaps Scottish seaweed farming can be revived to produce alginates, which appear to have a surprising number of uses, as this section of the Wikipedia entry shows.
Alginates do appear to be remarkably useful.
These are a few uses.
- As of 2022 alginate had become one of the most preferred materials as an abundant natural biopolymer.
- Sodium alginate is mixed with soybean protein to make meat analogue.
- They are an ingredient of Gaviscon and other pharmaceuticals.
- Sodium alginate is used as an impression-making material in dentistry, prosthetics, lifecasting, and for creating positives for small-scale casting.
- Sodium alginate is used in reactive dye printing and as a thickener for reactive dyes in textile screen-printing.
- Calcium alginate is used in different types of medical products, including skin wound dressings to promote healing,
Alginates seem to have some rather useful properties.
Four years ago, I tripped over in my bedroom, which I wrote about in An Accident In My Bedroom. I wonder if the Royal London Hospital used calcium alginate skin dressings to restore my hand to its current condition.
Paul Daniels would have said, “It’s magic!”
In the future these dressings may be produced from UK-produced seaweed.
Centrica Partners With Hull-Based HiiRoc For Hydrogen Fuel Switch Trial At Humber Power Plant
The title of this post, is the same as that on this article on Business Live.
This is a paragraph.
It comes as the owner of British Gas has also increased its shareholding in the three-year-old business to five per cent. Last November it was one of several investors to pump £28 million into HiiRoc alongside Melrose Industries, HydrogenOne, Cemex, Hyundai and Kia, who joined existing strategic investors Wintershall Dea and VNG.
This could be sensational.
The reason I said that was that I used to share an office at ICI Mond Division, with Peter, who was putting instruments on a plant called the Badische. It was a new process to create acetylene. If I remember correctly, the process was as follows.
Ethylene was burned and then quenched in naptha.
The trouble was that the process produced a lot of carbon, which clogged the burners, and masses of black smoke, which upset everybody in Runcorn, especially on washing day!
Someone was worried that the plant might go into explosive limits, so Peter had devised a clever infra-red instrument to read the composition of the off-gas from the burner. It was found to be in explosive limits and ICI shut it down. BASF said ICI were wrong and there was no way to measure the composition of the off-gas anyway. A few months later BASF’s plant exploded and buried itself in a hillside in Southern Germany. Upon hearing this news, ICI shut the Badische for ever. ICI were annoyed in that they had to spend £200,000 on a flameless cutter to dismantle the plant.
I do wonder, if HiiROC have tamed BASF’s beast to do something useful, like produce hydrogen and carbon black!
The Anonymous Widower 