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Courts shut down renewable energy investment company

Darlington company that sold investment opportunities in renewable energy plants has been shut down after it failed to pay back millions of investors’ funds.

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UK power stations have gone without coal for the longest period since the Industrial Revolution

BRITAIN’s power stations have gone without coal for the longest period since the Industrial Revolution – it emerged yesterday.

Ministers hailed new industry figures which revealed the bulk of electricity over the Easter weekend was generated by renewable ‘green’ energy and nuke power.

Not a single kilo of coal had been burned for 82 hours.

In China, around 75 per cent of its electricity comes from coal.

The staggering figures were championed by Health Secretary Matt Hancock on Twitter.

The Tory leadership contender said: “One reason the UK has cut carbon emissions more than almost anywhere. It’s worth celebrating.”

Under current Government plans, all coal power plants are due to close in 2025 – five years ahead of Canada.

 

 

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Alternative heat solutions: converting a town to low carbon heating

Details

As part of its wider research into heat decarbonisation, BEIS commissioned Ramboll Energy to explore possible technologies able to convert a UK town to low carbon heating and to analyse the costs, practical constraints and challenges associated with each of them.

The technologies analysed were:

  • hydrogen with carbon capture and storage combined with electric cooking
  • hybrid heat pumps with gas cooking
  • electric heat pumps and electric cooking
  • district heating from biomass and heat pumps

Read more here:

https://www.gov.uk/government/publications/alternative-heat-solutions-converting-a-town-to-low-carbon-heating

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Invest directly in new wind farms while saving on energy bills with new UK startup

Ripple Energy aims to put wind power in the hands of the people while giving them cheap, reliable energy at a stable price

Britain is home to a resource that’s enormously abundant, produces electricity much more cheaply than oil or gas, emits no carbon dioxide and – unlike fossil fuels – involves no devil’s bargain with regimes like Putin’s Russia or the kingdom of Saudi Arabia.

Wind energy produced locally could supply the majority of the UK’s electricity needs, yet there is no gold rush around this valuable energy source. Yes, wind is growing in importance as a way of powering our homes and businesses, but, worryingly, last year investment in renewable energy dropped to its lowest in a decade.

Recent headlines have pointed to Britain going “coal-free” for almost four days – the longest period since the Industrial Revolution – but much of the energy we consumed instead of coal came from gas or was imported from overseas.

These stories hide the fact that green energy subsidies have been ditched and the government has been accused of creating a “hostile environment” for new renewable generation.

Even if the future of the planet wasn’t at stake, this would be a criminal underinvestment in an area where Britain has a clear inbuilt natural advantage.

Ripple Energy gives UK consumers the chance to bypass big suppliers with their rip-off tariffs and overpaid execs. Instead of waiting for stuck-in-the-mud ministers to take the action to support the transition away from fossil fuels Ripple allows consumers to directly fund cheap, clean, renewable energy, in a simple way.

As consumers, we stand to save £85 to £175 a year on our energy bills while funding the expansion of the cleanest, cheapest, safest energy currently available produced right here on our shores.

Here’s the offer: You put in around £1,300 for a stake in a new onshore wind farm. You can invest more if you want but this is the amount Ripple reckons will give you the amount of energy needed for an average home.

For that you get electricity at a low price which will remain stable for the entire 25-year lifespan of a wind farm rather than seeing bills shoot up based on the whims of global energy markets.

It’s simple to sign up online. Enter a few details such as where you live and how big your house is. After that you agree to become a member of what’s known as a Community Benefit Society. It’s like a company but, in keeping with its name, it benefits the wider world rather than just its shareholders.

You can get involved in the society if you want but this is by no means an obligation. Ripple will run things and you’ll get a bill from one of the two suppliers the company is currently working with.

The whole idea came about because, after 18 years working in renewable energy, Ripple founder Sarah Merrick, saw a huge and unnecessary gap in the market.

“People love wind power”, says Merrick. “But it’s not that easy for them to get it.” There are green energy tariffs but these mostly serve to reallocate existing renewable supply amongst different customers. By contrast, Ripple sources new money to promote the construction of extra wind capacity.

Big firms have been pumping money into their own renewable energy projects for several years, but it’s so far been pretty much off-limits to the consumers.

“It’s great that companies like Google and Ikea can access cheap renewable energy,” says Merrick. “But we think everyone should be able to do that.”

“When you work out the numbers it’s pretty simple and even people who have worked in renewable energy for a long time are surprised.”

Ripple is currently crowdfunding to support its growth as it works towards its first project – a single wind turbine that will supply around 800 homes.

It’s been so popular that after a week Ripple is already at close to two thirds of its £750,000 target.

The crowdfunder will enable Ripple to complete the development of its clean energy ownership platform and market its first pilot project later this year. Merrick is now eyeing up a 20-megawatt farm that will provide power to around 18,000 households.

As well as cheaper bills Ripple offers something else that is extremely valuable in the face of political inaction. As thousands of protestors take to Britain’s streets to protest and demand a ‘Citizens Assembly’ on climate change, Ripple presents a way of democratising the ownership of energy, our most crucial resource.

“We don’t think that in the future people will need big utilities, or pensions funds for that matter, to own renewable energy supply,” says Merrick.

“They can do it themselves.”

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5 renewable energy developments to look out for in 2019

2018 was a record-breaking year for the UK, with renewable energy leading the charge. In fact, it was the greenest year on record for UK energy generation. 2018 was also a significant year for Opus Energy (you can read more about that here).

There were several record-breaking events in the world of energy. The UK’s renewable energy capacity exceeded that of fossil fuels; there were new generation records set for wind and solar over the summer months as the UK enjoyed a heatwave.

With such an impressive year behind us, we’re hoping to see more of the same in 2019 and beyond. Here are some of the other exciting prospects in the world of renewable energy that we’re hoping to see next year.

Storage becoming increasingly viable

With the growing demand for electric cars helping to drive the production of better batteries, prices are falling, and consumers are beginning to experiment with solar and storage solutions at home. Equally, storage is necessary for the consistent supply of energy to the Grid. Renewable sources can be intermittent, so saving the energy for when the weather isn’t favourable is important.

Drax is one of the companies at the forefront of this and has proposed the development of new gas generation assets at its Yorkshire power plant. This would be accompanied by two battery storage facilities, as well as a power station the stores energy from pumped hydro power.

Opus Energy, too, has signalled its intent to be a part of the storage revolution. We’re currently running a trial with one of our customers to explore the benefits of battery storage for our customers and our business.

The potential success of storage goes beyond the UK; it is expected to help prove the viability of renewable energy as a major player in the generation mix of many countries, including Egypt and Ireland. Watch this space.

Progress in Central and South America

South America is quickly catching up with the rest of the world, with continued economic growth driving increased energy consumption, and an ever-more urgent need to ensure that our demand for energy doesn’t cause stress to the planet.

However, the current energy landscape is failing to keep up with energy demand and consumption. In Argentina in 2015, fossil fuels were 87% of the energy mix (although some companies are trying to change this – for example, this wind  one this Argentinian wind power generator is expanding its portfolio from 100 MW to 250 MW over the coming years.

The story is the same for many South American countries, with the pressing need for an energy revolution driving change – but there is potential everywhere. Chile, for example, has limited fossil fuel resources but benefits from considerable hydropower, solar and wind resource. Making the most of these resources will be vital across the continent.

The continued drive towards energy efficiency

Using energy efficiently and reducing energy use where possible is just as important as using cleaner energy sources.

This is part of the logic behind the UK’s smart meter rollout, helping everyone to become more aware of their energy use and how using energy at different times can be both cheaper and more environmentally friendly.

National Grid, the UK’s energy system operator, has created a carbon-intensity toolwhich forecasts how “clean” or “dirty” electricity will be a few days in advance. Similarly, Drax’s Electric Insights tool provides a near-real time picture of the UK’s energy consumption and its sources.

According to Carbon Brief, an environmental organisation, reduced energy use and the rise of renewable energy sources have been the biggest reasons behind the UK’s reduced greenhouse gas emissions.

Increased efficiency, therefore, will be on the agenda for many businesses and households. Not just to mitigate any price increases – but to help reduce environmental impact.

The Middle East: Falling fossils and the renewable rush

The Middle East is better known for its rich fossil fuel resources, with plentiful oil and gas deposits. Some might say it falls behind the rest of the world in terms of renewable energy investment, but there are reasons to be optimistic.

Downward pressure on oil and gas prices has emphasised the importance of a diversified energy network, and self

As a large geographic region which spans continental borders, the climate of many of the countries is conducive to renewable energy generation.

For inland regions, there exists the strong potential for both conventional ‘photovoltaic’ solar power, and the less widely-used ‘concentrated solar power’, thanks to the high levels of solar irradiance across the region. According to the Renewable Energy Network, a number of solar projects are already in the planning or construction stages.

Electric vehicles hitting the highways

As battery storage technology continue to improve, one of the most visible applications of the technology is in electric vehicles.

In the UK, there are more than 130,000 registered EVs. This increase in the number of electric vehicles on the road has a twofold benefit in terms of energy consumption.

Firstly, it reduces fossil fuel use in the transport sector, which reduces the use of fossil fuels overall. While this electrification places greater demand on the energy sector, the continued reduction in fossil fuel use (in the UK, in particular) means that the average emissions associated with EVs has fallen by 50%.

Secondly, it makes a difference to local air quality. Concerns were repeatedly raised about the effect of diesel and petrol vehicles and the potential dangers caused by their exhaust fumes.

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Pioneering Orkney energy project offers glimpse of fossil fuel-free future

IT is the pioneering project that offers a tantalising glimpse of a cleaner, greener future free of mass pollution.

Experts have launched the first phase of a ground-breaking £28.5 million energy system which it is hoped will eliminate the need for fossil fuels in Orkney — and eventually the whole of the UK.

The scheme includes plans for a locally-powered electric bus and electric bike “integrated transport system” on the islands, as well as the mass roll-out of electric vehicles.

Meanwhile, up to 500 domestic and 100 large-scale batteries will be used to store renewable energy, allowing it to be pumped into the grid when winds drop or the sun disappears.

Dubbed the “energy system of the future”, those involved hope it will prove such a success it will eventually be rolled out across the UK and beyond – helping to create a future powered entirely by renewables.

Mark Hamilton from Solo Energy, one of the firms involved in the ReFLEX (Responsive Flexibility) scheme, said it was a “world-leading example” of how innovation can drive the transition to green energy.

He said: “In Orkney, we’ve got a very high level of renewable generation from wind and solar, and other forms of generation such as wave and tidal.

“All of these renewable generation sources are obviously low carbon, but they are intermittent – so the wind comes and goes, the sun comes and goes.

“The ReFLEX project involves deploying battery systems and smart electric vehicle charging to balance the intermittency of renewables.

“So what Solo does, we have a software platform which we use to control battery systems across the grid to respond to the intermittency of renewable generation.

“So basically, when there’s lots of renewables generating, we charge battery systems across the grid, store that low-cost renewable energy, and then release it back to the grid when renewable generation decreases.”

Mr Hamilton said 25 per cent of the UK’s current electricity needs are met by renewable energy.

He said it would realistically be 20 to 30 years before the country’s entire energy system could become fully reliant on renewables.

He said: “We can have all the wind and solar farms we want but unless we have the means to store and balance renewables we will never fully wean ourselves off fossil fuels and get to the root of the climate change problem.”

The Orkney scheme uses a “virtual power plant” model which sees rechargeable lithium-ion battery systems controlled remotely using special software.

This allows them to be charged when renewable energy – such as wind – is abundant. They can then release that energy when the supply drops.

Orkney is already a world-leader in wave and tidal technology and boasts a high uptake of electric vehicles.

The latest project aims to deploy up to 600 extra electric vehicles and 100 flexible heating systems, as well as a Doosan industrial-scale hydrogen fuel cell which produces eco-friendly energy and heat.

Once demonstrated in Orkney, experts hope the “virtual energy system” – which aims to link up local electricity, transport, and heat networks into one controllable, overarching system – will be rolled out across the UK and internationally.

To encourage uptake, electric vehicles will be provided through a low-cost leasing arrangement, while batteries will be provided free on the basis customers will benefit from lower energy bills.

“50% of the project is being funded privately indicating the appetite that exists within the partners to make this project work.

“Orkney has already demonstrated high commitment for local sustainable energy solutions and the county is well on its way to decarbonising each aspect of the energy system.

“The target for Orkney is to have a negative carbon footprint and this pioneering project will build upon the existing local energy system, local infrastructure and local expertise, to accelerate this transition to a fully sustainable and flexible energy system.”

The Scottish Government aims to generate 50% of the country’s overall energy consumption from renewable sources by 2030.

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Centrica to close British Gas offices and training centre near Armley Gyratory

he British Gas offices and training centre off Armley Gyratory are set to close.

The large complex on Canal Street, where hundreds of staff are based, will be closed down with staff redeployed to the company’s British Gas site in Holbeck, a shock announcement confirmed this afternoon.

Centrica – which runs British Gas and Scottish Gas – confirmed the closure had been announced to staff at the west Leeds site today but added that no job losses had been announced ‘in relation to that site.

However, a staff member at the Canal Street site – who wished to remain anonymous – told LeedsLive that only certain roles would be available in Holbeck.

She alleged: “There is only certain positions available in New Bridge House. Not everyone from Canal Street will be taken over.

“That is all we really know for now though. The management are keeping it very hush hush.”

Centrica is also consolidating its two Glasgow sites with the loss of 400 jobs – a total of 500 jobs will be lost across the UK, a spokeswoman confirmed.

She told LeedsLive: “We’re consolidating our Leeds based sites into one location and our New Bridge House site is situated close by.”

Last year the company announced plans to axe 4,000 jobs – just over half of them in the UK.

The 500 announced today are part of the 4,000 planned.

Armley councillor Alice Smart said: “This is the first we’ve heard about it – the Armley councillors and Rachel Reeves. We’re really concerned about potential job losses.

“There are hundreds of jobs there and there’s a lot of local people that rely on them.”

She also confirmed that Leeds City Council and GMB will be speaking to Centrica and looking for job protection guarantees.

In a statement, Centrica said it had proposed ‘a number of changes across the UK’ to staff, including ‘role reductions to reduce management layers, role reduction to reduce back office functions to improve efficiency’.

She said: “This difficult decision was made because we need to respond to the growing challenges we face. Our customers want more from us. Competition is fierce and we’re operating under a price cap.”

Justin Bowden, GMB National Secretary, said: “GMB is confident that the vast majority of staff affected by these closures can be redeployed within British Gas and we will do everything in our power to ensure that every GMB member who wants to stay with the company has a job.”

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Oxfordshire to trial £40m industry first local energy system project

Oxfordshire will receive £40 million of funding for a project to trial a new smart local energy system – or ‘smart grid’.

The system will explore how the growth in local renewables, electric vehicles, battery storage, and demand side response can be supported and help in reducing charges to consumers.

An industry-first, Project LEO (Local Energy Oxfordshire) comes on top of the £41 million Energy Superhub Oxford (ESO) project, also announced this week. Project LEO will develop a new model for the way in which local energy systems in Oxfordshire are managed and measured.

The system will balance local demand with local supply in a real-world environment and will help to test markets, inform investment models and, assess the benefits of flexibility to the energy system.

The project will demonstrate the potential for individuals and communities to become active participants in the energy systems of the future. Project LEO will enable Oxfordshire based social enterprise, the Low Carbon Hub, to grow its existing portfolio of 40+ energy projects bringing another £16 million of community energy projects to the County.

By creating opportunities for local communities to trade the energy they generate, use and store at a local level, project LEO will show the potential for individuals, businesses and communities to collaborate in the creation of an energy system that’s good for people and the planet.

The project has been awarded £13.8m from the UK Research and Innovation (UKRI), and will be supported by £26m of private funding from the project partners.  It will be led by Scottish and Southern Electricity Networks (SSEN) in partnership with Oxford City Council, University of Oxford, EDF Energy, Oxford Brookes University, Oxfordshire County Council, Nuvve, Low Carbon Hub, Open Utility and Origami Energy.

The recent 2018 Intergovernmental Panel on Climate Change report states that we have just 12 years to act on climate change if global temperature rises are to be kept within the recommended 1.5 degrees Celsius. Oxford City Council has joined other councils across the world in declaring a climate emergency.

Oxford City Council is a member of Low Carbon Oxford, a network of 40 public/private organisations that aims to reduce citywide emissions by 40% of 2005 levels by 2020. To meet these targets, 58% of electricity demand in Oxfordshire must be generated from renewable resources. Project LEO will support Oxfordshire on its journey to meet this target.

Oxfordshire County Council also last month outlined the work that it was doing to tackle carbon emissions which includes ‘solar schools’, energy saving street lighting and waste reduction. Carbon targets will also be reviewed in line with the latest scientific evidence from the International Panel on Climate Change.

The street-lighting project alone is projected to reduce Oxfordshire County Council’s greenhouse emissions from this source by 70%. The 20 Oxfordshire County Council maintained Solar Schools generate electricity to the equivalent needed to power 150 households, saving over 260 tonnes of carbon per year.

Project LEO will bring together significant local, academic and industry expertise, with the project partners working closely with stakeholders in the county, including the district councils.

The partner’s roles in the project are:

  • Scottish and Southern Electricity Networks will establish a neutral market facilitation platform demonstrating data exchange and the purchase of flexibility services to actively balance the network mitigating against local constraints.
  • Oxford City Council and Oxfordshire County Council will provide key infrastructure and local investment projects, including intelligent street lighting, EV infrastructure and responsive heat networks.
  • Leading social enterprise, the Low Carbon Hub, will manage and develop a portfolio of local energy generation and demand projects, informing investment models;
  • Leading academics from the University of Oxford and Oxford Brookes University, will collect and analyse data sources to deliver a model for future local energy ‘whole system’ mapping and planning; and
  • Marketplace Operators Origami, Piclo, and Nuvve will pilot new business models, via innovative market platforms, to deliver local energy trading, flexibility and aggregation;
  • Energy supplier, EDF, will bring customer focused innovations and energy services to more than 5 million customers;

Councillor Tom Hayes, Board Member for A Cleaner and Greener Environment, Oxford City Council, said:“We’re thrilled to see £40 million for Oxfordshire to take back control of energy. Project LEO will return power to the people, so that we can generate clean energy for our own neighbourhoods. By creating opportunities for communities to trade the energy they generate, use, and store at a local level, we hope that Project LEO will empower people, companies, and local areas to build an energy system that works for people and planet.”

Minister Claire Perry, Energy and Clean Growth, said: “We are at the start of a green revolution as we move to more digital, data-driven smart systems that will bring us cleaner and cheaper energy. These projects, backed by government funding, are set to spark a transformation and change the way we interact with energy for the better as part of our modern Industrial Strategy.

“We’re excited to see how these businesses and project partners reveal how innovative tech, such as energy storage, heat networks and electric vehicles, can set us on the path to a smarter energy future. This is tomorrow’s world, today.”

Dr Barbara Hammond MBE, CEO, Low Carbon Hub, said:  “Project LEO provides a brilliant opportunity for us to play a leading role in developing the energy system of the future. One that is sustainable for our planet, will ensure the lights stay on when needed and, crucially, is beneficial for our communities.

“Our work over the past eight years has demonstrated our commitment to building renewable energy projects across Oxfordshire with schools, businesses and communities and we’re so excited for this project to take that work to the next level working with excellent project partners who are expert in their fields.

“Project LEO will enable us to further grow community-owned renewable energy in Oxfordshire, provide new investment opportunities for local people, and allow our communities to have more say in their energy choices.

“The Low Carbon Hub is out to prove we can meet our energy needs in a way that’s good for people and good for the planet and this project will be big step in that journey”

Llewellyn Morgan, Head of Innovation, Oxfordshire County Council said: “This is really exciting news and will build on the county council’s long-running work to enable cleaner technology to thrive in Oxfordshire.

“LEO will create a new energy ecosystem for Oxfordshire that we expect to benefits everyone in the next ten years.

“Oxfordshire is leading the way in the UK by exploring how local renewables, electric vehicles, battery storage and encouraging people to shift their energy use can be supported by a local, flexible, and responsive electricity grid to ensure value for consumers and opportunities for communities and market providers.”

Professor Gupta, Principal Investigator for the initiative, Oxford Brookes University: “We are very excited to be part of this ground-breaking project on smart local energy systems in Oxfordshire. Project LEO will usher in new and radical thinking on developing value streams from distributed energy resources using local flexibility markets.

LEO builds strongly on our recent award-winning research (project ERIC) that demonstrated how distributed generation and smart home batteries, can be managed to reduce peak grid load and increase self-consumption of local generated electricity.

We are really pleased to be collaborating with leading experts to help inform the energy system of the future”.

Principal Investigator Professor Malcolm McCulloch, founder of the Energy and Power Group, University of Oxford, said, “We are excited that this revolutionary project is happening in the UK. It will lead the world in developing new value streams from local energy assets using local markets. This project will transform new thinking in the future of energy systems to a reality and will crystallise large scale investment. This will enable a significant deployment of clean energy resources in Oxfordshire and enable end users to have a lower cost, secure energy supply.”

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Pioneering Orkney energy project offers glimpse of fossil fuel-free future

IT is the pioneering project that offers a tantalising glimpse of a cleaner, greener future free of mass pollution.

Experts have launched the first phase of a ground-breaking £28.5 million energy system which it is hoped will eliminate the need for fossil fuels in Orkney — and eventually the whole of the UK.

The scheme includes plans for a locally-powered electric bus and electric bike “integrated transport system” on the islands, as well as the mass roll-out of electric vehicles.

Meanwhile, up to 500 domestic and 100 large-scale batteries will be used to store renewable energy, allowing it to be pumped into the grid when winds drop or the sun disappears.

Dubbed the “energy system of the future”, those involved hope it will prove such a success it will eventually be rolled out across the UK and beyond – helping to create a future powered entirely by renewables.

Mark Hamilton from Solo Energy, one of the firms involved in the ReFLEX (Responsive Flexibility) scheme, said it was a “world-leading example” of how innovation can drive the transition to green energy.

He said: “In Orkney, we’ve got a very high level of renewable generation from wind and solar, and other forms of generation such as wave and tidal.

“All of these renewable generation sources are obviously low carbon, but they are intermittent – so the wind comes and goes, the sun comes and goes.

“The ReFLEX project involves deploying battery systems and smart electric vehicle charging to balance the intermittency of renewables.

“So what Solo does, we have a software platform which we use to control battery systems across the grid to respond to the intermittency of renewable generation.

“So basically, when there’s lots of renewables generating, we charge battery systems across the grid, store that low-cost renewable energy, and then release it back to the grid when renewable generation decreases.”

Mr Hamilton said 25 per cent of the UK’s current electricity needs are met by renewable energy.

He said it would realistically be 20 to 30 years before the country’s entire energy system could become fully reliant on renewables.

He said: “We can have all the wind and solar farms we want but unless we have the means to store and balance renewables we will never fully wean ourselves off fossil fuels and get to the root of the climate change problem.”

The Orkney scheme uses a “virtual power plant” model which sees rechargeable lithium-ion battery systems controlled remotely using special software.

This allows them to be charged when renewable energy – such as wind – is abundant. They can then release that energy when the supply drops.

Orkney is already a world-leader in wave and tidal technology and boasts a high uptake of electric vehicles.

The latest project aims to deploy up to 600 extra electric vehicles and 100 flexible heating systems, as well as a Doosan industrial-scale hydrogen fuel cell which produces eco-friendly energy and heat.

Once demonstrated in Orkney, experts hope the “virtual energy system” – which aims to link up local electricity, transport, and heat networks into one controllable, overarching system – will be rolled out across the UK and internationally.

To encourage uptake, electric vehicles will be provided through a low-cost leasing arrangement, while batteries will be provided free on the basis customers will benefit from lower energy bills.

Led by the European Marine Energy Centre (EMEC), the ReFLEX Orkney scheme brings together an expert consortium including Solo Energy, Aquatera, Community Energy Scotland, Heriot-Watt University and Orkney Islands Council – as well as multi-national energy company Doosan Babcock. It is funded by UK Research and Innovation through the Industrial Strategy Challenge Fund.

Scotland Office minister Lord Ian Duncan said £14.3 million of UK Government money was being pumped into the project to help “establish the Scottish Islands as an energy powerhouse”.

UK energy minister Claire Perry said: “What we are seeing here on Orkney is a test bed for the energy system of the future.

“These smart systems are a key part of our modern Industrial Strategy and will provide cheaper, greener and more flexible access to energy for everyone.

“What we learn from these innovations could one day be rolled out across the UK and exported around the world and we’ll be able to say it was ‘Made in Orkney’.”

Professor David Flynn of Heriot-Watt University said it had the potential to “deliver global change in how we achieve our low carbon objectives”.

Speaking on behalf of the ReFLEX Orkney project partners, Neil Kermode, managing director at EMEC, said: “We’re delighted that UK Research and Innovation have funded this project.

“This new model will demonstrate how we can better interact with, own and manage our integrated energy systems locally, both at individual and community level.

“50% of the project is being funded privately indicating the appetite that exists within the partners to make this project work.

“Orkney has already demonstrated high commitment for local sustainable energy solutions and the county is well on its way to decarbonising each aspect of the energy system.

“The target for Orkney is to have a negative carbon footprint and this pioneering project will build upon the existing local energy system, local infrastructure and local expertise, to accelerate this transition to a fully sustainable and flexible energy system.”

The Scottish Government aims to generate 50% of the country’s overall energy consumption from renewable sources by 2030.

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UK grid to be ‘zero carbon’ by 2025

The operator and manger of the UK’s electricity supply has announced plans to remove all carbon emissions from the national grid.

Electricity System Operator (ESO), who operates the power network on behalf of National Grid, wants the UK grid to be “zero carbon” by 2025. It plans to do this by using artificial intelligence (AI) and machine learning tools to allow for real-time management of UK energy assets.

ESO currently relies on a mix of fossil fuel-based generation and renewable energy sources to power the grid.

However, ESO has identified major changes that need to take place to ensure that the growing UK renewable energy portfolio can be utilised to its fullest extent.

The changes – outlined in ESO report Zero Carbon Operation 2025 – involve reducing dependence on gas and oil-fired power plants, which are currently heavily relied on.

The operator and manger of the UK’s electricity supply has announced plans to remove all carbon emissions from the national grid.

Electricity System Operator (ESO), who operates the power network on behalf of National Grid, wants the UK grid to be “zero carbon” by 2025. It plans to do this by using artificial intelligence (AI) and machine learning tools to allow for real-time management of UK energy assets.

ESO currently relies on a mix of fossil fuel-based generation and renewable energy sources to power the grid.

However, ESO has identified major changes that need to take place to ensure that the growing UK renewable energy portfolio can be utilised to its fullest extent.

The changes – outlined in ESO report Zero Carbon Operation 2025 – involve reducing dependence on gas and oil-fired power plants, which are currently heavily relied on.

“[ESO will] enhance the forecasting tools for wind, solar, embedded and transmission using AI and machine learning techniques […] to look at a range of scenarios and real-time management of the network,” the report states.

ESO director Fintan Slye, said this change to greater use of renewables will require “fundamental changes” to how we operate our power systems.

“Zero carbon operation of the electricity system by 2025 means a fundamental change to how our system was designed to operate; integrating newer technologies right across the system – from large-scale off-shore wind to domestic scale solar panels – and increasing demand-side participation, using new smart digital systems to manage and control the system in real-time,” he said.

“We will identify the systems, services and products we will need to run a zero-carbon network and design the new competitive marketplaces needed to source these as efficiently as possible, from both new and existing companies. We believe that promoting competition will ultimately lead to better value for consumers.”

ESO is aiming to launch tendering for partners to develop its new tools and integrated AI this winter, and deliver the new upgraded national grid by 2025.

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