Global Electricity Review 2025 | Ember

Global Electricity Review 2025 | Ember
EN
Latest Insights
Global Electricity Review 2025
Major Countries and Regions
Chapter 5:
Major Countries and Regions
In this chapter
China
5.1
Read
United States
5.2
Read
European Union
5.3
Read
India
5.4
Read
Russia
5.5
Read
Japan
5.6
Read
Brazil
5.7
Read
Analysis of key power consumers in 2024
Data on the world’s seven largest power consumers in 2024, with an overview of changes in the last year and trends in the last two decades. Collectively, they account for 72% of global electricity demand.
We have ordered these countries and regions according to their total electricity demand in 2024.
5.1
China
Key highlights
01
China accounted for more than half of the global increase in wind and solar power in 2024
02
Clean generation met 81% of the 2024 demand increase in China
03
Coal generation rose to a record high in 2024, but supplied only 18% of the demand rise and solar grew more than twice as much
China’s electricity demand continued to grow – by 6.6% in 2024 (+623 TWh), down only slightly from 6.9% in 2023.
Demand growth was given a temporary boost in 2024: hotter temperatures contributed significantly to
higher cooling demand in the summer months
, and January and February showed a rebound in industrial demand from lower levels in 2023, as the last Covid-19 restrictions were lifted in early 2023.
81% of the demand growth was met with the rise in clean generation – wind, solar, hydro, nuclear and bioenergy generation all rose. Wind and solar generation combined met more than half of the increase in electricity demand. Just 18% of the increase in demand was met with the rise in coal generation.
The biggest change in China’s electricity generation compared to 2023 was the continued explosive growth of solar. Solar generation was up 250 TWh (+43%) in 2024 compared to 2023, which had itself recorded an increase of 37% compared to 2022. Also of note was the rebound in hydro generation, which was up 130 TWh (+11%) in 2024 as the drought conditions of 2023 eased.
China had the world’s largest increase in coal generation in 2024 (+110 TWh, +1.9%), but this was less than a third of the increase in 2023 (+341 TWh, +6.3%). This lower level of growth is significant given the
impact of heatwaves
on increasing demand in 2024. Solar’s increase of 250 TWh was more than twice as large as the rise in coal.
In 2024, China’s solar growth accounted for 53% of total global solar growth, while China’s 106 TWh of wind growth was 58% of the global total.
Loading data…
Electricity demand in China has increased sevenfold from 2000 (1,347 TWh) to 2024 (10,066 TWh).
Only 30% of the demand rise from 2000 to 2015 was met with rising clean electricity (and 70% from fossil sources). But since 2015, over half (53%) was met with clean electricity (and 47% from fossil sources). Wind and solar generation has tripled over the past five years, from 629 TWh in 2019 to 1,826 TWh in 2024.
Coal’s share has been falling – from 70% in 2015 to 58% in 2024 – even as absolute coal generation set a new record in 2024, 45% higher than in 2015.
Despite the growth in solar and wind, China relied on fossil fuels for 62% of its electricity in 2024, making it the world’s largest power sector emitter.
Total power sector emissions rose 2.2% to 5,640 MtCO2 in 2024, lower than the average annual growth between 2019 and 2023 of 3.9%. Forecasts suggest that China is approaching the tipping point on coal generation and that peak emissions are on the horizon (read more about this in Chapter 2.3). China accounted for 39% of global power sector emissions in 2024.
Loading data…
China plays an outsized role in the global electricity transition. It has over half of the world’s coal-fired installed capacity, and is simultaneously home to over
80% of the global solar manufacturing industry
. China dominates the global growth in wind and solar generation, accounting for 54% in 2024, but also the global growth in coal generation, accounting for 74%.
Clean power made up 38% (3,836 TWh) of China’s electricity mix in 2024, just below the global average of 41%. Hydro was the largest single source of clean power at 13.5% (1,356 TWh).
China’s wind and solar generation hit a new record share of 18% (1,826 TWh) in 2024, remaining above the global average of 15% and overtaking the US for the first time. China‘s clean share and wind and solar share both remain above the average clean share and wind and solar share in Asia.
China’s coal share of 58% (5,864 TWh) remains just above the regional average of 54% and significantly above the global average of 34%. In 2024, China was responsible for 55% of global coal generation.
Loading data…
China’s carbon intensity of electricity generation was 560 gCO2/kWh, down 4.1% from 2023, but still significantly above the global average of 473 gCO2/kWh due to its dependence on coal.
China’s per-capita electricity demand of 7.1 MWh was almost double the global average (3.8 MWh) and the regional average (3.7 MWh). China’s demand per capita was five times India’s in 2024.
Due to its growing per capita demand and high reliance on coal generation, China’s per capita power sector emissions (4 tCO2) remained at more than double the global average of 1.8 tCO2 and the average in Asia of 2.1 tCO2.
Loading data…
5.2
United States
Key highlights
01
In 2024, wind and solar together generated more electricity in the US than coal for the first time, with coal’s share in the mix falling to an all-time low of under 15%
02
Gas generation rose as electricity demand accelerated, with the US accounting for more than half (57%) of global growth in gas generation in 2024
03
Solar generation rose more than gas, recording its highest ever annual increase of 64 TWh
Electricity demand in the United States grew by 3% (+128 TWh) in 2024, caused partly by
heatwaves over the summer months
and partly as a rebound from a milder summer in 2023 when demand decreased by 1.3% (-55 TWh).
The demand rise was predominantly met with higher solar, wind and gas generation, which also made up for a fall in coal generation (-22 TWh).
2024 saw the largest-ever increase in solar generation in the US (+64 TWh). This was the second-largest increase of any country, after China. Significant capacity additions spurred by the Inflation Reduction Act have begun to feed through to generation increases. Wind generation rose as a result of improved wind conditions from 2023 as well as a moderate increase in wind capacity.
Gas generation in the US increased by 3.3% (+59 TWh). This was the largest rise in gas generation seen in any country in 2024 and more than half (57%) of the global increase in gas generation.
Loading data…
Coal power has been in terminal decline in the US since its peak in 2007. Since then, coal power has fallen by two-thirds (-1,364 TWh). Coal fell below 15% of the US electricity mix for the first time in 2024. Coal power was predominantly replaced by an increase in wind and solar generation (+722 TWh since 2007) and gas generation (+968 TWh since 2007). Gas generation rose to record levels in 2024, doubling compared to 2007. The US has been responsible for 43% of the global increase in gas generation since 2015.
The partial coal-to-gas switch meant that power sector emissions have not declined as fast as coal power. Since 2015, emissions have fallen by 18%, from 2,062 MtCO2 to 1,683 MtCO2 in 2024.
Wind and solar together have more than tripled (+527 TWh) in the US since 2015, generating 757 TWh of electricity in 2024. This continued growth meant that
wind and solar overtook coal power in the US
for the first time in 2024, generating 17% of the country’s electricity.
After remaining largely flat for most of the 2010s, demand has risen in three of the last four years, at an average of 1.8% per year.
The growth in clean electricity came only from solar and wind – bioenergy, nuclear and hydro generation were all lower in 2024 than in 2015.
Loading data…
The United States generated 42% of its electricity from clean sources in 2024, in line with the global average. 17% of the country’s electricity was generated by wind and solar power, which was just above the global average (15%), but lower than China (18%).
58% of US electricity came from fossil fuels in 2024, which was in line with the global average of 59% despite coal’s significant decline. This was due to the country’s reliance on gas power, which supplied 43% of its electricity in 2024 (1,865 TWh). This was more than double the gas generation of all other G7 members combined.
Loading data…
The carbon intensity of US electricity generation was 384 gCO2/kWh – below the global average of 473 gCO2/kWh. Although the fossil share was similar to the global average, the US has a larger reliance on gas than coal, leading to carbon intensity.
The United States was the country with the 11th highest electricity demand per capita (12.7 MWh) in 2024. Its demand per capita has remained consistently high and in 2024, reached its highest level since 2014. Its demand per capita is twice as high as that of the EU.
As a result of high electricity demand, power sector emissions per capita were 4.9 tCO2, more than double the global average of 1.8 tCO2.
Loading data…
5.3
European Union
Key highlights
01
Solar power overtook coal generation in the EU for the first time in 2024
02
In 2024, the EU saw the largest fall in coal generation globally
03
The EU’s biggest two generation sources – nuclear and wind – are both low-carbon, with gas and coal in third and sixth place respectively
In 2024, solar was the European Union’s fastest-growing power source, with a 21% increase (+53 TWh) compared to 2023. This rise accounted for 11% of the global increase in solar generation. The EU saw a record amount of new capacity additions in 2024, driving this solar increase despite lower solar radiation in 2024 than in 2023.
Wind generation grew by 8 TWh year-on-year in 2024. This growth is lower than the average 30 TWh year-on-year increase seen between 2019 and 2023. While capacity additions continued in 2024, wind conditions were less favourable than in 2023, leading to lower than expected generation.
Hydro and nuclear generation increased by 32 TWh (+9.6%) and 29 TWh (+4.6%) respectively. Hydro increased due to favorable rainfall across most of Europe, while nuclear power was boosted because of reduced downtime in France.
Fossil gas generation fell for the fifth year in a row (-26 TWh, -5.6%). Coal generation in the EU fell by 50 TWh (-16%), continuing a second consecutive year of decline. This was the largest decline in any power sector globally.
EU demand rose by 30 TWh (+1.1%), steadying after large falls in 2022 and 2023.
Loading data…
The EU has proven that a deep transformation of the power sector is achievable and beneficial. In 2024, EU power sector emissions were down to 585 million tonnes of CO2 (MtCO2), below half of their 2007 peak.
Over the last five years, coal generation has fallen by 182 TWh (-40%), with Austria, Sweden and Portugal phasing it out completely, while countries with large coal fleets like Germany saw significant plant closures. At the same time, gas generation has decreased in each of the last five years, and was 139 TWh (-24%) lower in 2024 than it was in 2019. The reduction in gas generation has enhanced the bloc’s energy security amidst Russia’s invasion of Ukraine and the gas price volatility seen over the last three years. EU fossil generation is now at its lowest level for more than forty years (793 TWh).
The key driver of this has been a significant rise in wind and solar generation. Wind and solar’s share in the EU power mix has increased from 17% in 2019 to 29% in 2024, with wind generation increasing by 113 TWh (+31%) and solar generation by 179 TWh (+143%).
Hydropower capacity has remained unchanged over the last five years, with changes in generation dominated by weather conditions. Meanwhile, nuclear capacity has decreased from 110 GW to 96 GW, although the largest changes in generation have come from outages and maintenance.
Loading data…
As a result of its power sector transformation, the EU has cemented its position as a global leader in clean power, showing it is possible to integrate high shares of variable renewables. 71% of the region’s electricity came from clean sources in 2024, far above the global average of 41%. The EU’s biggest two generation sources – nuclear and wind – are both low-carbon, with gas and coal in third and sixth place respectively.
The EU obtained 18% of its electricity from wind power, more than double the global average. Solar provided 11% of the EU’s electricity generation in 2024, surpassing coal for the first time ever. Out of the 15 countries with the highest solar shares in 2024, seven were EU Member States. France’s sizeable nuclear fleet meant that the bloc generated 24% of its electricity from nuclear power, above the global average.
Fossil generation provided 29% of the EU’s electricity, half of the global average of 59%. The main difference was a much lower share of coal generation. Coal generation fell to below 10% (9.8%) of total EU electricity generation, compared to the global average of 34%.
Loading data…
The carbon intensity of electricity generation in the EU was 213 gCO2 per kWh in 2024, less than half the global average (473 gCO2/kWh).
The EU’s per capita power demand was 6.1 MWh, 60% higher than the world average and half the demand per capita of the United States.
The low CO2 intensity and demand per capita meant that the EU’s per capita power sector emissions were 1.3 tonnes of CO2 (tCO2), 28% less than the world average of 1.8 tCO2 and about one third of those in China and the United States.
Loading data…
5.4
India
Key highlights
01
India’s wind and solar  generation doubled in the five years leading to 2024
02
India overtook Germany to become the world’s third largest generator of electricity from wind and solar in 2024
03
Coal generation growth met 64% of India’s electricity demand growth in 2024, a substantial decline from the 91% in 2023
India’s power demand increased by 5% (98 TWh) in 2024, slightly less than the 7% growth in 2023, and in line with the country’s average annual demand growth rate for the last decade (+5.5%). India had the third-largest demand increase in the world.
Clean generation increased by 32 TWh (+7.4%) in 2024, meeting 33% of India’s demand increase. The clean generation increase was in part due to a rebound of hydro (+7 TWh, +4.7%) after a decline of 26 TWh in 2023.
India recorded the fourth-largest increase in solar generation of any country in 2024 at 20 TWh (+18%), more than the total solar generation of the United Kingdom. This was driven by record capacity additions in 2024, more than
double the additions in 2023
. However, lower solar radiation meant that the generation increase seen in 2024 did not fully reflect the impact of this capacity boom.
Fossil generation increased by 67 TWh (+4.4%) in 2024, significantly lower than 2023’s figure of 124 TWh (+8.8%). Coal generation grew by 4.3% in 2024, almost half the average of the prior three years (8.8%). Coal generation growth met 64% of India’s electricity demand growth in 2024, a substantial decline from the 91% in 2023.
Loading data…
India’s demand had been rising by more than 7% every year since the Covid-19 decline of 2020, but in 2024, demand growth fell back to the historic ten-year trend of around 5%.
India’s wind and solar generation almost doubled over the five years leading to 2024, from 110 TWh to 215 TWh. As a result, India overtook Germany in 2024 to become the world’s third largest generator of electricity from wind and solar. Hydro generation in 2024 was roughly the same as five years ago, and nuclear power increased by 10 TWh (+21%) over the same period.
India’s coal-fired power generation also continued to rise, almost doubling from 2012 (787 TWh) to 2024 (1,534 TWh). In 2018, India overtook the US to become the second-largest coal generator, and now has more than twice the coal generation of the US.
As a result, power sector emissions continue to rise, reaching 1,457 MtCO2 in 2024. This makes India the world’s third-largest power sector emitter, although emissions per capita remain well below the global average.
Loading data…
India is one of only ten countries that is currently planning for a tripling of renewables capacity by 2030 (from 2022), with the goal of reaching 500 GW of clean power capacity. By October 2024, the country had achieved
200 GW of RE capacity
. India is focused on domestic policies that support solar modules, batteries, and electrolysers to support the energy transition, while meeting development milestones such as the recent delivery of 100% electricity access.
India generated 78% of its electricity from fossil sources in 2024, primarily driven by coal at 75%. This is above the 66% regional average for Asia and well above the 59% global average.
Clean generation made up 22% of India’s electricity mix in 2024. Hydro was India’s largest clean electricity source at 8%. Solar and wind combined reached 10% in 2024. However, this is still below the global average (15%) and China (18%).
Loading data…
The carbon intensity of India’s power sector was 708 gCO2/kWh in 2024. This is higher than both the average in Asia of 573 gCO2/kWh and the global average of 473 gCO2/kWh.
Despite having the third-highest demand of any country, the electricity demand per capita was 1.4 MWh, less than half of the Asian regional average of 3.7 MWh and the global average of 3.8 MWh.
India’s electricity is heavily coal-reliant. However, the low per capita electricity use meant that India’s per capita emissions were 1 tCO2, much lower than the global average (1.8 tCO2).
Loading data…
5.5
Russia
Key highlights
01
Russia set a new record high for both coal and gas generation in 2024
02
Wind and solar accounted for less than 1% of Russia’s electricity mix, the second-lowest share in the G20
03
The carbon intensity of Russia’s electricity generation in 2024 remained unchanged from a decade ago
Demand in Russia grew by 32 TWh (+2.8%) in 2024, lower than the global demand increase of 4%. Excluding the 5.7% rise in 2021, following the Covid-19 pandemic, this was Russia’s highest demand increase since 2010. Fossil generation met most of this increase, with a 14 TWh (+6.7%) coal rise and a gas increase of 9.8 TWh (+1.9%).
Hydro increased by 9.5 TWh (+4.7%) in 2024, following a 3.2 TWh (+1.6%) increase in 2023. Nuclear saw a small decline of 1.7 TWh (-0.8%) in 2024.
Wind and solar only play a small role in Russian generation. Wind saw a 0.8 TWh increase and solar generation grew by 0.2 TWh.
Loading data…
Russia set a new record for both coal and gas generation in 2024, with fossil generation continuing to meet growing electricity demand. As a result, Russia was the world’s fourth-largest power sector emitter with a total of 544 million tonnes of CO2 (MtCO2) in 2024.
Power sector emissions in Russia had been relatively flat from 2013 until they dropped due to Covid-19 restrictions in 2020, but have been on a steady increase since then. Emissions were up by 20 MtCO2 in 2024, an increase of 3.8% over 2023, more than double the global average.
Nuclear and hydro generation have been rising in Russia. In 2024, nuclear generation was 10% higher than in 2015, though falling slightly in market share. Partly due to higher rainfall, hydro generation was 25% higher in 2024 compared to 2015. Solar and wind remained a tiny part of the electricity mix.
Loading data…
Russia has not started its clean energy transition. Its share of wind and solar generation combined was less than 1% of its total power mix, the second-lowest in the G20. Russia lags well behind the European average (20%), China (18%), and the global average of 15%.
Fossil fuels made up 64% of Russia’s electricity mix in 2024. Gas made up the largest share at 44%, followed by coal which accounted for 19% of the country’s electricity generation. Clean power made up 36% of the electricity mix with nearly all of it coming from hydro and nuclear, contributing 17% and 18% respectively.
Loading data…
Russia’s carbon intensity of electricity was 449 gCO2/kWh in 2024, just below the global average of 473 gCO2/kWh.
Russia’s demand per capita was 8.3 MWh, more than twice the global average of 3.8 MWh.
As a result of the relatively high demand, Russia’s power sector emissions per capita in 2024 were 3.8 tCO2, more than double the global average of 1.8 tCO2.
Loading data…
5.6
Japan
Key highlights
01
Wind power has grown significantly in all G7 countries except Japan
02
Japan remained the fourth-largest solar generating country globally
03
Japan’s power sector emissions fell by 1.4% in 2024
In 2024, Japan’s power demand increased by 9 TWh (+0.9%), in part as a result of
hotter temperatures in summer months
. Fossil generation fell by 12 TWh (-1.7%). This was much lower than the fall in fossil generation in 2023 (-63 TWh, -8%).
Japan’s clean generation growth was led by an increase in nuclear generation (+7.5 TWh, +9.6%) and solar (+5 TWh, +5.2%). Overall clean generation was up by 21 TWh (+7%), just over half of the increase in 2023 (+36 TWh; +13.6%).
Loading data…
Japan’s power sector emissions peaked in 2012 and have declined 25% since then, reaching 493 million tonnes of CO2 (MtCO2) in 2024. This was the lowest value in the past 22 years, but still slightly higher than in 2000. This is because coal and gas still generate around two-thirds of Japan’s electricity, though in recent years they have been increasingly replaced by nuclear and solar.
Solar’s share in the mix has grown significantly in Japan, rising fivefold from 2% of generation in 2014 to 10% in 2024. On the other hand, wind was just 1% of generation in 2024. This is in stark contrast to the rest of the G7, where wind has risen to an average of 12% of total electricity generation.
Nuclear generation has grown in recent years owing to the reopening of reactors closed following the Fukushima nuclear disaster. Two units
reopened
in 2024. However, due to the slow recovery of nuclear power and the lack of wind power, Japan produced less clean electricity in 2024 (322 TWh) than it did in 2000 (420 TWh).
Loading data…
Japan’s largest source of clean electricity was solar (10%) in 2024. However, despite significant wind potential, its share of wind is only 1%. As a result, the wind and solar share was only 11% in 2024, below the global average (15%), regional average (14%), and its neighbour China (18%).
In 2024, Japan relied on fossil fuels for 69% of electricity generation. This is more than the regional average of 66% and global average of 59%.
The share of nuclear in electricity generation was 8.3%, up from 7.6% in 2023 due to the restart of additional nuclear reactors in 2024. There are currently
10 reactors under review
for potential restart, and the recent
7th long-term strategic energy plan
aims for 20% nuclear share in generation by 2040.
Loading data…
The carbon intensity of Japan’s power sector was 482 gCO2/kWh in 2024, virtually unchanged from 2023, and just above the global average of 473 gCO2/kWh. Due to the lower contribution of coal in Japan as compared to most of Asia, its carbon intensity was lower than the Asian regional average of 573 gCO2/kWh.
However, Japan’s emissions per capita of 4 tCO2 were more than twice the global average of 1.8 tCO2 and almost twice the regional average of 2.1 tCO2. This is primarily due to Japan’s large demand per capita at 8.3 MWh.
Loading data…
5.7
Brazil
Key highlights
01
In 2024, Brazil had the world’s third-largest increase in both wind and solar generation
02
Brazil has overtaken Germany to become the fifth-largest solar generator
03
Brazil’s power sector emissions peaked a decade ago, and in 2024 were down 32% from 2014
Electricity demand in Brazil was up by 35 TWh (+4.9%) in 2024, similar to the demand increase in 2023 (+35 TWh, +5%). Both years’ increases were triple that of 2022 (+11 TWh, +1.6%).
Brazil’s demand increase was primarily met by solar (+23 TWh, +45%) and wind (+12 TWh, +13%). Its increase in solar generation was the third-largest of any country in 2024.
Brazil became the fifth-largest solar generator in 2024, surpassing Germany in the global rankings. Brazil also had the third-largest increase in wind generation in 2024, maintaining its fourth place globally in terms of total annual wind generation.
Hydro generation was down 14 TWh (-3.2%) in 2024 due to an intense and widespread
drought
. Brazil’s fossil generation increased by 12 TWh (+18%), primarily due to gas increasing by 10 TWh (+27%), countering the fall in hydro generation.
Loading data…
Brazil has a high share of renewables due to its large hydroelectric base and the rapid expansion of solar and wind power in recent years. Its share of wind and solar has been growing rapidly in recent years, reaching 24% in 2024, a substantial increase from 17% in 2022 and up from just 5.8% in 2016.
Brazil’s power sector emissions peaked in 2014 at 114 million tonnes of CO2 (MtCO2). Growing wind and solar have since reduced the need for fossil power. In 2024, a decade past the peak, its power sector emissions were 32% below 2014 levels, at 77 MtCO2.
Brazil’s power sector emissions have fluctuated since the peak due to variability in weather conditions, with rainfall and drought affecting hydro output. In 2024, drier conditions prevailed and overall, there was a slight decline in hydro generation (-14 TWh) that was almost all offset by rising fossil generation (+12 TWh) such that power sector emissions increased slightly from 2023 to 2024 (+8 MtCO2).
Loading data…
Brazil generated 90% of its electricity from clean sources in 2024, with hydro dominating the mix at 56%. Its share of wind and solar (24%) was above the global average (15%) and the average in Latin America (17%).
Over 87% of Brazil’s electricity came from renewables in 2024, which was by far the highest of any G20 country and almost triple the global average of 32%.
Brazil relied on fossil fuels for just 10% of its electricity in 2024, a sixth of the global average of 59%.
Loading data…
In 2024, Brazil’s carbon intensity of electricity generation was 103 gCO2/kWh, the second-lowest in the G20 and less than a quarter of the global average (473 gCO2/kWh).
Brazil’s electricity demand per capita was 3.6 MWh in 2024, just below the world average of 3.8 MWh but above the regional average of 2.8 MWh.
Brazil’s per capita emissions from electricity generation (0.4 tCO2) are the lowest in the G20 and less than a quarter of the global average of 1.8 tCO2.
Loading data…
Previous Chapter
4: Global Electricity Source Trends
Next Chapter
Conclusion
Related Content
View All
Analysis
Global Electricity Review 2026
Electricity
World
21 April 2026
Analysis
£1bn but falling: Record subsidy for UK biomass burning enters final year
Electricity
Europe
United Kingdom
16 April 2026
Analysis
The New Twin Fossil Shock
Energy Security
Middle East
World
14 April 2026
Analysis
Clean power fortifies Britain against gas price shocks
Electricity
Europe
United Kingdom
09 April 2026
Share
Twitter/X
Email
Get monthly reports, commentaries, and datasets straight to your inbox.
Explore
Countries
Regions
Focus Areas
Data
Electricity Data Explorer
Data Tools
Datasets
Latest
Insights
Updates
About
Careers
Creative Commons
Built by 89up
Ember is an energy think tank that aims to accelerate the clean energy transition with data and policy. Ember is the trading name of Ember Energy Research CIC, a Community Interest Company registered in England & Wales #06714443. 'Ember' is a trademark held at the United Kingdom and European Union Intellectual Property Offices. All content is released under a Creative Commons Attribution Licence (CC-BY-4.0). Website powered by 100% renewable electricity.
Manage Consent
To provide the best experiences, we use technologies like cookies to store and/or access device information. Consenting to these technologies will allow us to process data such as browsing behavior or unique IDs on this site. Not consenting or withdrawing consent, may adversely affect certain features and functions.
Please read our Privacy policy
here
Functional
Functional
Always active
The technical storage or access is strictly necessary for the legitimate purpose of enabling the use of a specific service explicitly requested by the subscriber or user, or for the sole purpose of carrying out the transmission of a communication over an electronic communications network.
Preferences
Preferences
The technical storage or access is necessary for the legitimate purpose of storing preferences that are not requested by the subscriber or user.
Statistics
Statistics
The technical storage or access that is used exclusively for statistical purposes.
The technical storage or access that is used exclusively for anonymous statistical purposes. Without a subpoena, voluntary compliance on the part of your Internet Service Provider, or additional records from a third party, information stored or retrieved for this purpose alone cannot usually be used to identify you.
Marketing
Marketing
The technical storage or access is required to create user profiles to send advertising, or to track the user on a website or across several websites for similar marketing purposes.
Manage options
Manage services
Manage {vendor_count} vendors
Read more about these purposes
View preferences
{title}
{title}
{title}