Tag: investors

Updating on ambitions for pellet plants, biomass sales and BECCS

Foresters in working forest, Mississippi

Highlights

  • New targets for pellet production and biomass sales
    • Biomass pellet production – targeting 8Mt pa by 2030 (currently c.4Mt)
    • Biomass pellet sales to third parties – targeting 4Mt pa by 2030 (currently c.2Mt)
  • Continued progress with UK BECCS(1) and biomass cost reduction
    • BECCS at Drax Power Station – targeting 8Mt pa of negative CO2 emissions by 2030
    • Biomass cost reduction – continuing to target biomass production cost of $100/t(2)
  • £3bn of investment in opportunities for growth 2022 to 2030
    • Pellet production, UK BECCS and pumped storage
    • Self-funded and significantly below 2x net debt to Adjusted EBITDA(3) in 2030
  • Development of additional investment opportunities for new-build BECCS
    • Targeting 4Mt pa of negative CO2 emissions outside of UK by 2030
  • Targeting returns significantly in excess of the Group’s cost of capital

Will Gardiner, Drax Group CEO, said:

Drax Group CEO Will Gardiner

Will Gardiner, CEO, Drax Group. Click to view/download.

“Drax has made excellent progress during 2021 providing a firm foundation for further growth. We have advanced our BECCS project – a vital part of the East Coast Cluster that was recently selected to be one of the UK’s two priority CCS projects. And we’re now setting out a strategy to take the business forward, enabling Drax to make an even greater contribution to global efforts to reach net zero.

“We believe Drax can deliver growth and become a global leader in sustainable biomass and negative emissions and a UK leader in dispatchable, renewable generation. We aim to double our sustainable biomass production capacity by 2030 – creating opportunities to double our sales to Asia and Europe, where demand for biomass is increasing as countries transition away from coal.

“As a global leader in negative emissions, we’re going to scale up our ambitions internationally. Drax is now targeting 12 million tonnes of carbon removals each year by 2030 by using bioenergy with carbon capture and storage (BECCS). This includes the negative emissions we can deliver at Drax Power Station in the UK and through potential new-build BECCS projects in North America and Europe, supporting a new sector of the economy, which will create jobs, clean growth and exciting export opportunities.”

Capital Markets Day

Drax is today hosting a Capital Markets Day for investors and analysts.

Will Gardiner and members of his leadership team will update on the Group’s strategy, market opportunities and development projects. The day will outline the significant opportunities Drax sees to grow its biomass supply chain, biomass sales and BECCS, as well as long-term dispatchable generation from biomass and pumped storage.

Purpose and ambition

The Group’s purpose is to enable a zero carbon, lower cost energy future and its ambition is to be a carbon negative company by 2030. The Group aims to realise its purpose and ambition through three strategic pillars, which are closely aligned with global energy policies, which increasingly recognise the unique role that biomass can play in the fight against climate change.

Strategic pillars

  • To be a global leader in sustainable biomass pellets
  • To be a global leader in negative emissions
  • To be a leader in UK dispatchable, renewable generation

The development of these pillars remains underpinned by the Group’s continued focus on safety, sustainability and biomass cost reduction.

A Global leader in sustainable biomass pellets

Drax believes that the global market for sustainable biomass will grow significantly, creating opportunities for sales to third parties in Asia and Europe, BECCS, generation and other long-term uses of biomass. Delivery of these opportunities is supported by the expansion of the Group’s biomass pellet production capacity.

The Group has 13 operational pellet plants with nameplate capacity of c.4Mt, plus a further two plants currently commissioning and other developments/expansions which will increase this to c.5Mt once complete.

Drax is targeting 8Mt of production capacity by 2030, which will require the development of over 3Mt of new biomass pellet production capacity. To deliver this additional capacity Drax is developing a pipeline of organic projects, principally focused on North America. Drax expects to take a final investment decision on 0.5-1Mt of new capacity in 2022, targeting returns significantly in excess of the Group’s cost of capital.

Underpinned by this expanded production capacity, Drax aims to double sales of biomass to third parties to 4Mt pa by 2030, developing its market presence in Asia and Europe, facilitated by the creation of new business development teams in Tokyo and London.

Drax is a major producer, supplier and user of biomass, active in all areas of the supply chain with long-term relationships and almost 20 years of experience in biomass operations. The Group’s innovation in coal-to-biomass engineering, supply chain management and leadership in negative emissions can be deployed alongside its large, reliable and sustainable supply chain to support customer decarbonisation journeys with long-term partnerships.

Drax expects to sell all the biomass it produces, based on an appropriate market price, typically with long-term index-linked contracts.

Continued focus on cost reduction

In 2018 the Group’s biomass production cost was $166/t(2). At the H1 2021 results, through a combination of fibre sourcing, operational improvements and capacity expansion (including the acquisition of Pinnacle Renewable Energy Inc), the production cost had reduced to $141/t(2). Drax’s aims to use the combined expertise of Drax and Pinnacle to apply learnings and cost savings across its portfolio and continues to target $100/t(2) (£50/MWh equivalent(4)) by 2027.

A Global leader in negative emissions

The Intergovernmental Panel on Climate Change(5) and the Coalition for Negative Emissions(6) have both outlined a clear role for BECCS in delivering the negative emissions required to limit global warming to 1.5oC above pre-industrial levels and to achieve net zero by 2050, identifying a requirement of between 2bn and 7bn tonnes of negative emissions globally from BECCS.

Separately, the UK Government has recently published its Net Zero Strategy and Biomass Policy Statement reaffirming the established international scientific consensus that sustainable biomass is renewable and that it will play a critical role in helping the UK achieve its climate targets. It also signposted an ambition for at least 5Mt pa of negative emissions from BECCS and Direct Air Capture by 2030, 23Mt pa by 2035 and up to 81Mt pa by 2050. The reports commit the Government to the development during 2022 of a financial model to support BECCS to meet these requirements.

Subject to the right regulatory environment, Drax plans to transform Drax Power Station into the world’s biggest carbon capture project using BECCS to permanently remove 8Mt of CO2 emissions from the atmosphere each year by 2030. The project is well developed, the technology is proven and an investment decision could be taken in 2024 with the first BECCS unit operational in 2027 and a second in 2030, subject to the right investment framework.

The Group aims to build on this innovation with a new target to deliver 4Mt of negative CO2 emissions pa from new-build BECCS outside of the UK by 2030 and is currently developing models for North American and European markets.

A UK leader in dispatchable, renewable generation

The UK’s plans to achieve net zero by 2050 will require the electrification of heating and transport systems, resulting in a significant increase in demand for electricity. Drax believes that over 80% of this could be met by intermittent renewable and inflexible low-carbon energy sources – wind, solar and nuclear. However, this will only be possible if the remaining power sources can provide the dispatchable power and non-generation system support services the power system requires to ensure security of supply and to limit the cost to the consumer.

Long-term biomass generation and pumped storage hydro can provide these increasingly important services. Drax Power Station is the UK’s largest source of renewable power by output and the largest dispatchable plant. The Group is continuing to develop a lower cost operating model for this asset, supported by a reduction in fixed costs associated with the end of coal operations.

Drax is also developing an option for new pumped storage – Cruachan II – which could take a final investment decision in 2024 and be operational by 2030, providing an additional 600MW of dispatchable long-duration storage to the power system.

In its Smart Systems and Flexibility plan (July 2021), the UK Government described long-duration storage technologies as essential for achieving net zero and has committed to take actions to de-risk investment for large-scale and long-duration storage.

Capital allocation and dividend

Strategic capital investment (3Mt of new biomass pellet production capacity, BECCS at Drax Power Station and Cruachan II) is expected to be in the region of £3bn between 2022 and 2030, backed by long-term contracted cashflows and targeting high single-digit returns and above.

No final investment decision has been taken on any of these projects and both BECCS and Cruachan II remain subject to further clarity on regulatory and funding mechanisms.

The Group believes these investments can be self-funded through strong cash generation over the period with net debt to Adjusted EBITDA significantly below 2x at the end of 2030, providing flexibility to support further investment, such as new-build BECCS as these options develop.

Drax remains committed to the capital allocation policy established in 2017, noting that average annual dividend growth was around 10% in the last 5-years.

Webcast and presentation material

The event will be webcast from 10.00am and the material made available on the Group’s website from 7:00am. Joining instructions for the webcast and presentation are included in the links below.

https://secure.emincote.com/client/drax/drax016

Notes:
(1) BioEnergy Carbon Capture and Storage.
(2) Free on Board – cost of raw fibre, processing into a wood pellet, delivery to Drax port facilities in US and Canada, loading to vessel for shipment and overheads.
(3) Earnings before interest, tax, depreciation, amortisation, excluding the impact of exceptional items and certain remeasurements.
(4) From c.£75/MWh in 2018 to c.£50/MWh, assuming a constant FX rate of $1.45/£.
(5) Coalition for Negative Emissions (June 2021).
(6) Intergovernmental Panel on Climate Change (August 2021).

Enquiries:

Drax Investor Relations: Mark Strafford
+44 (0) 7730 763 949

Media:

Drax External Communications: Ali Lewis
+44 (0) 7712 670 888

Website: www.drax.com/us

Forward Looking Statements
This announcement may contain certain statements, expectations, statistics, projections and other information that are or may be forward-looking. The accuracy and completeness of all such statements, including, without limitation, statements regarding the future financial position, strategy, projected costs, plans, investments, beliefs and objectives for the management of future operations of Drax Group plc (“Drax”) and its subsidiaries (the “Group”), including in respect of Pinnacle Renewable Energy Inc. (“Pinnacle”), together forming the enlarged business, are not warranted or guaranteed. By their nature, forward-looking statements involve risk and uncertainty because they relate to events and depend on circumstances that may occur in the future. Although Drax believes that the statements, expectations, statistics and projections and other information reflected in such statements are reasonable, they reflect the Company’s current view and beliefs and no assurance can be given that they will prove to be correct. Such events and statements involve significant risks and uncertainties. Actual results and outcomes may differ materially from those expressed or implied by those forward-looking statements. There are a number of factors, many of which are beyond the control of the Group, which could cause actual results and developments to differ materially from those expressed or implied by such forward-looking statements. These include, but are not limited to, factors such as: future revenues being lower than expected; increasing competitive pressures in the industry; and/or general economic conditions or conditions affecting the relevant industry, both domestically and internationally, being less favourable than expected; change in the policy of key stakeholders, including governments or partners or failure or delay in securing the required financial, regulatory and political support to progress the development of Drax and its operations. We do not intend to publicly update or revise these projections or other forward-looking statements to reflect events or circumstances after the date hereof, and we do not assume any responsibility for doing so.

END

How to build a business model for negative emissions

Watching a biomass train as it prepares to enter Drax Power Station's rail unloading building 2 (RUB2)

In brief

  • Policy intervention is needed to enable enough BECCS in power to make a net zero UK economy possible by 2050

  • Early investment in BECCS can insure against the risk and cost of delaying significant abatement efforts into the 2030s and 2040s

  • A two-part business model for BECCS of carbon payment and power CfD offers a clear path to technology neutral and subsidy free GGRs

The UK’s electricity system is based on a market of buying and selling power and other services. For this to work electricity must be affordable to consumers, but the parties providing power must be able to cover the costs of generating electricity, emitting carbon dioxide (CO2) and getting electricity to where it needs to be.

This process has thrived and proved adaptable enough to rapidly decarbonise the electricity system in the space of a decade.

With a 58% reduction in the carbon intensity of power generation, the UK’s electricity has decarbonised twice as fast as that of other major economies. As the UK pushes towards its goal of achieving net zero emissions by 2050, new technologies are needed, and the market must extend to enable innovation.

Bioenergy with carbon capture and storage (BECCS) is one of the key technologies needed at scale for the UK to reach net zero. Yet there is no market for the negative emissions BECCS can deliver, in contrast to other energy system services.

BECCS has been repeatedly flagged as vital for the UK to reach its climate goals, owing to its ability to deliver negative emissions. The Climate Change Committee has demonstrated that negative emissions – also known as greenhouse gas removals (GGRs) or carbon removals – will be needed at scale to achieve net zero, to offset residual emissions from hard to decarbonise sectors such as aviation and agriculture. But there is no economic mechanism to reward negative emissions in the energy market.

For decarbonisation technologies like BECCS in power to develop to the scale and within the timeframe needed, the Government must implement the necessary policies to incentivise investment, and allow them to thrive as part of the energy and carbon markets.

BECCS is essential to bringing the whole economy to net zero

The primary benefit of BECCS in power is its ability to deliver negative emissions by removing CO2 from the atmosphere through responsibly managed forests, energy crops or agricultural residues, then storing the same amount of CO2 underground, while producing reliable, renewable electricity.

Looking down above units one through five within Drax Power Station

Looking down above units one through five within Drax Power Station

A new report by Frontier Economics for Drax highlights BECCS as a necessary cornerstone of UK decarbonisation and its wider impacts on a net zero economy. Developing a first-of-a-kind BECCS power plant would have ‘positive spillover’ effects that contribute to wider decarbonisation, green growth and the UK’s ability to meet its legally-binding climate commitments by 2050.

Drax has a unique opportunity to fit carbon capture and storage (CCS) equipment to its existing biomass generation units, to turn its North Yorkshire site into what could be the world’s first carbon negative power station.

Plans are underway to build a CO2 pipeline in the Yorkshire and Humber region, which would move carbon captured from at Drax out to a safe, long-term storage site deep below the North Sea. This infrastructure would be shared with other CCS projects in the Zero Carbon Humber partnership, enabling the UK’s most carbon-intensive region to become the world’s first net zero industrial cluster.

Developing BECCS can also have spillover benefits for other emerging industries. Lessons that come from developing and operating the first BECCS power stations, as well as transport and storage infrastructure, will reduce the cost of subsequent BECCS, negative emissions and other CCS projects.

Hydrogen production, for example, is regarded as a key to providing low, zero or carbon negative alternatives to natural gas in power, industry, transport and heating. Learnings from increased bioenergy usage in BECCS can help develop biomass gasification as a means of hydrogen production, as well as applying CCS to other production methods.

The economic value of these positive spillovers from BECCS can be far reaching, but they will not be felt unless BECCS can achieve a robust business model in the immediate future.

With a 58% reduction in the carbon intensity of power generation, the UK’s electricity has decarbonised twice as fast as that of other major economies. As the UK pushes towards its goal of achieving net zero emissions by 2050, new technologies are needed, and the market must extend to enable innovation.

Designing a BECCS business model

The Department for Business Energy and Industrial Strategy (BEIS) outlined several key factors to consider in assessing how to make carbon capture, usage and storage (CCUS) economically viable. These are also valid for BECCS development.

Engineers working within the turbine hall, Drax Power Station

Engineers working within the turbine hall, Drax Power Station

One of the primary needs for a BECCS business model is to instil confidence in investors – by creating a policy framework that encourages investors to back innovative new technologies, reduces risk and inspires new entrants into the space. The cost of developing a BECCS project should also be fairly distributed among contributing parties ensuring that costs to consumers/taxpayers are minimised.

Building from these principles there are three potential business models that can enable BECCS to be developed at the scale and in the timeframe needed to bring the UK to net zero emissions in 2050.

  1. Power Contract for Difference (CfD):
    By protecting consumers from price spikes, and BECCS generators and investors from market volatility or big drops in the wholesale price of power, this approach offers security to invest in new technology. The strike price could also be adjusted to take into account negative emissions delivered and spillover benefits, as well as the cost of power generation.
  2. Carbon payment:
    Another approach is contractual fixed carbon payments that would offer a BECCS power station a set payment per tonne of negative emissions which would cover the operational and capital costs of installing carbon capture technology on the power station. This would be a new form of support, and unfamiliar to investors who are already versed in CfDs. The advantage of introducing a policy such as fixed carbon payment is its flexibility, and it could be used to support other methods of GGR or CCS. The same scheme could be adjusted to reward, for example, CO2 captured through CCS in industry or direct air carbon capture and storage (DACCS). It could even be used to remunerate measurable spillover benefits from front-running BECCS projects.
  3. Carbon payment + power CfD:
    This option combines the two above. The Frontier report says it would be the most effective business model for supporting a BECCS in power project. Carbon payments would act as an incentive for negative emissions and spillovers, while CfDs would then cover the costs of power generation.
Cost and revenue profiles of alternative support options

Cost and revenue profiles of alternative support options based on assuming a constant level of output over time.

 Way to go, hybrid!

Why does the hybrid business model of power CfD with carbon payment come out on top? Frontier considered how easy or difficult it would be to transition each of the options to a technology neutral business model for future projects, and then to a subsidy free business model.

By looking ahead to tech neutrality, the business model would not unduly favour negative emissions technologies – such as BECCS at Drax – that are available to deploy at scale in the 2020s, over those that might come online later.

Plus, the whole point of subsidies is to help to get essential, fledgling technologies and business models off to a flying start until the point they can stand on their own two feet.

The report concluded:

  • Ease of transition to technology neutrality: all three options are unlikely to have any technology neutral elements in the short-term, although they could transition to a mid-term regime which could be technology neutral; and
  • Ease of transition to subsidy free: while all of the options can transition to a subsidy free system, the power CfD does not create any policy learnings around treatment of negative emissions that contribute to this transition. The other two options do create learnings around a carbon payment for negative emissions that can eventually be broadened to other GGRs and then captured within an efficient CO2 market.

‘Overall, we conclude that the two-part business model performs best on this criterion. The other two options perform less well, with the power CfD performing worst as it does not deliver learnings around remunerating negative emissions.’

Assessment of business model options

Assessment of business model options. Green indicates that the criteria is largely met, yellow indicates that it is partially met, and red indicates that it is not met.

Transition to a net zero future

Engineer inspects carbon capture pilot plant at Drax Power Station

Engineer inspects carbon capture pilot plant at Drax Power Station

Crucial to the implementation of BECCS is the feasibility of these business models, in terms of their practicality in being understood by investors, how quickly they can be put into action and how they will evolve or be replaced in the long-term as technologies mature and costs go down. This can be improved by using models that are comparable with existing policies.

These business models can only deliver BECCS in power (as well as other negative emissions technologies) at scale and enable the UK to reach its 2050 net zero target, if they are implemented now.

Every year of stalling delays the impact positive spillovers and negative emissions can have on global CO2 levels. The UK Government must provide the private sector with the confidence to deliver BECCS and other net zero technologies in the time frame needed.

Go deeper

Explore the Frontier Economics report for Drax, ‘Supporting the deployment of Bioenergy Carbon Capture and Storage (BECCS) in the UK: business model options.’

Standing together
against climate
change

Global leadership illustration

Tackling climate change requires global collaboration. As a UK-US sustainable energy company, with communities on both sides of the Atlantic, we at Drax are keenly aware of the need for thinking that transcends countries and borders.

Joe Biden has become the 46th President of my native country at a crucial time to ensure there is global leadership and collaboration on climate change. Starting with re-joining the Paris Agreement, I am confident that the new administration can make a significant difference to this once-in-a-lifetime challenge.

This is why Drax and our partners are mobilising a transatlantic coalition of negative emissions producers. This can foster collaboration and shared learning between the different technologies and techniques for carbon removal that are essential to decarbonise the global economy.

Biomass storage domes at Drax Power Station in North Yorkshire at sunset

Biomass storage domes at Drax Power Station in North Yorkshire

Whilst political and technical challenges lie ahead, clear long-term policies that spur collaboration, drive innovation and enable technologies at scale are essential in achieving the UK and US’ aligned targets of reaching net zero carbon emissions by 2050.

Collaboration between countries and industries

What makes climate change so difficult to tackle is that it requires collaboration from many different parties on a scale like few other projects. This is why the Paris Agreement and this year’s COP26 conference in Glasgow are so vital.

Sustainable biomass wood pellets being safely loaded at the Port of Greater Baton Rouge onto a vessel destined for Drax Power Station

Our effort towards delivering negative emissions using bioenergy with carbon capture and storage (BECCS) is another example of ambitious decarbonisation that is most impactful as part of an integrated, collaborative energy system. The technology depends upon sustainable forest management in regions, such as the US South where our American communities operate. Carbon capture using sustainable bioenergy will help Drax to be carbon negative by 2030 – an ambition I announced at COP25, just over a year ago in Madrid.

Will Gardiner at Powering Past Coal Alliance event in the UK Pavilion at COP25 in Madrid

Will Gardiner announcing Drax’s carbon negative ambition at COP25 in Madrid (December 2019).

Experts on both sides of the Atlantic consider BECCS essential for net zero. The UK’s Climate Change Committee says it will play a major role in tackling carbon dioxide (CO2) emissions that will remain in the UK economy after 2050, from industries such as aviation and agriculture that will be difficult to fully decarbonise. Meanwhile, a report published last year by New York’s Columbia University revealed that rapid development of BECCS is needed within the next 10 years in order to curb climate change.

A variety of negative emissions technologies are required to capture between 10% and 20% of the 35 billion metric tonnes of carbon produced annually that the International Energy Agency says is needed to prevent the worst effects of climate change.

We believe that sharing our experience and expertise in areas such as forestry, bioenergy, and carbon capture will be crucial in helping more countries, industries and businesses deploy a range of technologies.

A formal coalition of negative emissions producers that brings together approaches including land management, afforestation and reforestation, as well as technical solutions like direct air capture (DAC), as well as BECCS, would offer an avenue to ensure knowledge is shared globally.

Direct air capture (DAC) facility

Direct air capture (DAC) facility

It would also offer flexibility in countries’ paths to net zero emissions. If one approach under-delivers, other technologies can work together to compensate and meet CO2 removal targets.

As with renewable energy, working in partnership with governments is essential to develop these innovations into the cost-effective, large scale solutions needed to meet climate targets in the mid-century.

A shared economic opportunity

I agree whole heartedly that a nation’s economy and environment are intrinsically linked – something many leaders are now saying, including President Biden. The recently approved US economic stimulus bill, supported by both Republicans and Democrats in Congress and which allocates $35 billion for new clean energy initiatives, is a positive step for climate technology and job creation.

Globally as many as 65 million well-paid jobs could be created through investment in clean energy systems. In the UK, BECCS and negative emissions are not just essential in preventing the impact of climate change, but are also a vital economic force as the world begins to recover from the effects of COVID-19.

Engineer inside the turbine hall of Drax Power Station

Government and private investments in clean energy technologies can create thousands of well-paid jobs, new careers, education opportunities and upskill workforces. Developing BECCS at Drax Power Station, for example, would support around 17,000 jobs during the peak of construction in 2028, including roles in construction, local supply chains and the wider economy.

Additional jobs would be supported and created throughout our international supply chain. This includes the rail, shipping and forestry industries that are integral to rural communities in the US South.

We are also partnered with 11 other organisations in the UK’s Humber region to develop a carbon capture, usage and storage (CCUS) and hydrogen industrial cluster with the potential to spearhead creating and supporting more than 200,000 jobs around the UK in 2039.

The expertise and equipment needed for such a project can be shared, traded and exported to other industrial clusters around the world, allowing us to help reach global climate goals and drive global standards for CCUS and biomass sustainability.

Clear, long-term policies are essential here, not just to help develop technology but to mitigate risk and encourage investment. These are the next crucial steps needed to deploy negative emissions at the scale required to impact CO2 emissions and lives of people.

Engineer at BECCS pilot project within Drax Power Station

At Drax we directly employ almost 3,000 people in the US and UK, and indirectly support thousands of families through our supply chains on both sides of the Atlantic. Drax Power Station is the most advanced BECCS project in the world and we stand ready to invest in this cutting-edge carbon capture and removal technology. We can then share our expertise with the United States and the rest of the world – a world where major economies are committing to a net zero future and benefiting from a green economic recovery.

In a crisis people come first

This crisis will be remembered for many things. Many are not positive, but some are inspiring. Around the world we’ve seen tremendous acts of kindness and witnessed remarkable resilience from people continuing to live, work and to support one another. The actions we are all taking as individuals, businesses and communities will not only help us get through this crisis, they will shape how we emerge from it.

At Drax we are proud of the ongoing role we’re playing in supporting the UK and its essential services, continuing to generate and supply the electricity needed to keep people healthy and the economy running.

It is what we have always done, and it is what we will continue to do.

This is possible because our people have continued to carry out their important work in these uncertain times safely and responsibly. My leadership team in the UK and US must continue to support them, and we must also support the communities they are a part of.

Employees Drax Power Station show their support and appreciation for the heroic efforts of those within the NHS by turning one of its cooling towers blue at 8pm each Thursday

Employees Drax Power Station show their support and appreciation for the heroic efforts of those within the NHS by turning one of its cooling towers blue at 8pm each Thursday

Our communities are at the core of what we do and who we are. They support our business globally and enable us to supply energy to the country. We have a responsibility to do what we can to help them through this crisis.

To do this we have put together a Covid-19 support package totalling more than three quarters of a million pounds that goes beyond just financing to make a positive impact. I’d like to highlight a few of these.

Supporting communities in Great Britain and the US

The Robinson family collect their laptop at Selby Community Primary School

The closures of schools and the need to turn homes into classrooms has been one of the biggest changes for many families. With children now depending on technology and the internet for schooling, there’s a very real chance those without access may fall behind, with a long term negative impact on their education.

We want to ensure no child is left out. So, we have donated £250,000 to buy 853 new laptops, each with three months of pre-paid internet access, and delivered them to schools and colleges local to our sites across the UK.

This has been implemented by Drax, working closely with headteachers. As one of our local heads Ian Clennan told us: “Schools don’t just provide education – they’re a whole support system. Having computers and internet access means pupils can keep in touch with their teachers and classmates more easily too – which is also incredibly important at the moment.”

In the US, we’re donating $30,000 to support hardship funds for the communities where we operate. Our colleagues in Louisiana are playing an active role in the community, and in Amite County, Mississippi, they have helped provide PPE to first responders as well as supporting charities for the families worse affected.

Helping businesses, starting with the most vulnerable

As an energy supplier to small and medium sized businesses (SMEs), we must act with compassion and be ready to help those who are most economically exposed to the crisis. To do this, we are launching a number of initiatives to support businesses, starting with some of the most vulnerable.

It’s clear that care homes require extra support at this time. We are offering energy bill relief for more than 170 small care homes situated near our UK operations for the next two months, allowing them to divert funds to their other priorities such as PPE, food or carer accommodation.

But it is also important we understand how difficult a period this is for small businesses of all kinds. Many of our customers are facing financial pressure that was impossible to forecast. To help relieve this, we have agreed deferred payment plans with some of our customers who are unable to pay in full. We have also extended current energy prices for three months for 4,000 customers of Opus Energy who have not been able to secure a new contract during this period.

The impact of this crisis will be long term, so we made a significant, two-year charitable donation to Business Debtline. A dedicated phoneline and webpage will be provided to our small businesses customers, offering free debt advice and helping them to recover for the future.

An engineer looks up at flue gas desulphurisation unit (FGD) at Drax Power Station. The massive pipe would transport flue gas from the Drax boilers to the carbon capture and storage (CCS) plant for CO<sub>2</sub> removal of between 90-95%.

An engineer looks up at flue gas desulphurisation unit (FGD) at Drax Power Station. The massive pipe would transport flue gas from the Drax boilers to the carbon capture and storage (CCS) plant for CO2 removal of between 90-95%.

Change for the future recovery

While there is still uncertainty around how the UK, the US and the world will emerge from the pandemic it is the responsibility of the whole energy industry to show compassion for its customers and to take the actions needed to soften the economic blow that Covid-19 is having across the globe.

The disruption to normal life caused by the pandemic has changed how the country uses electricity overnight. In the coming weeks we will be publishing a more in-depth view from Electric Insights showing exactly what effect this has had and what it might reveal for the future of energy.

No matter what that future holds, however, we will remain committed to enabling a zero carbon, lower cost energy future. This will mean not only supporting our people, our communities and our countries through the coronavirus crisis, but striving for a bright and optimistic future beyond it. A future where people’s immediate health, safety and economic wellbeing are prioritised alongside solutions to another crisis – that of climate change.

Responsibility, wellbeing and trust during the COVID-19 outbreak

Engineers in PPE working at Drax Power Station

We are living through unprecedented times. Coronavirus is having far reaching effects on all industries not just here in the UK, but around the world. At Drax, we take our responsibilities as a member of critical national infrastructure and as an essential service provider very seriously. We are committed to maintaining a continuous, stable and reliable electricity supply for millions of homes and businesses in the UK.

The wellbeing of our people

Firstly, I’d like to thank our employees, contractors, supply chain workers and their families as well as the communities in the UK and US in which we operate, for their fantastic support and continued hard work during these difficult and uncertain times. Our employees’ health and wellbeing are vital, and we’re working hard to ensure we are supporting them with both their physical and mental health, whether working at home or at one of our sites.

Engineer maintaining equipment in Drax Power Station

Engineer maintaining equipment in Drax Power Station [Click to view/download]

Across all our sites we are have implemented strategies to reduce the chances of people spreading the virus and have operational plans in place to ensure continued delivery of power into the grid.

Power station resilience

At Drax Power Station, the UK’s largest power station, largest decarbonisation project in Europe and biggest source of renewable power into the national grid, we have arranged for the separation of key operational teams and employees so that they are physically distanced from each other. We have moved as many employees as possible to work from home, so that there are fewer people in our workplaces reducing the risk of the spread of infection, should it arise. We have strict controls on visitors to the site and on our contractors and suppliers. Our resilience teams are working well and we have contingency plans in place to manage risks associated with colleague absences.

We have closed the visitor centres at Cruachan pumped storage hydro power station and Tongland hydro power station in Scotland, as well as at Drax Power Station in North Yorkshire. We have also stopped all but critically important travel between our sites.

Our supply chain

Sustainable biomass wood pellets destined for Drax Power Station unloaded from the Zheng Zhi bulk carrier at ABP Immingham [Click to view/download]

It is vital we maintain a resilient supply chain for the sustainably sourced biomass wood pellets required to produce electricity at Drax Power Station, the country’s largest power station. We’re working closely with our suppliers in the US and Europe to maintain biomass supplies as well as with rail and port infrastructure in the US and UK to ensure continuity of supply.

Just last week Associated British Ports (ABP) and Drax received and unloaded the largest ever shipment of sustainable biomass to arrive at the Port of Immingham in the UK’s Humber region. The vessel transported 63,907 tonnes of Drax’s wood pellets from the US Port of Greater Baton Rouge in Louisiana. The consignment supplies Drax Power Station with enough renewable fuel to generate electricity for 1.3 million homes.

Our three wood pellet manufacturing plants are running well, with US authorities classifying our employees as key workers. The same is the case for our rail freight partners on both sides of the Atlantic. In the UK, GB Railfreight recognises the strategic importance of biomass deliveries to Drax Power Station.

Our customers

Businesses – both large and small – are feeling the economic effects of this virus. Our employees involved with the supply of electricity, gas and energy services to organisations are working hard to support them. More information can be found via these links:

We are working closely with BEIS, HM Treasury and our trade associations to explore how government and industry can further support business through this challenging time. Organisations facing financial difficultly can access the unprecedented level of support already announced by the Chancellor, Rishi Sunak via:

Drax employee in high visibility clothing on the telephone

Drax employee in high visibility clothing on the telephone [Click to view/download]

Leadership

Our Executive Committee is meeting regularly via video conference to discuss our contingency planning as the situation changes. We are working closely with the UK, US state and Canadian governments, National Grid and Ofgem to ensure that we remain up to date with the latest advice and that we are prepared for any further escalation.

This is an unprecedented time for the UK and the world. Rest assured that Drax’s critical national infrastructure and essential service operations, as well as its employees, are working hard 24/7 to make sure individuals, families, businesses and organisations are supplied with the vital electricity needed to keep the country running.

End of coal generation at Drax Power Station

Coal picker, Drax Power Station, 2016

Drax Group plc
(“Drax” or the “Group”; Symbol:DRX)
RNS Number : 2747E

Following a comprehensive review of operations and discussions with National Grid, Ofgem and the UK Government, the Board of Drax has determined to end commercial coal generation at Drax Power Station in 2021 – ahead of the UK’s 2025 deadline.

Commercial coal generation is expected to end in March 2021, with formal closure of the coal units in September 2022 at the end of existing Capacity Market obligations.

Will Gardiner, Drax Group CEO, said:

“Ending the use of coal at Drax is a landmark in our continued efforts to transform the business and become a world-leading carbon negative company by 2030. Drax’s move away from coal began some years ago and I’m proud to say we’re going to finish the job well ahead of the Government’s 2025 deadline.

“By using sustainable biomass we have not only continued generating the secure power millions of homes and businesses rely on, we have also played a significant role in enabling the UK’s power system to decarbonise faster than any other in the world.

“Having pioneered ground-breaking biomass technology, we’re now planning to go further by using bioenergy with carbon capture and storage (BECCS) to achieve our ambition of being carbon negative by 2030, making an even greater contribution to global efforts to tackle the climate crisis.

“Stopping using coal is the right decision for our business, our communities and the environment, but it will have an impact on some of our employees, which will be difficult for them and their families.

“In making the decision to stop using coal and to decarbonise the economy, it’s vital that the impact on people across the North is recognised and steps are taken to ensure that people have the skills needed for the new jobs of the future.”

Coal in front of biomass storage domes at Drax Power Station, 2016

Coal in front of biomass storage domes at Drax Power Station, 2016

Drax will shortly commence a consultation process with employees and trade unions with a view to ending coal operations. Under these proposals, commercial generation from coal will end in March 2021 but the two coal units will remain available to meet Capacity Market obligations until September 2022.

The closure of the two coal units is expected to involve one-off closure costs in the region of £25-35 million in the period to closure and to result in a reduction in operating costs at Drax Power Station of £25-35 million per year once complete. Drax also expects a reduction in jobs of between 200 and 230 from April 2021.

The carrying value of the fixed assets affected by closure was £240 million, in addition to £103 million of inventory at 31 December 2019, which Drax intends to use in the period up to 31 March 2021. The Group expects to treat all closure costs and any asset obsolescence charges as exceptional items in the Group’s financial statements. A further update on these items will be provided in the Group’s interim financial statements for the first half of 2020.

As part of the proposed coal closure programme the Group is implementing a broader review of operations at Drax Power Station. This review aims to support a safe, efficient and lower cost operating model which, alongside a reduction in biomass cost, positions Drax for long-term biomass generation following the end of the current renewable support mechanisms in March 2027.

While previously being an integral part of the Drax Power Station site and offering flexibility to the Group’s trading and operational performance, the long-term economics of coal generation remain challenging and in 2019 represented only three percent of the Group’s electricity production. In January 2020, Drax did not take a Capacity Market agreement for the period beyond September 2022 given the low clearing price.

Enquiries

Drax Investor Relations:
Mark Strafford
+44 (0) 7730 763 949

Media

Drax External Communications:
Ali Lewis
+44 (0) 7712 670 888

 

Website: www.drax.com/us

END

Climate change is the biggest challenge of our time

Drax Group CEO Will Gardiner

Climate change is the biggest challenge of our time and Drax has a crucial role in tackling it.

All countries around the world need to reduce carbon emissions while at the same time growing their economies. Creating enough clean, secure energy for industry, transport and people’s daily lives has never been more important.

Drax is at the heart of the UK energy system. Recently the UK government committed to delivering a net-zero carbon emissions by 2050 and Drax is equally committed to helping make that possible.

We’ve recently had some questions about what we’re doing and I’d like to set the record straight.

How is Drax helping the UK reach its climate goals?

At Drax we’re committed to a zero-carbon, lower-cost energy future.

And we’ve accelerated our efforts to help the UK get off coal by converting our power station to using sustainable biomass. And now we’re the largest decarbonisation project in Europe.

We’re exploring how Drax Power Station can become the anchor to enable revolutionary technologies to capture carbon in the North of England.

And we’re creating more energy stability, so that more wind and solar power can come onto the grid.

And finally, we’re helping our customers take control of their energy – so they can use it more efficiently and spend less.

Is Drax the largest carbon polluter in the UK?

No. Since 2012 we’ve reduced our CO2 emissions by 84%. In that time, we moved from being western Europe’s largest polluter to being the home of the largest decarbonisation project in Europe.

And we want to do more.

We’ve expanded our operations to include hydro power, storage and natural gas and we’ve continued to bring coal off the system.

By the mid 2020s, our ambition is to create a power station that both generates electricity and removes carbon from the atmosphere at the same time.

Does building gas power stations mean the UK will be tied into fossil fuels for decades to come?

Our energy system is changing rapidly as we move to use more wind and solar power.

At the same time, we need new technologies that can operate when the wind is not blowing and the sun is not shining.

A new, more efficient gas plant can fill that gap and help make it possible for the UK to come off coal before the government’s deadline of 2025.

Importantly, if we put new gas in place we need to make sure that there’s a route through for making that zero-carbon over time by being able to capture the CO2 or by converting those power plants into hydrogen.

Are forests destroyed when Drax uses biomass and is biomass power a major source of carbon emissions?

No.

Sustainable biomass from healthy managed forests is helping decarbonise the UK’s energy system as well as helping to promote healthy forest growth.

Biomass has been a critical element in the UK’s decarbonisation journey. Helping us get off coal much faster than anyone thought possible.

The biomass that we use comes from sustainably managed forests that supply industries like construction. We use residues, like sawdust and waste wood, that other parts of industry don’t use.

We support healthy forests and biodiversity. The biomass that we use is renewable because the forests are growing and continue to capture more carbon than we emit from the power station.

What’s exciting is that this technology enables us to do more. We are piloting carbon capture with bioenergy at the power station. Which could enable us to become the first carbon-negative power station in the world and also the anchor for new zero-carbon cluster across the Humber and the North.

How do you justify working at Drax?

I took this job because Drax has already done a tremendous amount to help fight climate change in the UK. But I also believe passionately that there is more that we can do.

I want to use all of our capabilities to continue fighting climate change.

I also want to make sure that we listen to what everyone else has to say to ensure that we continue to do the right thing.

Is biomass demand out of control?

Electricity systems around the world are decarbonising and increasingly switching to renewable power sources. While intermittent sources, such as solar and wind, are the fastest growing types of renewables being installed globally, the reliability and flexibility of biomass and its ability to offer grid stabilisation services such as frequency control and inertia make it an increasingly necessary source of renewable power. According to the International Energy Agency biomass generation is forecast to expand as planned projects come online.

Sustainable wood pellets

A versatile resource

Biomass comes in many different forms.  When looking to assess future demand and use, it is important to recognise benefits that different types of biomass bring. Compressed wood pellets are just one small part of the biomass spectrum, which includes many forms of agricultural and livestock residues, waste and bi-products – much of which is currently discarded or underutilised.

Maximising the use of these wastes and residues provides plenty of scope for expansion of the biomass energy sector around the world. The global installed capacity for biomass generation is expected to reach close to 140 gigawatts (GW) by 2026, which will be fuelled primarily by expansion in Asia using residues from food production and the forestry processing industry.

However, the use of woody biomass can also provide many benefits too, such as supplying a market for thinnings, providing a use for harvesting residues, encouraging better forest management practices and generating increased revenue for forest owners.

How much surplus exists?

In areas like the US South, traditional markets for forest products have declined, whilst forest growth has significantly increased. According to the USDA Forest Inventory and Analysis (FIA) data, there is an average annual surplus of growth in the US South of more than 176 million cubic metres compared to removals – that’s enough to make around 84 million tonnes of wood pellets a year, from just one supply region.

Of course, not all of this surplus growth could or should be used for bio-energy, much of it is suitable for high value markets like saw-timber or construction and some of it is located on inaccessible or protected sites. However, new and additional markets are essential to maintain the health of the forest resource and to encourage forest owners to retain and maintain their forest assets.

In the current wood pellet supply regions for Europe, Pöyry management consulting has calculated that there is a surplus of low grade wood fibre and residues that could make an additional 140 million tonnes of wood pellets each year.

Wood pellets in context

Sustainable wood pellets for biomass

Compressed wood pellets on a conveyor belt

It is also necessary to look at the global production of all wood products to put wood pellet production into context. In 2016 the global production of industrial roundwood (the raw material used for construction, furniture, paper and other wood products) was 1.87 billion cubic metres, while the global production of wood fuel (used for domestic heating and cooking) was 1.86 billion cubic metres[1]. Only around 1.6% of this feedstock was used to make wood pellets, both for industrial energy and residential heat. The total production of wood pellets in 2016 was 28.4 million tonnes, of which only 45% was used for industrial energy[2].

While Forestry consulting and research firm Forisk predicts demand for industrial wood pellets (those used in electricity generation rather than residential heating) will grow globally at an annual rate of 15% for the next five years, reaching 27.5 megatonnes (Mt) by 2023, they are also clear that this growth, in context, will not impact forest volumes or other markets:

‘The wood pellet industry in the US South is not exploding, it is a tiny component of the overall market. Forest volumes in the South in total will continue to grow for decades no matter what bioenergy markets or housing markets do. The wood pellet sector simply and unequivocally cannot compete economically with US pulp and paper mills (80% of pulpwood demand in South) for raw material on a head-to-head basis[3].’

So, while demand for wood pellets is likely to increase over the next 10 years, this increase will be well within the scope of existing surplus fibre. The question, therefore, is can suppliers keep up with this demand? And can they do this while ensuring it remains sustainable, reliable and renewable?

What’s driving demand?

In the short-term, intelligence firm Hawkins Wright estimates global demand will increase by almost 30% during 2018 to reach 20.4 Mt, while Forisk predicts a smaller jump: an almost 5 Mt increase compared to 2017.

Most of this will continue to come from Europe (73% of global demand by 2021, more than 80% in 2018), where projects such as Lynemouth Power Station’s conversion from coal to biomass, as well as five co-firing units in the Netherlands are all set to come online very soon. While smaller in number, Asia is also developing a growing appetite for biomass and in 2018 demand is forecast to grow by 1.98 Mt.

These estimates might paint a picture of a continually soaring demand, but Forisk’s forecast actually expect this growth to plateau, levelling off around 2023 at 27.5 Mt. Hawkins Wright expects a similar slow down, forecasting manageable growth of under 15% between 2023 and 2026.

A forestry specialist at Drax Group, believes this plateau could come even sooner.

“Current and future forecasts in industrial wood pellet demand are based on a series of planned conversions and projects coming online,” he explains.

“But once these projects are active, demand in Europe will likely plateau around 2021 and then gradually reduce as various EU support schemes for industrial biomass come to an end. Any long term use of biomass is likely to be based on agricultural residues and wastes.”

But even with this expected slowdown, the biomass demand of the near future will be substantially higher than it is right now. So, the question remains, can suppliers meet the need for biomass pellets?

Responding to today’s growing demand

Meeting this growing demand depends on two factors: sufficient raw materials and the production capabilities to turn those materials into biomass pellets.

In today’s market, there’s no shortage of raw materials and low grade fibre. Instead, what could cause challenges is the production of pellets.

Hawkins Wright reports the capacity for global industrial pellet production was roughly 21.4 Mt a year at the end of 2017 and will increase by a further 3 Mt by 2019 as facilities currently under construction reach completion.

It means that to meet even Forisk’s conservative 27.5 Mt prediction by 2023, pellet production needs to increase. However, Drax’s forestry specialist points to the three to four years needed to complete pellet facilities and the relatively short period of time financial support programmes will remain in place as something that could lead to a slowdown in new plants coming online. Instead, he says, expansions of existing plants and the increased use of small-scale facilities will become crucial to increasing overall production.

However the biomass market changes and develops, it remains critical that proper regulation is in place, efficiencies are found and that technological innovation continues within the forestry industry so forests are grown and managed sustainably.

As we move into a low-carbon future we know that biomass demand will increase. But for this to be truly beneficial and sustainable we need to ensure we are not only meeting the demand of today but also of tomorrow, the day after tomorrow and beyond.

Discover the steps we take to ensure our wood pellet supply chain is better for our forests, our planet and our future. Visit ForestScope.info. 

[1] Source: FAOSTAT

[2] Source: Hawkins Wright, The Outlook for Wood Pellets, Q4 2017

[3] https://www.forisk.com/blog/2015/10/23/nibbling-on-a-chicken-or-nibbling-on-an-elephant-another-example-of-incomplete-and-misleading-analysis-of-us-forest-sustainability-and-wood-bioenergy-markets/