Renewables Generate More Electricity Than Fossil Fuels in UK for First Time
By Simon Evans
During the three months of July, August and September, renewables generated an estimated total of 29.5 terawatt hours (TWh), compared with just 29.1TWh from fossil fuels, the analysis shows.
This is the first-ever quarter where renewables outpaced fossil fuels since the UK's first public electricity generating station opened in 1882. It is another symbolic milestone in the stunning transformation of the UK's electricity system over the past decade.
Nevertheless, a lack of progress in other parts of the economy means the UK remains far off track against its upcoming legally-binding carbon targets, let alone the recently adopted goal of net-zero greenhouse gas emissions by 2050.
At the start of this decade in 2010, the 288TWh generated from fossil fuels accounted for around three-quarters of the UK total. It was also more than 10 times as much electricity as the 26TWh that came from renewables.
Since then, electricity generation from renewable sources has more than quadrupled – and demand has fallen – leaving fossil fuels with a shrinking share of the total.
This shift is shown in the chart below, with the declining quarterly output from power stations burning coal, oil and gas in blue and rising generation from renewables in red.
(The quarterly chart also reflects the seasons, with demand higher in winter and lower in summer. Wind farm output is well matched with this cycle, as it tends to be windier in winter.)
Quarterly electricity generation in the UK between 2009 and the third quarter of 2019, in terawatt hours, with fossil-fuel output shown with a blue line (coal, oil and gas) and renewables shown in red (wind, biomass, solar and hydro). Source: BEIS Energy Trends and Carbon Brief analysis of data from BM Reports. Chart by Carbon Brief using Highcharts
Gas now contributes the vast majority of that shrinking total, as coal plants close down ahead of a planned phaseout in 2025. These ageing power stations were mostly built in the 1960s and 70s and are increasingly uneconomic to run due to CO2 prices, market forces and pollution rules.
In the third quarter of 2019, some 39 percent of UK electricity generation was from coal, oil and gas, including 38% from gas and less than 1 percent from coal and oil combined.
Another 40 percent came from renewables, including 20 percent from wind, 12 percent from biomass and 6 percent from solar. Nuclear contributed most of the remainder, generating 19 percent of the total.
While it is unlikely that renewables will generate more electricity than fossil fuels during the full year of 2019, it is now a question of when – rather than if – this further milestone will be passed.
This summer, National Grid predicted that zero-carbon sources of electricity – wind, nuclear, solar and hydro, but not biomass – would generate more electricity than fossil fuels during 2019. Carbon Brief's analysis through to the third quarter of the year is in line with this forecast.
Over the past year, the most significant reason for rising renewable generation has been an increase in capacity as new offshore wind farms have opened. The 1,200 megawatt (MW) Hornsea One project was completed in October, becoming the world's largest offshore wind farm. The 588MW Beatrice offshore wind farm was completed in Q2 of this year.
These schemes add to the more than 2,100MW of offshore capacity that started operating during 2018. Further capacity is already being built, including the 714MW East Anglia One project that started generating electricity this year and will be completed in 2020.
In total, government contracts for offshore wind will take capacity from nearly 8,500MW today to around 20,000MW by the mid-2020s. The government and industry are jointly aiming for at least 30,000MW of offshore wind capacity by 2030, with two further contract auctions already expected.
In September, the latest auction round produced record-low deals for offshore wind farms that will generate electricity more cheaply than expected market prices – and potentially below the cost of running existing gas plants.
Other contributors to the recent increase in renewable generation include the opening of the 420MW Lynemouth biomass plant in Northumberland last year and the addition of hundreds of megawatts of new onshore wind and solar farms. (Another new 299MW biomass plant being built on Teesside, with a scheduled opening in early 2020, is facing "major delays".)
According to the Department of Business, Energy and Industrial Strategy (BEIS), the rise in renewable output during the first half of 2019 was down to these increases in capacity, with weather conditions not unusual for the time of year.
Some two-thirds of electricity generated from biomass in the UK comes from "plant biomass", primarily wood pellets burnt at Lynemouth and the Drax plant in Yorkshire. The remainder comes from an array of smaller sites based on landfill gas, sewage gas or anaerobic digestion.
The Committee on Climate Change says the UK should "move away" from large-scale biomass power plants, once existing subsidy contracts for Drax and Lynemouth expire in 2027.
Using biomass to generate electricity is not zero-carbon and in some circumstances could lead to higher emissions than from fossil fuels. Moreover, there are more valuable uses for the world's limited supply of biomass feedstock, the CCC says, including carbon sequestration and hard-to-abate sectors with few alternatives.
In terms of fossil-fuel generating capacity, the UK's remaining coal plants are rapidly closing down, well ahead of a 2025 deadline to phase out unabated burning of the fuel. By March 2020, just four coal plants will remain in the UK.
Utility firms have plans to build up to 30,000MW of new gas capacity – including 3,600MW at Drax recently given government planning approval – despite the fact that government projections suggest only around 6,000MW might be needed by 2035.
It is unlikely that all of the planned new gas capacity will get built. The schemes are generally reliant on winning contracts under the UK's capacity market, which is designed to ensure electricity supply is always sufficient to meet demand.
The rise of renewables means that gas generation is likely to continue falling in the UK, whether or not this new capacity gets built. Nevertheless, the UK is unlikely to meet its legally binding goal of cutting overall emissions to net-zero by 2050, unless progress in the electricity sector is matched by reductions in other parts of the UK economy, such as heating and transport.
Carbon Brief's electricity-sector analysis shows that renewables are also estimated to have generated more electricity than fossil fuels during the individual months of August and September, the first time there have been two consecutive such months.
Previously, renewables beat fossil fuels in September 2018 – the first-ever whole month – and then again in March 2019. This means that there have only ever been four months where renewables outpaced fossil generation, of which three have been this year and two in the last two months.
This is shown in the chart, below, which also highlights the greater month-to-month variability in electricity generation and demand, which is overlaid on top of the broader seasonal cycles.
Monthly electricity generation in the UK between 2012 and the third quarter of 2019, in terawatt hours, with fossil-fuel output shown with a blue line (coal, oil and gas) and renewables shown in red (wind, biomass, solar and hydro). Source: Carbon Brief analysis of data from BEIS Energy Trends and BM Reports. Chart by Carbon Brief using Highcharts
In the first three quarters of 2019, renewables outpaced fossil fuels on 103 of the 273 individual days, Carbon Brief analysis suggests. This is more than one-third of the days in the year so far and includes 40 of the 91 days in the third quarter of 2019.
(Although this is not a majority of days, the aggregate output during the quarter was higher for renewables. This is because their excess over fossil fuels was large on some days.)
As expected from the monthly aggregates in the chart, above, these days with higher renewable generation are concentrated in March and the third quarter of 2019, as shown in the chart, below.
Daily electricity generation in the UK during the first three quarters of 2019, in terawatt hours, with fossil-fuel output shown with a blue line (coal, oil and gas) and renewables shown in red (wind, biomass, solar and hydro). Source: Carbon Brief analysis of data from BEIS Energy Trends and BM Reports. Chart by Carbon Brief using Highcharts.
The total of 103 days with higher renewable electricity generation than from fossil fuels in the first three quarters of the year is far in excess of the 67 such days by the same point in 2018.
This is shown in the chart, below, which also highlights the fact that there had never been any days with higher renewable generation until 2015.
Cumulative count of days each year when electricity generation from renewables was higher than that from fossil fuels. Prior to 2015 there were no days when renewables outpaced fossil fuels. Source: Carbon Brief analysis of data from BEIS Energy Trends and BM Reports. Chart by Carbon Brief using Highcharts.
There have already been nearly as many higher renewable days in the first three quarters of 2019, at 103, as there were in the whole of 2018, which saw 107 such days. There were only 58 such days in 2017, just 16 in 2016 and 12 in 2015. The first ever day when UK renewables generated more electricity than fossil fuels was 11 April 2015.
The figures in the article are from Carbon Brief analysis of data from BEIS Energy Trends chapter 5 and chapter 6, as well as from BM Reports. The figures from BM Reports are for electricity supplied to the grid in Great Britain only and are adjusted to include Northern Ireland.
In Carbon Brief's analysis, the BM Reports numbers are also adjusted to account for electricity used by power plants on site and for generation by plants not connected to the high-voltage national grid. This includes many onshore wind farms, as well as industrial gas combined heat and power plants and those burning landfill gas, waste or sewage gas.
By design, the Carbon Brief analysis is intended to align as closely as possible to the official government figures on electricity generated in the UK, reported in BEIS Energy Trends table 5.1. Briefly, the raw data for each fuel is adjusted with a multiplier, derived from the ratio between the reported BEIS numbers and unadjusted figures for previous quarters.
Carbon Brief's method of analysis has been verified against published BEIS figures using "hindcasting". This shows the estimates for total electricity generation from fossil fuels or renewables to have been within ±3% of the BEIS number in each quarter since Q4 2017. (Data before then is not sufficient to carry out the Carbon Brief analysis.)
For example, in the second quarter of 2019, a Carbon Brief hindcast estimates gas generation at 33.1TWh, whereas the published BEIS figure was 34.0TWh. Similarly, it produces an estimate of 27.4TWh for renewables, against a BEIS figure of 27.1TWh.
The Carbon Brief estimated totals for fossil fuels and renewables are very close in Q3 2019, coming within 0.5TWh of each other. This means that despite the relatively low level of uncertainty in the estimates, their relative position could be reversed in the official BEIS data.
This serves to emphasize the fact that the broader trend of decline for fossil fuels and an increase for renewables is of far greater significance than the precise figures for any individual quarter.
In contrast to Carbon Brief's analysis, figures published by consultancy EnAppSys for the third quarter of 2019 suggest that fossil fuels generated slightly more electricity than renewables. There are several reasons for this difference.
First, the company's analysis is for Great Britain only, whereas Carbon Brief's covers the UK overall. Second, it reports on electricity "supplied" in the country, including imports, whereas Carbon Brief estimates the amount of electricity "generated" within the UK only.
Third, Carbon Brief's analysis is, by design, aligned with the quarterly BEIS Energy Trends data for electricity generation, whereas EnAppSys uses its own approach.
For comparison, EnAppSys reported for the second quarter of 2019 that 28.3TWh was supplied in GB from gas, whereas BEIS reports that 34.0TWh was generated in the UK. Similarly EnAppSys reported 23.1TWh coming from renewables, against a BEIS figure of 27.1TWh.
Reposted with permission from our media associate Carbon Brief.
- UK Achieves First Coal-Free Week Since Industrial Revolution ... ›
- Britain Just Went Nearly Three Weeks Without Coal, a New Record ... ›
- Clean Power Overtaking Fossil Fuels in Britain in 2019 - EcoWatch ›
EcoWatch Daily Newsletter
"Emissions from pyrotechnic displays are composed of numerous organic compounds as well as metals," a new study reports. Nodar Chernishev / EyeEm / Getty Images
Fireworks have taken a lot of heat recently. In South Dakota, fire experts have said President Trump's plan to hold a fireworks show is dangerous and public health experts have criticized the lack of plans to enforce mask wearing or social distancing. Now, a new study shows that shooting off fireworks at home may expose you and your family to dangerous levels of lead, copper and other toxins.
- No Social Distancing or Mask Requirement at Trump's Mt ... ›
- Trump's Fireworks Show at Mt. Rushmore Is a Dangerous Idea, Fire ... ›
By Ashutosh Pandey
Billions worth of valuable metals such as gold, silver and copper were dumped or burned last year as electronic waste produced globally jumped to a record 53.6 million tons (Mt), or 7.3 kilogram per person, a UN report showed on Thursday.
Environmental and Health Hazard<p>Experts say e-waste, which is now the world's fastest-growing domestic waste stream, poses serious environmental and health risks.</p><p>Simply throwing away electronic items without ensuring they get properly recycled leads to the loss of key materials such as iron, copper and gold, which can otherwise be recovered and used as primary raw materials to make new equipment, thereby reducing greenhouse gas emissions from extraction and refinement of raw materials.</p><p>Refrigerants found in electronic equipment such as fridge and air conditioners also contribute to global warming. A total of 98 Mt of CO2-equivalents, or about 0.3% of global energy-related emissions, were released into the atmosphere in 2019 from discarded refrigerators and ACs that were not recycled properly, the report said.</p><p>E-waste contains several toxic additives or hazardous substances, such as mercury and brominated flame retardants (BFR), and simply burning it or throwing it away could lead to serious health issues. Several studies have linked unregulated recycling of e-waste to adverse birth outcomes like stillbirth and premature birth, damages to the human brain or nervous system and in some cases hearing loss and heart troubles.</p><p>"Informal and improper e-waste recycling is a major emerging hazard silently affecting our health and that of future generations. One in four children are dying from avoidable environmental exposures," said Maria Neira, director of the Environment, Climate Change and Health Department at the World Health Organization. "One in four children could be saved, if we take action to protect their health and ensure a safe environment."</p>
Europe Leads the Way<p>While most of the e-waste was generated in Asia (24.9 Mt) in 2019, Europe led the charts on a per person basis with 16.2 kg per capita, the report said.</p><p>But the continent also recorded the <a href="https://www.dw.com/en/the-eu-declares-war-on-e-waste/a-51108790" target="_blank">highest documented formal e-waste collection and recycling</a> rate at 42.5%, still below its target of 65%. Europe was well ahead of the others on this front. Asia ranked second with 11.7%.</p><p>The authors said while more that 70% of the world's population was covered by some form of e-waste policy or laws, not much was being done toward implementation and enforcement of the regulations to encourage the take-up of a collection and recycling infrastructure due to lack of investment and political motivation.</p><p>"You have to think about new economic systems," said Kühr.</p><p>One approach could be that consumers no longer buy the products, but only the service they offer. The device would remain the property of the maker, who would then have an interest in offering his customers the best service and the necessary equipment. The maker would also be interested in designing his products in such a way that they are easier to repair and easier to recycle, Kühr said.</p>
- Dangerous Chemicals From E-Waste Found in Black Plastics From ... ›
- Electronic Waste Study Finds $65 Billion in Raw Materials ... ›
- Electronic Waste: New EU Rules Target Throwaway Culture ... ›
- COVID-19 Masks Are Polluting Beaches and Oceans - EcoWatch ›
- Plastic Packaging Use Increases During the Coronavirus - EcoWatch ›
- Coronavirus Worsens Thailand's Plastic Waste Crisis - EcoWatch ›
- Coronavirus Plastic Waste Polluting the Environment - EcoWatch ›
Did you know that some snakes can fly?
The south Asian paradise tree snake (Chrysopelea paradisi) can launch itself into the air and glide from one tree branch to another. And when it does, it moves its body in waves in something known as aerial undulation. Scientists have long known how the snakes moved. But they didn't know why. Until now.
The Cube is home to a 23-camera motion capture system. Jake Socha
The snakes wore 11 to 17 infrared-reflective markers, which gave the team high-resolution data while still allowing the animals to move freely. Jake Socha
- 'Murder Hornets' Spotted in U.S. for the First Time - EcoWatch ›
- 5 Incredible Species That Glow in the Dark - EcoWatch ›
- 4 New Walking Shark Species Discovered - EcoWatch ›
The oceans could look much emptier by 2100, according to a new study that found that most fish species would not be able to survive in their current habitat if average global temperatures rise 4.5 degrees Celsius by the end of the century, as The Guardian reported.
- 'Oceans Are Sending Us so Many Warning Signals': New UN ... ›
- Record-Warm Oceans: How Worried Should We Be? - EcoWatch ›
- Fish and Fishermen Already Moving to Survive Climate Change ... ›
- Fish Are Losing Their Sense of Smell - EcoWatch ›
- Global Fisheries Have Declined Due to Ocean Warming ... ›
Independence Day weekend is a busy time for coastal communities as people flock to the beaches to soak up the sun during the summer holiday. This year is different. Some of the country's most popular beach destinations in Florida and California have decided to close their beaches to stop the surge in coronavirus cases.
- The U.S. Isn't in a Second Wave of Coronavirus – The First Wave ... ›
- COVID-19 Masks Are Polluting Beaches and Oceans - EcoWatch ›
- No Social Distancing or Mask Requirement at Trump's Mt ... ›
- Trump's Fireworks Show at Mt. Rushmore Is a Dangerous Idea, Fire ... ›
For some combat veterans, the Fourth of July is not a time to celebrate the independence of the country they love. Instead, the holiday is a terrifying ordeal. That's because the noise of fireworks – loud, sudden, and reminiscent of war – rocks their nervous system. Daily fireworks in many U.S. cities in recent weeks have no doubt been interfering with the sleep and peace of mind of thousands of veterans.
What Is PTSD?<p><a href="https://theconversation.com/veterans-refugees-and-victims-of-war-crimes-are-all-vulnerable-to-ptsd-130144" target="_blank">PTSD</a> can occur when someone is exposed to extreme exposure traumatic experience. Typically, the trauma involves a threat of death, serious injury, or sexual violence. Along with war veterans, it happens to refugees; to victims of gun violence, rape and other physical assaults; and to survivors of car accidents and natural disasters like earthquakes or tornadoes.</p><p>PTSD can also happen by witnessing trauma or its aftermath, often the case with <a href="https://www.psychiatry.org/patients-families/ptsd/what-is-ptsd" target="_blank">first responders</a> and <a href="https://www.psychologytoday.com/us/blog/the-many-faces-anxiety-and-trauma/202006/invisible-wounds-the-frontline-heroes" target="_blank">front-line workers</a>.</p><p>All this adds up to tens of millions of Americans. Up to 30% of combat veterans and first responders, and 8% of civilians, <a href="https://www.ptsd.va.gov/professional/treat/essentials/epidemiology.asp" target="_blank">fulfill the diagnostic criteria for PTSD</a>. And that criteria is not easily met: symptoms of PTSD include nightmares, flashbacks, intrusive trauma memories, difficulty sleeping, avoidance of reminders of trauma, negative emotions, and what we call "hyperarousal symptoms."</p>
Fireworks Can Trigger Flashbacks<p>Hyperarousal, a core component of PTSD, occurs when a person is hyper-alert to any sign of threat – constantly on edge, easily startled and continuously screening the environment.</p><p>Imagine, for instance, stepping down the stairs in the dark after hearing a noise; you're worried an intruder might be downstairs. Then a totally unpredictable loud sound explodes right outside your window.</p><p>For people with PTSD, that sound – reminiscent of gunfire, a thunderstorm or a car crash – <a href="https://theconversation.com/veterans-refugees-and-victims-of-war-crimes-are-all-vulnerable-to-ptsd-130144" target="_blank">can cause</a> a panic attack or trigger flashbacks, a sensory experience that makes it seem as if the old trauma is happening here and now. Flashbacks can be so severe that combat veterans may suddenly drop to the ground, the same way they would when an explosion took place in combat. Later, the experience can trigger nightmares, insomnia or worsening of other PTSD symptoms.</p><p>Those of us who set off fireworks need to ask ourselves: Are those few minutes of fun worth the hours, days, or weeks of torment that will begin for some of our friends and neighbors – including many who put their lives on the line to protect us?</p>
Who Else Is Affected?<p>Millions of others, though not diagnosed with PTSD, may similarly be affected by fireworks. <a href="https://adaa.org/about-adaa/press-room/facts-statistics" target="_blank">One in five Americans</a> have an anxiety disorder, many with symptoms of hyperarousal. Also impacted are those with autism or developmental disabilities; they find it difficult to cope with the noise, or just the drastic change from life routines. Then there are people who have to work, holiday or not: nurses, physicians and first responders, who have to be up at 4 a.m. for a 30-hour shift.</p><h3>How to Reduce the Negative Impact</h3><p>There are ways to reduce how fireworks affect others:</p><ul><li>For those with PTSD, the unexpected nature of fireworks is probably the worst part. So at least make it as predictable as possible. Do it in designated areas during designated times. Don't explode one, for instance, two hours after the designated time window. And avoid setting them off <a href="https://www.theguardian.com/society/2018/jul/04/fireworks-ptsd-fourth-of-july-veterans-shooting-survivors" target="_blank">on the 3rd</a>. People are less prepared then.</li><li>If you're aware that a veteran or trauma survivor lives in the neighborhood, move the noise as far as possible from their home and give them prior warning. Consider putting a sign in your front yard noting the time you'll set the fireworks.</li><li>Remember, it doesn't have to be super loud to make it fun. Consider using <a href="https://thehill.com/opinion/energy-environment/504964-its-time-for-silent-fireworks" target="_blank">silent fireworks</a>. And you don't have to be the one who lights the fireworks. Simply enjoy watching while your city or township does it safely.</li></ul>
- 4 Ways Acupuncture Helps Restore Balance to the Body - EcoWatch ›
- Why Can't Veterans Get Medical Marijiuana for PTSD When People ... ›