Worlds First Grid-Scale Liquid Air Energy Storage Plant
Highview Power launches world’s first grid-scale liquid air energy storage plant
True long-duration energy storage addresses challenges of rising energy demand and balancing the grid
The world’s first grid-scale liquid air energy storage (LAES) plant will be officially launched today. The 5MW/15MWh LAES plant, located at Bury, near Manchester will become the first operational demonstration of LAES technology at grid-scale.
Professor John Loughhead OBE FREng FTSE, Chief Scientific Adviser at the Department for Business, Energy and Industrial Strategy (BEIS), will officially switch on the plant located at the Pilsworth landfill gas site in Bury. The LAES plant has been developed in partnership with recycling and renewable energy company, Viridor, and has been enabled in part by over £8m in funding from the UK government.
Professor John Loughhead, Chief Scientific Advisor at BEIS said, “We welcome the accomplishment of Highview Power, working together with their project site partner Viridor, to successfully build and operate this grid-scale liquid air energy storage technology demonstration plant.
The deployment of smart, flexible technologies, such as energy storage, will help to ensure the UK has a secure, affordable and clean energy system now and in the future in keeping with the priorities within UK Government’s Modern Industrial Strategy.
We’re pleased to have been able to support the Pilsworth demonstrator through our Energy Innovation Programme aimed at accelerating the commercialisation of innovative clean energy technologies and processes.”
Gareth Brett, CEO at Highview Power, said, “Support from Government, our partners and our supply chain, has enabled Highview Power to successfully design and build the world’s first grid-scale LAES plant here in the UK. The plant is the only large scale, true long-duration, locatable energy storage technology available today, at acceptable cost. The adoption of LAES technology is now underway, and discussions are progressing with utilities around the world who see the opportunity for LAES to support the transition to a low-carbon world.”
After the launch, demand response aggregator KiWi Power will be able to draw energy from the LAES plant to power about 5,000 average-sized homes for around three hours. The plant will demonstrate how LAES can provide a number of reserve, grid balancing and regulation services. Yet the opportunity is far greater: LAES technology can scale to hundreds of Megawatts in line with the energy demand of urban areas the size of small towns up to large cities. This means that LAES plants could easily store enough clean electricity generated by a local windfarm to power a town like Bury (around 100,000 homes) for many days, not just a few hours.
Yoav Zingher, CEO at KiWi Power Ltd, said “Liquid Air Energy Storage (LAES) technology is a great step forward in the creation of a truly de-centralised energy system in the UK allowing end-users to balance the national electricity network at times of peak demand. By drawing energy from a diverse range of low-carbon storage assets, companies can not only balance the grid but help meet rising energy demand and respond to changing patterns of consumption on a local and national level. Given the high uptake of renewable energy in the UK this is the technology that will allow the future grid to maintain system inertia and ensure the lights stay on. By investing in LAES technology companies will also be able to earn a predictable, annual, recurring revenue through the ancillary services with KiWi Power.”
With LAES technology now being proven at scale, the plant paves the way for the wider adoption of LAES technology globally. True long-duration energy storage is critical to enable the broader deployment of renewable energy; overcome the intermittency of solar and wind energy; help smooth peaks and troughs in demand; and provide the UK with a stable and secure source of homegrown energy.
Richard Pennells, Managing Director, Energy at Viridor said “The innovative LAES technology which has been developed through the Highview Power project could play an important role in supporting UK growth in low carbon, renewable energy sources and in maintaining the security of the United Kingdom’s electricity supply.
“Sustainability and innovation has been at the heart of this project and it is this focus which is required to reduce our carbon footprint and deliver the long-term energy security the UK requires.”
LAES technology makes use of a freely available resource, the air, which is stored as a liquid and then converted back to a gas, involving an expansion process that releases stored energy, and this drives a turbine to generate electricity. In addition to providing energy storage, the LAES plant at Bury converts waste heat to power using heat from the on-site landfill gas engines.
No exotic metals or harmful chemicals are involved and the process does not release any carbon emissions. The plant comprises mostly of steel, which has a lifespan of between 30 to 40 years, in comparison with 10 years for batteries. At the end of life, a LAES plant can be decommissioned and the steel recycled. LAES plants can be located at the point of demand which makes them highly flexible and able to supply energy to help urban areas keep the lights on.
Gareth Brett, CEO at Highview Power said “The market opportunity for LAES technology is exciting – we estimate that 60% of the global energy storage market comprises long-duration, grid connected storage and that our LAES technology is ready to meet almost half of this (45%).
“The LAES plant in Bury has already played a key role in the breakthrough of LAES technology and will continue to do so. Utilities from around the world who have for some time been assessing our unique solution for their storage challenges, are now using the operating data to confirm their expectations. We are therefore already in detailed negotiations to build plants ten times the size of this one for utility customers of several nationalities and for various different applications.”
Logan Goldie-Scot, Head of Energy Storage Analysis at Bloomberg New Energy Finance said “The global energy storage market will grow to a cumulative 125GW/305GWh by 2030, attracting $103 billion in investment over this period. Utility-scale storage becomes a practical alternative to new-build generation or network reinforcement, especially for underutilized assets in some markets. We expect energy storage to increasingly be used for longer durations over this period, providing such services as peaking capacity and renewable energy integration.”
About Highview Power
Highview Power is a designer and developer of true long duration energy storage solutions for utilities and distributed power systems. The company’s proprietary technology uses liquid air as the storage medium and its custom designed Liquid Air Energy Storage (LAES) solutions can deliver anywhere from 10MW/40MWh to more than 200MW/1.2GWh of energy. LAES has been developed using proven components from mature industries to deliver pumped-hydro capabilities without geographical constraints and it can be configured to convert waste heat and cold to power. For more information, visit: www.highviewpower.com
- Part of the FTSE 250 Pennon Group, every day Viridor takes what British homes and businesses throw away and transforms it into essential quality materials, resources and energy for customers across the UK and globally.
- Viridor works in partnership with more than 150 local authority and major corporate clients with 32,000 customers across the UK. The company has the UK’s largest network of 300+ advanced recycling, energy recovery and landfill diversion facilities with 600 waste collection vehicles securing materials for our network of assets.
- Viridor embodies the circular economy, managing seven million tonnes of recyclates and resources each year with 1.4 million tonnes of recyclate traded.
- It has specialist glass recycling facilities at Newhouse in Scotland and in Sheffield, England, with a plastic reprocessing plant in Skelmersdale, Lancashire.
- The company has eight energy recovery facilities (ERFs) in operation, three in commissioning and a fourth under construction across the UK city-regions.
- Viridor is one of the UK’s largest independent power generators from waste with 274 megawatts (MW) of operating capacity from ERFs, anaerobic digestion, solar and landfill gas (including joint ventures) at 31 March 2018. Viridor exported 1.5 terawatt hours of power during the year.
- In 2018/19, Viridor ERFs will receive 2.9 million tonnes of residual waste (including joint venture facilities), producing 242MW electricity, enough to power 400,000 homes (a city the size of Birmingham).
- Viridor has 11 educational centres which received 17,496 visitors in the year ending 31 March 2018.
- It is a founding signatory to the UK Plastics Pact, which aims to create a circular economy for plastics, a leading member of the Green Alliance Circular Economy Task Force and the All-Party Sustainable Resources Group.
About KiWi Power
KiWi Power is the UK’s leading demand response aggregator and has been a key player in the UK and internationally since 2009.
Combining proprietary hardware and software, KiWi Power’s experienced team delivers significant commercial returns and sustainability benefits to large consumers of electricity, utilities and grid operators.
We are passionate about driving innovation in technology to create efficiencies, generate commercial opportunities and promote a green agenda. We work confidently with policymakers and system and network operators, navigating the energy landscape to provide clients robust and best in class technology and hardware.
Demand response is a unique and powerful application using technology to reduce electricity consumption at peak times across industrial and commercial sites. This creates a greener, more cost-effective grid; reduces the need for inefficient backup power stations and provides vital balancing requirements and security of supply to system operators and end user sites.
KiWi Power’s innovative approach is leading the way in evolving the UK demand response market as well as influencing the design, build and operation of demand response programmes around the world.
Visit: www.kiwipowered.com @kiwipowered
Contact: firstname.lastname@example.org, Tel: +44(0)207-183-1030