ESB Invests In Floating Offshore Wind Mooring Tech
The title of this post, is the same as that of this article on offshoreWIND.biz.
This is the sub-heading.
Ireland’s Electricity Supply Board (ESB) has announced that it will invest in Dublin Offshore Technology (DOT), a company specialising in floating offshore wind mooring technology
These three paragraphs, outline the new relationship.
DOT has developed a technology solution for floating offshore wind mooring systems which provides significant design improvements for the wind farm, the company said.
The optimised mooring system delivers these benefits using locally-sourced materials tried and tested in the offshore environment with no degradation over the full lifetime of the wind farm, according to the Irish energy company.
By partnering with DOT, ESB will be able to leverage its expertise and resources to accelerate the development and delivery of its floating wind project portfolio.
In 13 Offshore Wind Projects Selected In World’s First Innovation And Targeted Oil & Gas Leasing Round, I wrote about how ESB and DOT were working together on Malin Sea Wind.
This update on the Dublin Offshore web site describes the Malin Sea Wind project.
In the early days of North Sea oil and gas, I saw relationships like these form and blossom. You could argue that the success of the project management system; Artemis, that I wrote, benefitted from close relationships with major oil companies and large international engineering companies.
History is just repeating itself.
Centrica Business Solutions Begins Work On 20MW Hydrogen-Ready Peaker In Redditch
The title of this post, is the same as that as this news item from Centrica Business Systems.
This is the sub-heading.
Centrica Business Solutions has started work on a 20MW hydrogen-ready gas-fired peaking plant in Worcestershire, as it continues to expand its portfolio of energy assets.
These three paragraphs outline the project.
Centrica has purchased a previously decommissioned power plant in Redditch, and is set to install eight UK assembled containerised engines to burn natural gas.
Expected to be fully operational later this year, the peaking power plant will run only when there is high or peak demand for electricity, or when generation from renewables is low. The Redditch project will have the capacity to power the equivalent of 2,000 homes for a full day when required, helping to maintain stability and reliability on the grid.
The engines will also be capable of burning a blend of natural gas and hydrogen, futureproofing the site and helping the UK transition towards a decarbonised energy system.
- The original power station had Rolls-Royce generators.
- Cummins and Rolls-Royce mtu and possibly other companies can probably supply the dual fuel generators.
- Cummins have received UK Government funding to develop hydrogen-powered internal combustion engines.
- This press release from Cummins, which is entitled Dawn Of A New Chapter From Darlington, gives more details on Cummins’ plans for the Darlington factory and hydrogen.
Given that Cummins manufactured sixty-six thousand engines in Darlington in 2021 and it is stated that these containerised engines will be assembled in the UK, I feel, that these engines may be from Cummins.
Centrica’s Plans
This paragraph in the Centrica Business Systems news item, outlines their plans.
The Redditch peaking plant is part of Centrica’s plans to deliver around 1GW of flexible energy assets, that includes the redevelopment of several legacy-owned power stations, including the transformation of the former Brigg Power Station in Lincolnshire into a battery storage asset and the first plant in the UK to be part fuelled by hydrogen.
As Redditch power station is only 20 MW, Centrica could be thinking of around fifty assets of a similar size.
Brigg Power Station
The Wikipedia entry for Brigg Power station gives these details of the station.
- The station was built in 1993.
- It is a combined cycle gas turbine power station.
- The primary fuel is natural gas, but it can also run on diesel.
- It has a nameplate capacity of 240 MW.
Brigg power station is also to be used as a test site for hydrogen firing.
This news item from Centrica is entitled Centrica And HiiROC To Inject Hydrogen At Brigg Gas-Fired Power Station In UK First Project.
These paragraphs from the news item explains the process.
The 49MW gas fired plant at Brigg is designed to meet demand during peak times or when generation from renewables is low, typically operating for less than three hours a day. Mixing hydrogen in with natural gas reduces the overall carbon intensity.
It’s anticipated that during the trial, getting underway in Q3 2023, no more than three per cent of the gas mix could be hydrogen, increasing to 20% incrementally after the project. Longer term, the vision is to move towards 100% hydrogen and to deploy similar technology across all gas-fired peaking plant.
HiiROC’s proprietary technology converts biomethane, flare gas or natural gas into clean hydrogen and carbon black, through an innovative Thermal Plasma Electrolysis process. This results in a low carbon, or potentially negative carbon, ‘emerald hydrogen’.
Because the byproduct comes in the form of a valuable, solid, pure carbon it can be easily captured and used in applications ranging from tyres, rubbers and toners, and in new use cases like building materials and even as a soil enhancer.
It looks to me, that HiiROC are using an updated version of a process called pyrolysis, which is fully and well-described in this Wikipedia entry. This is the first paragraph.
The pyrolysis (or devolatilization) process is the thermal decomposition of materials at elevated temperatures, often in an inert atmosphere. It involves a change of chemical composition. The word is coined from the Greek-derived elements pyro “fire”, “heat”, “fever” and lysis “separating”.
Pyrolysis is more common than you think and is even used in cooking to do things like caramelise onions. This is a video of a chef giving a demonstration of caramelising onions.
On an industrial scale, pyrolysis is used to make coke and charcoal.
I came across pyrolysis in my first job after graduating, when I worked at ICI Runcorn.
ICI were trying to make acetylene in a process plant they had bought from BASF. Ethylene was burned in an atmosphere, that didn’t have much oxygen and then quenched in naphtha. This should have produced acetylene , but all it produced was tonnes of black soot, that it spread all over Runcorn.
I shared an office with a guy, who was using a purpose-built instrument to measure acetylene in the off-gas from the burners.
When he discovered that the gas could be in explosive limits, ICI shut the plant down. The Germans didn’t believe this and said, that anyway it was impossible to do the measurement.
ICI gave up on the process and demolished their plant, but sadly the German plant blew up.
It does look like HiiROC have tamed the process to be able to put hydrocarbons in one end and get hydrogen and carbon black out the other.
I wonder how many old and possibly dangerous chemical processes can be reimagined using modern technology.
It certainly appears that Centrica are not holding back on innovation.
Conclusion
I’ve never run a large electricity network. Not even a simulated one.
But I’m fairly sure that having a large number of assets of different sizes, that can be optimised to the load and the fuel available, creates a more reliable and efficient network.
Heavy energy users may even have their own small efficient power station, that is powered by gases piped from the local landfill.
Windeed’s Floater Solution Gets Bureau Veritas Nod
The title of this post, is the same as that of this article on offshoreWIND.biz.
This is the sub-heading.
Bureau Veritas has granted Approval in Principle (AiP) to Sweden-based Windeed for its low-weight and low-acceleration floater solution for offshore wind turbines.
These three paragraphs fill in more details.
The AiP is a significant milestone in the development of Windeed’s technology, which could offer competitive prices and lower levelised cost of energy (LCOE) compared to other solutions on the market due to its industrialised manufacturing process, the developer said.
Bureau Veritas provided testing and assessment to ensure the solution is safe, reliable, and ready for deployment.
The approval in principle is a testament to the quality and innovation of the company’s technology.
I have been waiting some months for a new more efficient float for offshore wind turbines and then Gazelle Power Systems and Windeed turn up with designs on the same day.
Pictures of Gazelle’s design are available on their web site, but Windeed’s web site is text only, although it does say this.
Our purpose is to provide superior technology and industrialization of floating offshore wind power, lowering costs and environmental impact, to meet the need of more and clean energy.
I wouldn’t be surprised to see other designs!
First Demonstration Of Low-Cost Green Hydrogen Tech Launched By Advanced Ionics
The title of this post, is the same as that of this article on Hydrogen Fuel News.
Advanced Ionics has announced its Early Access Program, sponsored by the Repsol Foundation. This program will be a paid pilot study. Their low-cost green hydrogen production processes are powered by the Symbion electrolyzer technology, which uses process waste heat and is up to 50% more efficient than other technologies. Through the Early Access Program, Advanced Ionics hopes to provide customers with confidence in the potential of its technology. The program is part of an effort from the foundation to support entrepreneurships spearheading industrial decarbonization tech.
Note.
- At a first glance this looks promising.
- Electrolysis and waste heat is suggesting high temperature electrolysis, which appears to be more efficient.
- I suspect that the Repsol Foundation has plenty of funds.
- Advanced Ionics have a comprehensive web site.
I shall add this to my list of electrolyser technology to watch.
Apollo to Work On Celtic Sea Multi-Connection Offshore Substations
The title of this post, is the same as that of this article on offshoreWIND.biz.
This is the sub-heading.
Celtic Sea Power has awarded the Aberdeen-based engineering consultants, Apollo, with the pre-FEED contract for the 400 MW Pembrokeshire Demonstration Zone Multi-connection Offshore Substation (PDZ MOS) and 2x 1 GW MOSs targeting The Crown Estate Refined Area of Search (RAoS) A offshore Wales
This is the first paragraph.
Located 19 kilometres off the Pembrokeshire coast, the PDZ MOS project is designed to allow offshore renewable energy technology developers easy access to a consented test site complete with a grid connection to prove their technology in the offshore environment.
Sounds like the sort of infrastructure that is needed, so you can tow up your experimental floating wind turbine, secure it and just plug it in.
National Grid Energise World’s First T-Pylons
The title of this post, is the same as that of this press release from National Grid.
These are the four bullet points.
- Electricity is flowing to homes and businesses through the first new pylon design in the UK for nearly 100 years.
- Major milestone in National Grid’s Hinkley Connection project to connect 6 million homes and businesses in the South West to home grown, low carbon energy.
- The T-design, with a single pole and cross shaped arms, is around a third shorter than the traditional design with a smaller ground footprint.
- The T-pylons, along with a new substation and underground cabling, are now incorporated into National Grid’s electricity transmission network delivering electricity in Somerset and across England and Wales.
This is the first paragraph.
National Grid has successfully energised 36 of the world’s first T-pylons between Bridgwater and Loxton in Somerset. The new shaped pylons have been constructed as part of the £900 million Hinkley Connection Project, a new 57 km high-voltage electricity line that will connect six million homes and businesses to new sources of home grown, low carbon energy and help the UK to meet its net zero by 2050 target.
There is a video in the press release, which is well worth a view.
- The size of the pylons certainly reduces their visibility.
- It appears there are seven cables on either side.
These pictures show the transmission lines to the Sizewell power station site.
Note.
- The lower height is very noticeable.
- There seem’s to be a lot more wires.
- I would assume, that the reduced number of components, reduces the cost of installation and maintenance.
The installation proved that even in the most mundane of applications, innovation can bring positive results.
The T-pylons are a design by Danish company; Bystrup.
This is the specification from their comprehensive web-page.
- Power – 2 x 400 kV
- Height – 35 metres / 114 feet
- Units/km – 3 (5 units/mile)
- Material – Hot-dip galvanised steel, painted
- Assembly – On-site and quick – less than 10 parts
- Installation – Simple monopile foundation
- Production possible anywhere in the world
- Developed – 2011-2014
They’ve also won several awards.
- 1st prize in int. competition for RIBA
- Nominated for the IET Innovation Award 2014
- Gold Prize, CIGRE Seoul 2017
- Award winner, UK Steel Awards (SSDA) 2017
I would hope to see more in the UK.
Call For Innovations In Offshore Wind – RWE Launches Global Innovation Competition 2023
The title of this post, is the same as that of this press release from RWE.
This is the sub-heading.
Solutions wanted in the domains of ecology, circularity and system integration – Deadline for submission is 17th of April 2023
This is the first paragraph.
RWE, one of the world leaders in offshore wind, has launched its second annual Innovation Competition. The company is looking for solutions in the domains of ecology, system integration and circularity in offshore wind. RWE is dedicated to exploring and supporting innovative solutions that can both accelerate the pace of deployment of offshore wind, as well as contribute to sustainable development of offshore wind farms worldwide.
As someone who explored the dynamics of towing out and erecting floating oil platforms in the 1970s, I don’t think my experience fits entering. But I’ll be thinking about something.
World’s First Offshore Vessel Charging System Completes Harbour Trials
The title of this post, is the same as that of this article on offshoreWIND.biz.
This is the sub-heading.
MJR Power and Automation, together with Blackfish Engineering and Tidal Transit, have completed the harbour trials of the company’s platform-mounted automated offshore power and charging system.
Reading the article, this appears to be a very comprehensive system, that allows electric or hybrid wind farm servicing vessels to top up their batteries efficiently before returning to base.
Surely, it is better to do it this way by developing the charging network before bringing the battery and hybrid vessels into service.
UK Company Introduces Robotic Ecosystem For Offshore Wind Farm Inspections
The title of this post, is the same as that of this article on offshoreWIND.biz.
This is the sub-heading.
Marshall Futureworx, the venture building and advanced technologies arm of Marshall of Cambridge, has unveiled plans to provide offshore wind farm inspection services using a resident robotic ecosystem.
These two paragraphs outline the system.
Lilypad is an ecosystem of multiple autonomous BVLOS (Beyond Visual Line of Sight) UAVs (Unmanned Aerial Vehicles) which utilise artificial intelligence and navigational sensors to provide dynamic and on-demand offshore inspection services, Marshall Futureworx said.
The UAVs are deployed from dedicated offshore charging stations and monitored by a single remote pilot stationed in an onshore command and control centre. Inspection data and reports are then transmitted back to the wind farm operators, which is said to enable faster, more frequent, reliable, and predictive maintenance scheduling and more effective utilisation of assets.
I can think of lots of uses for a system like this.
Floating Foundation For 15+ MW Offshore Wind Turbines Launches
The title of this post, is the same as that of this article on offshoreWIND.biz.
This is the sub-heading.
Odfjell Oceanwind has launched the Deepsea Star™ harsh environment floating wind foundation designed to support wind turbines with a capacity of 15 MW and more.
Note.
- Odfjell Oceanwind is a Norwegian company and has this web site.
- This news item from Odfgell Oceanwind is entitled Odfjell Oceanwind Launches The Deepsea Star™ 15MW Floating Wind Foundation and was published on the 28th of February, 2023.
- The news item was the source of the iffshoreWIND.biz article.
- In the news item, one of the designers, explains some of the features.
I very much believe that ,my twenty-three-year-old self armed with ICI’s PACE 231-R would have had great fun examining the dynamic proiperties of a structure like this.
The Anonymous Widower 