![]() ![]() We will need to rely on low-carbon electricity and lots of it. In the years to come, accelerating the transition to clean electricity will become ever-more important as we electrify other parts of the energy system too (shifting to electric vehicles, for example). The map is not zoomable, but users can move the mouse to see the coordinates and the map image, and share their own location data or suggestions. We must take these country-level examples and learn from them. A user-made online map that shows the ingame map coordinates of Generation Zero locations, with some precautions and hackn slash solutions. Solar, wind and other renewable technologies are growing quickly and will hopefully account for a large share of electricity production in the future – but the countries that have a low-carbon electricity mix today have relied heavily on hydroelectric and nuclear power in recent years. Nearly all of these countries have one thing in common: they get a lot of electricity from hydropower and/or nuclear energy. Some countries get over 90% of their electricity from nuclear or renewables – Sweden, Norway, France, Paraguay, Iceland, and Nepal, among others. In the interactive map shown, we see this share across the world. But some countries get much more – some nearly all of it – from fossil-free sources. Globally we get just over one-third of our electricity from low-carbon sources. Some countries get most of their electricity from low-carbon sources ![]() From being the source of more than half of the electricity in the late 1980s, coal's contribution has now dwindled to just a mere couple of percent, reflecting a substantial shift in the country's energy landscape. Take the UK as an example: there we see a dramatic decline in the role of coal in its electricity mix. If we look at the electricity mix of particular countries we can see dramatic changes over time. Of the low-carbon sources, hydropower and nuclear make the largest contribution although wind and solar are growing quickly. Globally we see that coal, followed by gas, is the largest source of electricity production. The line chart shows each source's share of the total and gives a better perspective on how each is changing over time. It allows you to see how these sources sum up. The stacked area chart shows electricity production in absolute terms. In the interactive charts shown here, we see the breakdown of the electricity mix by source. What sources make up our electricity mix? How much comes from coal, oil, and gas, and how much from nuclear, hydropower, solar, or wind? Where do we get our electricity from? Which countries have the cleanest electricity grids? In this article, we look at the breakdown across the world. ![]() But in this article, we focus on the Electricity Mix. On another page, we provide the full breakdown of the Energy Mix. This means it's important to distinguish between the two. Generally, low-carbon sources (nuclear and renewables) account for a larger share of our electricity mix than our total energy mix. The other two are transport and heating.Īs we see in more detail in this article, the breakdown of sources – coal, oil, gas, nuclear, and renewables – is different in the electricity versus the energy mix. Electricity is one of three components that make up total energy production. ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |