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The biggest stories of 2023: Fossil power collapsed as wind and solar hit new records and demand slumped. Flexibility emerged as key to stepping up this power system shift.

Record fossil collapse shows the shift to clean power in action

2023 followed an extremely turbulent year for EU electricity. In 2022, hydro generation hit a record low due to extreme droughts, and nuclear generation dropped to the lowest output in 30 years due to unexpected outages at French nuclear plants. Combined, these left a gap of 7% of the EU’s overall generation, pushing fossil generation up by 2% in 2022. Going into 2023, the expectation was that fossil fuel generation would rapidly fall to correct for these. 2023 did not disappoint.

A record fall in coal, gas and CO2 emissions in 2023 left the EU with a cleaner electricity mix than ever, amid a progressing energy transition and a sustained response to turbulent conditions. The temporary slowdown in coal plant closures during the energy crisis did not prevent a huge fall in coal generation this year, and gas generation fell for the fourth consecutive year.

Record falls in coal and gas as fossil fuels drop below a third of EU power

Both coal and gas generation had a record percentage fall in 2023, leading to a record drop in power sector CO2 emissions as well. Fossil generation fell to less than a third of the EU’s electricity (33%) for the first time ever.

Coal generation fell by 26% (-116 TWh) to 333 TWh, the largest annual percentage reduction since at least 1990. As a result, coal dropped to the lowest level ever, below the previous record low in 2020 (352 TWh), more than erasing the upticks during the last two years (+96 TWh). Coal made up just 12% of the EU’s electricity in 2023.

Gas generation fell by 15% to 452 TWh. This is the biggest annual reduction since at least 1990 and the fourth year in a row that it has declined. In 2023, gas generation was 20% below the pre-Covid level in 2019 (569 TWh), but it was still above the lowest year on record. At 17% of the EU’s electricity mix, gas generated more power than coal (12%) in 2023.

Record fall in power sector emissions

Power sector emissions fell by 19% (-157 million tonnes CO2 (MtCO2)), also a record annual decline and the largest drop since at least 1990. It is unusual that large reductions in coal and gas generation happen simultaneously, since falls often occur due to switching from one fuel to another. As a result, 2023’s emissions fall eclipsed the previous record 13% drop in 2020 amid impacts from Covid-19. Power sector emissions in 2023 are now almost half (-46%) their peak, which occurred in 2007.

Eleven EU countries set records for their biggest annual percentage falls in power sector CO2 emissions. Of these, Bulgaria recorded the largest fall in 2023 at 44%, primarily because it exported less coal power. Spain’s emissions fell by 25%, due equally to a rise in solar and a fall in electricity demand. Germany’s emissions fell by 21%, much of which was due to a rise in wind and solar replacing coal generation (whilst increased electricity imports met the fall in nuclear generation as Germany closed its final reactors). The Netherlands’ emissions fell by 16% as wind significantly increased. Czechia’s emissions fell by 16% as it was unable to export as much costly coal generation. Poland’s fell by 15% as coal generation was replaced by a combination of more wind, solar and gas, more electricity imports and lower demand.

Fossil fell due to a mix of factors

Fossil fuel generation fell by a record 209 TWh (-19%) in 2023. Rising wind and solar generation contributed to 43% (90 TWh) of the fall in fossil fuel generation. Declines in electricity demand accounted for 45% of the drop.

In addition, hydro generation rebounded significantly in 2023 (+15%) after a 1-in-500 year drought hit mainland Europe in 2022. French nuclear generation also recovered after huge falls in 2022 due to extended plant outages, which meant EU nuclear generation was up 1.5%.

The substantial fall in fossil generation was anticipated. Last year, Ember predicted a 20% (211 TWh) drop in fossil generation for 2023, compared to an actual 19% (209 TWh) decline.

What Ember’s analysis did not anticipate was that the majority of the fall in fossil fuel use would be from coal generation. Out of the 209 TWh drop, over half (56%, 116 TWh) was coal. Gas generation was far more expensive than coal throughout 2022, but this did not persist for long into 2023, as gas generation costs returned to similar levels as coal.

Europe’s coal phase-out gathers pace

Coal generation fell by a record 26% in 2023. However, amidst the energy crisis, only 4% of the EU’s coal fleet (4 GW) closed from 2021 to 2023. The closures of some coal power plants were postponed and a small proportion of units came back into operation as part of emergency reserves.

This is about to change. A fifth (21 GW) of the EU’s coal fleet will close in 2024 and 2025. This includes 10 GW of coal power plants in Germany, most of which are scheduled to shut down in April 2024. In 2025, a large number of coal plants will close in Italy, Poland and Greece. Spain will close its remaining coal power plants in 2025.

These closures continue a pattern of structural decline for coal in the EU, alongside a shift to renewables. EU coal generation has halved since 2016 (-49.5%). Coal generation fell by 327 TWh from 2016 to 2023, compared to a rise in wind and solar generation of 354 TWh. The halving of coal can be completely attributed to the rise in wind and solar generation. Coal’s decline did not lead to higher gas generation: even as coal generation halved, gas generation showed a slight fall (-3%) since 2016.

As coal nears its end date across the EU, the next big shift will be away from gas. In many countries, coal has been almost phased out, so as the build-out of wind and solar accelerates gas generation will also begin to fall. This is especially true in the key gas burning countries of Italy, Spain and the Netherlands, which accounted for half (51%) of the EU’s gas generation in 2023. Across 2023, the share of coal in these countries had fallen to 5%, 1.5% and 7% respectively; in multiple hours there was no coal generation running.

The EU has made huge strides in its electricity transition in 2023, with fossil fuels now making up less than a third of the EU’s electricity. The slowdown of coal plant closures during the energy crisis did not prevent a substantial fall in coal generation this year and the coal phase-out continues. Gas generation has fallen for the last four consecutive years and its decline looks set to gather pace. As fossil fuels get pushed further out of the electricity mix, emissions will fall at a faster pace towards the EU’s 2030 reduction targets.

Wind and solar are driving renewables growth towards REPowerEU targets

For the first time, more than a quarter of EU electricity (27%) came from wind and solar in 2023, with 10 countries above this level. Wind and solar drove renewable electricity past the 40% mark for the first year in EU’s history as well, reaching 44% of EU electricity generation in 2023. The share of renewable electricity increased by 14 percentage points in the last seven years, but this pace needs to almost double over the next seven to reach the 72% of generation target proposed in REPowerEU.

The renewables growth since 2017 has come from increased wind and solar generation, with bioenergy stagnant and hydro declining over the same period.

Wind and solar are growing, but pace must increase

In 2023, wind generation grew by 55 TWh (+13%) and solar by 36 TWh (+17%) compared to 2022. Combined, wind and solar achieved their highest year-on-year increase on record. And wind exceeded its previous peak annual growth of 45 TWh (+17%) in 2017 by 8 TWh.

However, after an exceptional year in 2022, solar generation growth was lower in 2023 by 25%, dropping from 48 TWh to 36 TWh. And while wind generation growth was strong in 2023, it has been inconsistent over the past decade. This is concerning, because to reach the EU’s 2030 climate targets and stay on track for 1.5C, the pace of wind and solar deployment needs to be accelerating.

Wind’s strong performance in 2023 led to an important milestone: wind alone surpassed EU gas power for the first time, reaching 18% of electricity generation (475 TWh compared to 452 TWh for gas). 2023 was also the first year (other than Covid-19-impacted 2020) when wind electricity exceeded coal (333 TWh). The EU’s total installed wind capacity grew by 17 GW (+8%) in 2023 up to 219 GW.

Still, even wind’s 13% rate of generation growth is not enough to meet the REPowerEU targets that would require at least 15% yearly increases in wind electricity generation, consistently until 2030.

Wind’s future is still to be determined

Several risk factors have historically negatively impacted wind power deployment, and could again. The factor mentioned most often is long permitting times exceeding four years in almost all EU countries for onshore wind, and twice that or more for offshore wind. Meanwhile, the industry has been flagging a rise in costs across the supply chain and there have also been reported technical issues with some wind turbines.

However, there were some positive indications for wind in 2023. The first offshore wind auction was resolved in Lithuania, Latvia announced a potential increase in its first offshore wind farm capacity ELWIND and German auctions awarded 7 GW of offshore wind projects. Also positively, in a long-awaited move, the Polish government changed the very restrictive onshore wind distancing law and the Hungarian government is sending positive signals about a similar legislative change as well. 

2024 will be a defining year for offshore wind, with a record 50 GW of offshore wind due to be auctioned. The results of these auctions will indicate just how important, or not, offshore wind will be to Europe’s energy future.

Despite fears, solar is going strong

Recent concerns for solar deployment have included curtailment, panel stockpiling and grid connection queues, but data from 2023 shows that solar power is hitting capacity records. An additional 56 GW of solar capacity was installed in 2023, which is a significant increase compared to the 41 GW added in 2022. Cumulatively, solar capacity now stands at 263 GW. The installed capacity growth this year puts the EU in line with SolarPower Europe’s most likely scenario, which estimated 54 GW additions for 2023, and on track to surpass the REPowerEU capacity goal of 380 GW by 2025.

Solar electricity generation grew by 36 TWh in 2023, reaching 9% of the EU’s total electricity generation. However, the growth in generation did not match the record high capacity additions. In fact, the yearly generation increase was lower than in 2022. A drop in capacity factors (how much electricity is produced compared with a plant’s maximum potential output) can be attributed to lower irradiation in key solar energy producing countries, such as Germany and Italy. Looking at the Global Horizontal Irradiation (GHI) values weighted by capacity, on average solar irradiation across EU countries was 3.4% below 2022 levels. 

Additionally, it is apparent from Ember’s analysis that system operators in many countries are struggling to measure behind-the-meter solar accurately as capacity rapidly increases. Taking this and weather adjustments into account, we estimate that solar generation probably grew by at least 47 TWh in 2023 rather than 36 TWh. However, the annual growth would still be marginally below that seen in 2022 (48 TWh). This structural under-reporting of solar generation also makes it appear that electricity demand is falling faster than it actually is.

More and more power systems are running with very high renewables shares

Many examples show renewables-based power systems working reliably with up to 100% renewable electricity shares. Greece ran on 100% renewables for 5 hours in October 2022 and in July 2023 hit 87 consecutive hours without lignite and with renewables shares up to 84%. Portugal ran entirely on renewables for 6 consecutive days in November 2023. In Poland, a country historically almost fully dependent on coal, renewables covered 67% of domestic power demand in peak moments in June 2023 – a number significantly exceeding the often repeated threshold of 50%. In the Netherlands, there were approximately 140 hours in June in which electricity production from solar and wind exceeded the total electricity demand. And generation data reveals that Germany saw six days in December when all of its demand was covered by renewables.

Wind and solar leaders and laggards

In terms of wind energy, Denmark is strengthening its leadership position, producing 58% of the country’s electricity from wind, up from 54% in 2022. Second place goes to Lithuania with a 46% share of wind in the electricity mix, although it is important to note that the country covered only 44% of its power demand with domestic generation. Third place is occupied by Ireland, having increased the wind share from 33% to 36% in 2023. Overall, 21 countries achieved their highest ever share of wind in the electricity mix in 2023, with the largest year-on-year percentage point increases seen in Lithuania, the Netherlands, Germany and Belgium.

Germany achieved the highest absolute increase in wind generation (+16 TWh), followed by France (+10 TWh, five times the 2022 annual increase of 2 TWh) and the Netherlands (+8 TWh, double the 2022 value of 3.5 TWh). The Netherlands was also among the countries achieving the highest percentage increases in wind electricity generation (+36%), only outperformed by smaller Lithuania (+59%), Luxembourg (+58%) and Latvia (+37%) that are benefitting from relatively large wind capacity additions, and followed by France (+26%), Belgium (+25%) and Finland (+25%).

If the high wind growth in Germany and the Netherlands is sustained, both countries might surpass Portugal in terms of wind share in the power mix next year. In fact, despite being one of Europe’s clean energy champions, Portugal has still not moved past a peak in wind generation achieved in 2019 (14 TWh), even though the updated National Energy and Climate Plan assumes a swift doubling of the current wind capacity, from 5 GW in 2022 to 12 GW by 2030. Wind deployment in Portugal should be accelerated by the upcoming 3.5 GW offshore wind auction scheduled for early 2024, although it is becoming late to secure project delivery by 2030.

The list of solar leaders saw a significant shift this year, with Greece emerging as the new leader, generating 19% of electricity from solar, followed by Hungary (18%) and Spain (17%).

Greece’s success can be attributed to the accelerating capacity growth since 2019 (1.4 GW added in 2022 and 1.7 GW in 2023), made possible due to the feed-in premium for small ground-mounted PV (until the end of 2022), permitting procedures simplified in 2022 and strengthened Power Purchase Agreement (PPA) support.

The Netherlands – the former solar champion – dropped into fourth place (16%), a significant change from the five percentage point jump in 2022. This was predominantly caused by grid congestion, a lack of available space for ground-mounted PV systems and the anticipated phase out of the net-metering scheme. The Netherlands is also the only country not to increase its 2030 solar capacity target in its draft National Energy and Climate Plan. 

Overall, 24 countries achieved a record share of solar in their electricity mix in 2023, with Latvia, Slovakia and Slovenia as the only EU exceptions.

In absolute generation, Spain had the largest increase of 9.4 TWh (+26%). This is more than double the next highest, Poland, with a 3.9 TWh (+47%) increase, which however did not match 2022 growth (+4.4 TWh). Next were France at 3.6 TWh (+18%), Netherlands and Italy (+2.8 TWh, +16% and +10%, respectively). The year-on-year solar generation growth in the Netherlands was below 2022 values (+5.8 TWh, +51%).

25 countries installed more capacity in 2023 than in 2022, setting the stage for a record solar performance in 2024. Germany became the first Member State to add more than 10 GW of solar capacity in a year – 14 GW – bringing its total to 82 GW. Germany also has one of the most substantial 2030 solar target increases in its NECP, adding a huge 93 GW (+76%) to the previous target and aiming for 215 GW of solar in total by 2030. Yet, Germany is also among the countries that saw almost no solar generation growth in 2023 (+0.8 TWh). 

It is important to note that within Germany’s generation data, Ember’s analysis has identified an unusual trend of declining solar irradiance-adjusted performance over the past several years. We do not yet have a definitive explanation for why this is, but it could be related to challenges in measuring behind-the-meter solar generation, exacerbated recently by high levels of residential battery storage. Regardless of the cause, it is possible that there is under-reporting of German solar generation.

Multiple countries have increased their ambition

At the time of publication, 23 countries have submitted updated draft NECPs. Nine of these have increased renewables targets for 2030, with Czechia having the largest jump from 15% to 41% renewable electricity share. This has been bolstered by plans for 10 GW of solar by 2030 up from 4 GW previously. Lithuania (100%), Denmark (99%) and Portugal (92%) lead the way on targets for share of renewable electricity. Lithuania is aiming for 5.1 GW of solar compared to 0.9 GW stated in its previous NECP. Italy is also stepping up, with plans to triple its current solar capacity to 80 GW by 2030.

Overall, 17 out of the 20 EU countries that specified wind and solar targets in their updated NECPs have raised wind capacity goals, while 18 countries have raised solar ambition. 

The Solar Energy Strategy – introduced as part of the REPowerEU package in May 2022 – and the Wind Power package – announced in October 2023 – contain tools to facilitate implementation of regulation and targets by Member States. These plans are vital steps to ensuring countries achieve their and the EU’s wind and solar ambitions.

Wind and solar remain cheaper than fossil fuel generation

There was much attention drawn to increased costs for renewables projects in both 2022 and 2023. Global inflation pushed up prices for supply chain materials and significantly raised the cost of capital, as the era of extremely low interest rates came to an end. Solar fared better than wind, with solar panel prices in Europe falling to a record low in 2023.

However, even despite some increased costs, the levelised costs of electricity for coal and gas have remained much more expensive than wind and solar. This is partially due to the fact that high inflation rates also affect fossil fuel assets, but it is also a result of coal and gas prices. While prices were lower in 2023 than the unprecedented highs of 2022, they remained higher than pre-energy crisis levels. Looking at 2023, analysis for the first half of the year confirms that new build wind and solar projects remained cheaper than new build coal and gas in the EU.

As cheaper wind and solar provide an ever increasing share of the EU’s electricity, replacing more expensive fossil fuels, this will reduce wholesale electricity prices. 

These wholesale prices may only account for a proportion of the prices paid by consumers but they are the largest single contributor. Ember analysis of the UK market has revealed that deploying renewables at speed will not only lower wholesale power prices, but also cut bills for households, even accounting for additional costs such as grid expansion or Contracts for Difference schemes (CfDs).  

There has been some encouraging news for wind and solar in 2023, achieving both installed capacity and generation records. This has driven the share of renewables in the EU electricity mix to its highest level ever, with wind overtaking gas for the first time. However, the pace of growth is still not fast enough, in particular for wind. And there is still much work to be done to remove implementation barriers and bottlenecks and achieve the ambitious EU 2030 targets.

After disruption to demand, an increase is on the horizon

In 2023, EU electricity demand fell by 3.4% to its lowest level since 2001 (2,696 TWh). This follows a large fall in 2022, putting EU electricity demand 6.4% lower in 2023 than it was in 2021. Multiple factors contributed to the drop amid a turbulent few years for Europe’s power sector. However, this looks set to change as energy prices stabilise and a new,  rapidly-electrifying system emerges.

Multiple factors drove down electricity demand, with industry accounting for just over one third of the drop

Amid the energy crisis, EU electricity demand fell by 6.4% (-186 TWh) from 2021 to 2023, with just over a third (38%) caused by a drop in industrial electricity consumption. Mild weather and energy savings and efficiency also contributed, as electrification created more demand.

Overall EU industrial production was actually 1% higher in 2023 than in 2021. However, energy-intensive industries saw steeper declines in their output during this period. As any fall in production from those industries has a much greater impact on total industrial electricity consumption, we have accounted for each sector’s share in final industrial electricity demand. When that electricity-weighting is taken into account, calculations show a 70 TWh decline in total industrial electricity consumption from 2021 to 2023. Of this fall, 80% came from three key sectors: chemicals and petrochemicals, iron and steel, and paper and pulp. 

These sectors are heavy gas consumers, so it is possible that the falls in production were more a consequence of higher gas prices than of higher electricity prices. The overall fall in EU gas demand was three times that of electricity demand. It fell by 21% from 2021 to 2023. 

Weather was also a significant factor in reducing EU electricity demand, accounting for 27% of the fall in demand from 2021 to 2023. 2023 was the second-warmest year on record for Europe, at 1C above the 1991-2020 average. And, due to the fact that EU consumption currently peaks in winter due to heating, our weather adjustment shows that the warm temperatures in 2023 resulted in 1.7% lower electricity demand compared to 2021. Consequently, electricity demand would have fallen 4.7% rather than 6.4% if 2023 weather had been in line with the 1991-2020 average. 

In contrast, electrification led to more demand for electricity. Since the energy crisis began, three million heat pumps and three million electric cars have been sold in the EU, and approximately 500 MW of electrolysers. This added an estimated 1.3% to the EU’s overall electricity demand from 2021 to 2023.

56% of the fall in demand in the same period remains after accounting for the decline in industrial demand and weather impacts, this can be attributed to energy savings and efficiency at least in part. 

The energy crisis reduced electricity demand in almost every country. Slovakia and Romania saw the biggest falls, of over 10%. Ireland, Cyprus and Portugal were the only countries to record rises. In Ireland, much of the rise was from data centres, which consumed 18% of Ireland’s electricity in 2022, a four-fold rise from 2015.

Impact from energy efficiency continues

The fall in demand between 2021 and 2023 can be partially attributed to energy savings and efficiency. Of the 6.4% demand drop in that period, slightly over half (3.6%) is unaccounted for after factoring in impacts from industrial production and weather.

As discussed previously in this report, we know a small proportion of this is from behind-the-meter solar generation, which is not reported and therefore not captured in Ember’s dataset. There are also a growing number of small behind-the-meter oil and gas generators. However, energy savings and efficiency are likely to be a more significant factor.

The energy crisis led to the European Commission introducing emergency measures to decrease both gas and electricity demand. There were voluntary electricity demand reduction targets introduced from November 2022 to March 2023. The majority of Member States reduced their monthly electricity consumption but only three reached the 10% target. 

Most national governments introduced energy saving measures, including consumer incentives and support for efficiency improvements, but the sky-high energy prices meant that consumers also voluntarily took action. Energy efficiency improvements were implemented, such as building insulation and efforts to reduce thermostat levels and lighting. In some cases, households were financially incentivised by suppliers to lower consumption during periods of peak electricity demand.  

Whether or not these reductions in demand related to energy efficiency and savings are sustainable outside of an energy crisis remains to be seen.

A new era of rising electricity demand

The latest monthly data indicates that the decline in electricity demand has now stabilised. After 21 months of consecutive declines, the falls stopped in October 2023 and turned to small rises. The latest industrial production data confirms year-on-year rises in the chemicals and petrochemicals sector (+1% in November 2023) and iron and steel (+3% in November 2023).

The unprecedentedly high electricity prices during the energy crisis will have been a factor in the reduction in industrial demand. The current electricity prices for the year ahead are at the lowest level since August 2021, when gas prices first began to surge.

Ember estimates that 2024 could see an electricity demand rise of around 2-3% compared to 2023 due to easing price levels; increasing economic growth and lower inflation; a colder start to the year; and accelerating electrification. 

We can expect to see electricity demand continue to rise this decade as electrification picks up. Of the seven National Energy and Climate Plans that provided electricity demand forecasts for 2030, all show consumption increasing from 2020 levels, including increases of 13% for Italy and 17% for Spain. 

The demand falls have most likely stopped, and we are about to enter a new era of rising electricity demand for the first time since the 2000s. Renewables will need to keep pace as demand increases, or the reduction in fossil fuels will fall short of what is required to hit EU climate goals.

The EU moves towards a new mode of system flexibility

Multiple big shifts are coming for the EU’s power system. By 2030, the EU will be well on its way to a decarbonised power system. Alongside the benefits to cost, climate and security, this will also come with new challenges as the system adapts to support high shares of variable sources. 

It was evident in 2023 that these shifts are already in progress. As fossil fuel generation and emissions tumbled to record lows and the share of wind and solar in the electricity mix reached new highs, the challenges, solutions and opportunities of integrating ever-increasing levels of wind and solar rose to the top of the agenda

System infrastructure and flexibility mechanisms need to be enhanced and implemented to manage the unique needs of the future power system. In 2023, attention was turned towards the key enablers of that power system flexibility including grids, storage and demand side response to take the transition to the next level.

The shift has already started towards a wind and solar backed system

The EU power system has already started to move away from reliance on fossil fuel plants to provide flexibility. In 2023, 24% of hours saw less than a quarter of electricity coming from fossil fuels. This is an enormous change from just 4% of hours in 2022. EU fossil generation fell to its lowest hourly level ever at 12pm on 29th October 2023 to just 15% of the EU electricity mix. Fossil generation could have fallen even more throughout the year if the full availability of wind and solar generation had been harnessed rather than curtailed.

Available data suggests that the scale of the wind and solar curtailment problem in the EU is not currently that large, but that it is rising. Curtailment is when network system operators or electricity producers limit the output of certain generators to avoid overloading the grid.

In the Netherlands, there were 3,476 residential solar curtailment events in the first half of 2023 compared with 1,074 over the same period in 2022. This could be a contributing factor in our findings earlier in this report that solar generation in the Netherlands has slowed down. Installing more battery storage alongside residential solar could solve this issue.

The latest IEA Renewables report suggests that Spain’s curtailment rate increased from  around 0.3% in 2021 to 1.7% in 2022. In April 2023, the Czech Transmission System Operator (ČEPS) turned off around 400 MW of solar capacity, or about one-sixth of the country’s total PV capacity. Moving against the tide, the IEA reports that Italy’s curtailment rate has actually fallen from around 4% in 2020 to 1.6% in 2022, despite wind and solar’s generation share marginally increasing over this period. 

The scaling up of alternative flexibility mechanisms is a solution to these emerging challenges. There are multiple, connected components to the provision of the required system flexibility, the demand for which is expected to double by 2030. 2023 saw attention shift towards how these elements can be optimised to best support the power sector transition.

Grids are critical for wind and solar integration

Grids consist of interconnectors, transmission grids and distribution networks. Adequate grid infrastructure will be crucial to ensure ever-increasing amounts of wind and solar can be integrated into the power system and transported to where it is needed the most,  minimising output fluctuations and curtailment. The significance of grids has been recognised in the European Commission’s Grids Action Plan, which was launched in November.

Reforms to grid planning will go some way to ensuring adequate supportive infrastructure. Ember submitted recommendations to the European Commission, many of which have been incorporated into this Grids Action Plan. One particularly important requirement is for national grid development plans and incentives to be aligned with the EU’s clean power targets. This has become even more imperative since seven Member States committed to decarbonising their power sectors by 2035.  

Investment is also a priority. The European Commission estimates that a €584 billion investment in grids is required by 2030. Industry estimates that €375-425 billion of this needs to be in the distribution network. Investments in cross-border interconnectors and storage need to be €6 billion per annum. To address this, the Grids Action Plan seeks to identify reasons behind current grid underinvestment and improve access to finance. 

While this level of investment is certainly substantial, the benefits of system enhancements outweigh the costs and the price of inaction is far higher. Cross-border projects can decrease generation costs by €9 billion annually until 2040 according to the European Commission. A recent report by Bruegel found the added value of interconnection means that upfront investment costs are soon recuperated. Ember’s analysis focused on Central and Eastern Europe demonstrates that greater cross-country collaboration and interconnection is critical to unlock the region’s over 100 GW of offshore wind potential, reduce its electricity costs and enhance its energy security.

Grid connection queues are another current challenge, also addressed in the Grids Action Plan. Currently, network reinforcement projects take five to ten years to complete. And offshore wind farms have to wait around a decade to secure grid connection. According to analysis by BloombergNEF, Spain and Italy have almost 200 GW of wind and solar projects waiting to connect to the grid and France has nearly 50 GW. The situation is similar in Eastern Europe, with over 50 GW currently unable to connect in both Poland and Romania. 

The EU could learn lessons from the UK, where the energy regulator Ofgem recently announced new rules to speed up electricity grid connections for viable projects and remove more speculative and unfeasible ones from the queue. There are currently 400 GW of projects waiting for connection in the existing ‘first come, first-served system’.

There is also the issue of ageing infrastructure. About a third of Europe’s low voltage grid is over 40 years old, by 2030 this will be up to 55%. In Central and Eastern European countries, there are sections of the network that have been in service for over 50 years. This demonstrates that much of the EU network needs to be upgraded or replaced even without growth in renewable generation.

However, building new poles and wires is not the only solution. There are complementary alternatives, including additional flexibility mechanisms such as storage and demand side response, which must also be planned and prioritised. The Grids Action Plan incentivises increased efficiency of the existing networks as well as prioritising investment in storage and demand flexibility. The Electricity Market Design reforms also include provisions for system operators to consider local flexibility solutions.

Storage relieves price cannibalisation, negative prices and curtailment

Analysis has estimated that the EU needs 200 GW of storage by 2030 to enable efficient integration of renewables into the electricity grid. Storage can accumulate the electricity produced by solar at times of low demand and shift it to other times of the day when it is needed most. The enhanced flexibility that storage provides is one of the ways to reduce incidents of price cannibalisation, negative prices and curtailment. 

Price cannibalisation and negative prices can occur when electricity prices are depressed during periods of high supply from variable renewable generation. This adversely impacts the generators’ capture rates – the price received for their electricity in those time periods compared to the baseload price over the whole day. However, storage solutions are readily available to alleviate these instances of price falls and low capture rates.

Two-sided Contracts for Difference (CfDs) and Power Purchase Agreements will also remove some of these issues by delivering guaranteed prices for wind and solar generation. CfDs provide both investor confidence, due to the protection they provide against low prices, and shield consumers against price surges.

Increased system flexibility combined with grid enhancements can alleviate curtailment. Analysis by Energy Systems Catapult has found that long-duration battery storage (4 to 12 hours) could reduce the curtailment of wind power in the UK by up to 65%.

Storage reduces bills and increases consumer control

Storage is not only utility scale. With rooftop solar accounting for two-thirds of total installed solar capacity in the EU in 2023, residential storage co-located with rooftop solar will play a significant role going forward. Residential storage is a valuable tool for reducing energy bills and increasing consumer control over consumption. By storing excess energy generated by their solar panels, households can use it to power their homes when electricity prices are high.

Germany is leading the way in residential battery storage

Alongside the boom in rooftop solar has come a surge in residential battery storage installations. And according to the Joint Research Centre, Germany accounts for two-thirds of the EU market. Over 80% of new German home solar installations have battery storage systems. Almost 500,000 home batteries have been installed in Germany in 2023, more than double the 212,000 in 2022. Total German battery storage capacity now stands at 7 GW, equivalent to the 6.8 GW of pumped hydro. Residential storage accounts for 80% (5.6 GW) of Germany’s total battery storage, with large scale and industrial batteries trailing behind at a combined 1.4 GW. 

Storage can also benefit consumers by reducing wholesale electricity prices, which ultimately feed into residential tariffs, by delivering power to the system at times when, currently, more expensive technologies are supplying the electricity at higher prices.

On the 4th of April 2023, the Day Ahead wholesale market in France cleared at €2,712/MWh at 7am and €2,987/MWh an hour later. More than 15 GWh of electricity was transacted at these prices. According to analysis by Fluence, 350 MW of operating battery assets would have substantially reduced market prices and saved French consumers around €75 million. 

2024 could be the year of the battery. A step-up in manufacturing capacity would be enough to significantly push down battery prices even as demand surges similar to what has happened to solar panel manufacturing in 2023. The IEA forecasts that Europe may install 70 GW of stationary batteries from 2023 to 2028. This is higher than the 50 GW of total storage currently forecast in the National Energy and Climate Plans by 2030.

The need for seasonal storage may be exaggerated

The weather-dependency and variability associated with wind and solar power generation requires hourly and daily balancing through storage or peaking power plants. However, persistent claims about wind and solar creating a need for seasonal storage might be highly exaggerated. 

According to monthly data, wind and solar have been working in tandem, complementing each other to provide stable output across all months of 2023. Across different months in 2023, the combined wind and solar generation in terawatt hours only varied within the range of -13% to +10% from the yearly average, with October, November and January (critical months due to the heating season) all delivering above average. Due to the higher electricity demand in winter months, the share of electricity generation from wind and solar in winter was slightly lower, but even in the month with the lowest performance (February) it only dropped to 23% from the 26% yearly total. 

Demand side flexibility delivers stability and savings

Another important tool for increasing system resilience is demand side flexibility. While storage enables supply to be transferred to periods of higher demand, demand side management allows non-critical consumption to be shifted in times of grid constraint. Just as significantly, this gives consumers much greater control over their energy consumption and costs. 

The UK is demonstrating how beneficial demand side flexibility can be. The Centre for Net Zero estimates that the UK needs to increase demand flexibility from 6 GW today to 20-30 GW by 2030. National Grid ESO ran its Demand Flexibility Service from November 2022 to March 2023. It specified hours during which electricity suppliers should ask their customers to reduce their consumption. Households were paid between £2/kWh and £4/kWh, five to ten times the unit price of electricity.

Over this period, 2.9 GWh of electricity demand was shifted from peak periods. This enabled 100% of the grid requirements, when it was under strain during certain times of the day due to high demand, to be met by consumer action. And it also resulted in reduced emissions.

As part of this Demand Flexibility Service, over only four hours during November 2022 Octopus energy customers reduced consumption by almost 450 MWh and were paid over £1 million. That was an average of £4 per customer with the top 5% saving almost £20 each. This was achieved at very short notice and demonstrates consumers’ appetite for this flexibility and control.

And as electrification and digitalisation expand, there will be even more potential for consumers to participate in demand side flexibility through avenues such as agile, time-of-use tariffs and smart electric vehicle charging.

In Denmark, around 70% of consumers are on time-varying tariffs and this has incentivised households to reduce their consumption in morning and evening peak periods when electricity prices are more expensive.

This demand response is currently achieved through consumers manually switching off appliances. The benefits will increase exponentially with greater automation and digitalisation. The roll out of smart meters must be prioritised across Europe. It is also important to note that even those consumers that do not or cannot participate ultimately reap the rewards of increased demand side flexibility due to the related reduction in energy and system costs.

These are exciting, if challenging, times. And 2024 must be a pivotal year in terms of transposing these significant first steps in developing system flexibility policies into tangible actions and on-the-ground deployment.

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