Every dollar of investment in renewables creates three times more jobs than in the fossil fuel industry. The IEA estimates that the transition towards net-zero emissions will lead to an overall increase in energy sector jobs : while about 5 million jobs in fossil fuel production could be lost by , an estimated 14 million new jobs would be created in clean energy, resulting in a net gain of 9 million jobs.

In addition, energy-related industries would require a further 16 million workers, for instance to take on new roles in manufacturing of electric vehicles and hyper-efficient appliances or in innovative technologies such as hydrogen.

This means that a total of more than 30 million jobs could be created in clean energy, efficiency, and low-emissions technologies by Ensuring a just transition , placing the needs and rights of people at the heart of the energy transition, will be paramount to make sure no one is left behind.

The upfront cost can be daunting for many countries with limited resources, and many will need financial and technical support to make the transition. But investments in renewable energy will pay off. Moreover, efficient, reliable renewable technologies can create a system less prone to market shocks and improve resilience and energy security by diversifying power supply options.

Learn more about how many communities and countries are realizing the economic, societal, and environmental benefits of renewable energy. Read more. Derived from natural resources that are abundant and continuously replenished, renewable energy is key to a safer, cleaner, and sustainable world.

Explore common sources of renewable energy here. Learn more about the differences between fossil fuels and renewables, the benefits of renewable energy, and how we can act now. UN Secretary-General outlines five critical actions the world needs to prioritize now to speed up the global shift to renewable energy.

What is net zero? Why is it important? Our net-zero page explains why we need steep emissions cuts now and what efforts are underway.

Our climate offers a quick take on the how and why of climate change. How will the world foot the bill? We explain the issues and the value of financing climate action. Learn more about how climate change impacts are felt across different sectors and ecosystems.

Skip to main content. Toggle navigation Welcome to the United Nations. العربية 中文 Nederlands English Français हिन्दी Português Русский Español Kiswahili Türkçe Українська. Renewable energy sources, such as wind and solar, emit little to no greenhouse gases, are readily available and in most cases cheaper than coal, oil or gas.

Renewable energy — powering a safer future Energy is at the heart of the climate challenge — and key to the solution. Renewable energy is cheaper Renewable energy actually is the cheapest power option in most parts of the world today.

Renewable energy is healthier According to the World Health Organization WHO , about 99 percent of people in the world breathe air that exceeds air quality limits and threatens their health, and more than 13 million deaths around the world each year are due to avoidable environmental causes, including air pollution.

Renewable energy creates jobs Every dollar of investment in renewables creates three times more jobs than in the fossil fuel industry. What is renewable energy? Why invest in renewable energy?

Five ways to jump-start the renewable energy transition now UN Secretary-General outlines five critical actions the world needs to prioritize now to speed up the global shift to renewable energy. are leading the solar transformation, but solar still has a long way to go, accounting for around just two percent of the total electricity generated in the U.

in Solar thermal energy is also being used worldwide for hot water, heating, and cooling. Biomass: Biomass energy includes biofuels, such as ethanol and biodiesel, wood, wood waste, biogas from landfills, and municipal solid waste.

Like solar power, biomass is a flexible energy source, able to fuel vehicles, heat buildings, and produce electricity. But biomass can raise thorny issues. Critics of corn-based ethanol, for example, say it competes with the food market for corn and supports the same harmful agricultural practices that have led to toxic algae blooms and other environmental hazards.

Similarly, debates have erupted over whether it's a good idea to ship wood pellets from U. forests over to Europe so that it can be burned for electricity. Meanwhile, scientists and companies are working on ways to more efficiently convert corn stover, wastewater sludge, and other biomass sources into energy, aiming to extract value from material that would otherwise go to waste.

On a large scale, underground reservoirs of steam and hot water can be tapped through wells that can go a two kilometers deep or more to generate electricity. On a smaller scale, some buildings have geothermal heat pumps that use temperature differences several meters below ground for heating and cooling.

Unlike solar and wind energy, geothermal energy is always available, but it has side effects that need to be managed, such as the rotten-egg smell that can accompany released hydrogen sulfide.

Ways To Boost Renewable Energy Cities, states, and federal governments around the world are instituting policies aimed at increasing renewable energy.

At least 29 U. states have set renewable portfolio standards—policies that mandate a certain percentage of energy from renewable sources. More than cities worldwide now boast receiving at least 70 percent of their energy from renewable sources, and still others are making commitments to reach percent.

Other policies that could encourage renewable energy growth include carbon pricing, fuel economy standards, and building efficiency standards.

Corporations are making a difference too, purchasing record amounts of renewable power in Wonder whether your state could ever be powered by percent renewables? No matter where you live, scientist Mark Jacobson believes it's possible.

That vision is laid out here , and while his analysis is not without critics , it punctuates a reality with which the world must now reckon. Even without climate change, fossil fuels are a finite resource, and if we want our lease on the planet to be renewed, our energy will have to be renewable.

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You cannot download interactives. Renewable Energy Explained. Grades Subjects Chemistry, Conservation, Earth Science, Engineering.

Image Braes of Doune Wind Farm As of , wind turbines, like the Braes of Doune wind farm near Stirling, Scotland, are now producing , megawatts of power around the world—22 times more than 16 years before.

Photograph by Jim Richardson. Leveled by. Background Info Vocabulary. Media Credits The audio, illustrations, photos, and videos are credited beneath the media asset, except for promotional images, which generally link to another page that contains the media credit.

Director Tyson Brown, National Geographic Society.

What Is Renewable Energy? How Does Renewable Energy Work? Bioenergy Geothermal Energy Hydrogen and Other Renewable Fuels Hydropower Marine Energy Solar Energy Wind Energy. Myth Busting with EERE. Benefits of Renewable Energy. Renewable energy offers numerous economic, environmental, and social advantages.

These include: Reduced carbon emissions and air pollution from energy production Enhanced reliability , security, and resilience of the power grid Job creation through the increased production and manufacturing of renewable energy technologies Increased U. energy independence Lower energy costs Expanded energy access for remote, coastal, or isolated communities.

Renewable Energy in the United States. Clean Energy News. Office of Energy Efficiency and Renewable Energy. Advancing Renewable Energy in the United States. Renewable Energy at Home. Other Ways EERE Champions Clean Energy.

Buildings and Industry. Learn about EERE's buildings and industry research and development in advanced materials and manufacturing, building technologies, and industrial efficiency and decarbonization. Sustainable Transportation and Fuels.

Learn about EERE's work in bioenergy, hydrogen and fuel cells, and vehicles to increase access to domestic, clean transportation fuels and improve the energy efficiency, convenience, and affordability of transporting people and goods. Energy Storage. The Energy Department is developing new technologies that will store renewable energy for use when the wind isn't blowing and the sun isn't shining.

Fuel cells use the energy from hydrogen in a highly efficient way -- with only water and heat as byproducts. Learn more about our fossil energy sources: coal, oil and natural gas.

The Office of Energy Efficiency and Renewable Energy EERE strengthens U. Then nuclear energy was developed. It was supposed to be "too cheap to meter," and the hazardous waste problem would be solved in a "few short years.

The heat in the sun is from fusion. This form of energy is still experimental on Earth, but nuclear fission has been around since World War II.

Nuclear fission has a by-product of radioactive waste that will last for , years. In other words, if Neanderthal Man had used fission, we would be burdened with his radioactive waste even today.

NATURAL ENERGY RESOURCES Energy is all around us and manifests itself in many different forms -- heat, light, sound, magnetism, gravity, movement, and all life functions. It is everywhere in great abundance. Since the beginning of time, nature has been producing and reproducing energy in quantities so astronomical that we could never begin to use it all, not even with the most advanced technology.

Most energy sources are ongoing or renewable while others are finite. Ironically, we have chosen to produce appreciable energy from only one source, fossil fuels.

A small fraction of one percent of the sun's energy that the Earth absorbs is converted into plant tissue, and it is this tiny fraction that has produced all fossil fuels. Fossil fuels are usually environmentally destructive in their harvesting and in their burning to produce usable energy.

They are nonrenewable. When they are used up, they are gone forever. It will take thousands of years for the Earth to reproduce fossil fuels already used.

Renewable energy sources come from the fact that the Earth is a living organism. All of these resources are available on a daily or seasonable basis. The natural and renewable energy systems of the Earth that are useful in the design of our buildings can be divided into sun, wind, water, earth and plants.

Sun Our sun is a star -- that is, its light is internally produced, rather than reflected. It is our life source, a source of light and heat. It is received by the Earth through radiation. The following are possible natural uses of the sun: Thermal Heat can be used for passive heating of buildings and water.

Ventilation can be induced by the "chimney" or "stack" effect. Shading is the blocking of the direct sun, and one of the most important elements for natural cooling in Louisiana. Radiant Cooling is the absence of the sun and exposure to clear deep outer space at night.

Daylight - use of natural light can contribute immensely to the reduction of artificial light needed to light your building. Photo-chemical reactions from the sun by plants, animals, and materials create changes in color, form, and growth.

A greenhouse can provide food and heat. Electrical power is obtained directly from the sun with photovoltaic cells, a potential that becomes more feasible every day. Humidification is provided by using the sun's energy to evaporate water. One of Louisiana's major comfort problems is the high moisture already in the air.

Wind The unequal distribution of radiant heat from the sun on the surface of the Earth produces variations in heat contents of the air mass with corresponding variations in its density. These variations cause air movement, which is modified by the Earth's rotation, inclination, uneven distribution of land and ocean masses, and geographic abnormalities.

This flow of air is called wind. The wind can be used in many passive ways. The following are examples: Cooling is accomplished by the ability of the wind to remove or relocate heat from an object.

The rate at which heat is removed is proportional to the velocity of the air. Combustion air is required for fire. Fire is easily adjusted by controlling fresh air intake. Pumping water by windmills was familiar to rural Americans early in this century. Water About three-fourths of the Earth's surface is water.

The natural cycle of water evaporation and precipitation created by the sun is a force needed to sustain life on Earth. Many forms of energy can be realized from this movement of water in its natural cycle.

Below are a few examples: Electrical energy can be generated by the movement of water in different ways. Hydro-Electric Dams hold water above its natural level creating a head pressure needed to power generators. Turbines have been designed to take advantage of the Mississippi River and the Gulf Stream.

Ocean Thermal gradients are the temperature difference between surface and deep waters.

But we also see wind and solar power are both growing rapidly. In the sections above we looked at the role of renewables in the total energy mix. This includes not only electricity but also transport and heating. Electricity forms only one component of energy consumption. Since transport and heating tend to be harder to decarbonize — they are more reliant on oil and gas — renewables tend to have a higher share in the electricity mix versus the total energy mix.

This interactive chart shows the share of electricity that comes from renewable technologies. Globally, almost one-third of our electricity comes from renewables. Hydroelectric power has been one of our oldest and largest sources of low-carbon energy.

Hydroelectric generation at scale dates back more than a century, and is still our largest renewable source — excluding traditional biomass, it still accounts for approximately half of renewable generation. However, the scale of hydroelectric power generation varies significantly across the world.

This interactive chart shows its contribution by country. This interactive chart shows the share of primary energy that comes from hydropower. This interactive chart shows the share of electricity that comes from hydropower. This interactive chart shows the amount of energy generated from wind each year.

This includes both onshore and offshore wind farms. Wind generation at scale — compared to hydropower, for example — is a relatively modern renewable energy source but is growing quickly in many countries across the world.

The previous section looked at the energy output from wind farms across the world. Energy output is a function of power installed capacity multiplied by the time of generation.

Energy generation is therefore a function of how much wind capacity is installed. This interactive chart shows installed wind capacity — including both onshore and offshore — across the world.

This interactive chart shows the share of primary energy that comes from wind. This interactive chart shows the share of electricity that comes from wind. This interactive chart shows the amount of energy generated from solar power each year.

Solar generation at scale — compared to hydropower, for example — is a relatively modern renewable energy source but is growing quickly in many countries across the world. The previous section looked at the energy output from solar across the world. Energy generation is therefore a function of how much solar capacity is installed.

This interactive chart shows installed solar capacity across the world. This interactive chart shows the share of primary energy that comes from solar power. This interactive chart shows the share of electricity that comes from solar power.

Traditional biomass — the burning of charcoal, organic wastes, and crop residues — was an important energy source for a long period of human history.

It remains an important source in lower-income settings today. However, high-quality estimates of energy consumption from these sources are difficult to find. The Energy Institute Statistical Review of World Energy — our main data source on energy — only publishes data on commercially traded energy, so traditional biomass is not included.

However, modern biofuels are included in this energy data. Bioethanol and biodiesel — fuel made from crops such as corn, sugarcane, hemp, and cassava — are now a key transport fuel in many countries.

This interactive chart shows modern biofuel production across the world. This interactive chart shows the installed capacity of geothermal energy across the world. Energy efficiency. Find ways to cut your energy bills and create a sustainable home. Save with insulation — don't lose heat through your walls and roof.

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