what does renewable energy mean essay

• ENVIRONMENT

Renewable energy, explained

Solar, wind, hydroelectric, biomass, and geothermal power can provide energy without the planet-warming effects of fossil fuels.

In any discussion about climate change , renewable energy usually tops the list of changes the world can implement to stave off the worst effects of rising temperatures. That's because renewable energy sources such as solar and wind don't emit carbon dioxide and other greenhouse gases that contribute to global warming .

Clean energy has far more to recommend it than just being "green." The growing sector creates jobs , makes electric grids more resilient, expands energy access in developing countries, and helps lower energy bills. All of those factors have contributed to a renewable energy renaissance in recent years, with wind and solar setting new records for electricity generation .

For the past 150 years or so, humans have relied heavily on coal, oil, and other fossil fuels to power everything from light bulbs to cars to factories. Fossil fuels are embedded in nearly everything we do, and as a result, the greenhouse gases released from the burning of those fuels have reached historically high levels .

As greenhouse gases trap heat in the atmosphere that would otherwise escape into space, average temperatures on the surface are rising . Global warming is one symptom of climate change, the term scientists now prefer to describe the complex shifts affecting our planet’s weather and climate systems. Climate change encompasses not only rising average temperatures but also extreme weather events, shifting wildlife populations and habitats, rising seas , and a range of other impacts .

Of course, renewables—like any source of energy—have their own trade-offs and associated debates. One of them centers on the definition of renewable energy. Strictly speaking, renewable energy is just what you might think: perpetually available, or as the U.S. Energy Information Administration puts it, " virtually inexhaustible ." But "renewable" doesn't necessarily mean sustainable, as opponents of corn-based ethanol or large hydropower dams often argue. It also doesn't encompass other low- or zero-emissions resources that have their own advocates, including energy efficiency and nuclear power.

Types of renewable energy sources

Hydropower: For centuries, people have harnessed the energy of river currents, using dams to control water flow. Hydropower is the world's biggest source of renewable energy by far, with China, Brazil, Canada, the U.S., and Russia the leading hydropower producers . While hydropower is theoretically a clean energy source replenished by rain and snow, it also has several drawbacks.

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Large dams can disrupt river ecosystems and surrounding communities , harming wildlife and displacing residents. Hydropower generation is vulnerable to silt buildup, which can compromise capacity and harm equipment. Drought can also cause problems. In the western U.S., carbon dioxide emissions over a 15-year period were 100 megatons higher than they normally would have been, according to a 2018 study , as utilities turned to coal and gas to replace hydropower lost to drought. Even hydropower at full capacity bears its own emissions problems, as decaying organic material in reservoirs releases methane.

Dams aren't the only way to use water for power: Tidal and wave energy projects around the world aim to capture the ocean's natural rhythms. Marine energy projects currently generate an estimated 500 megawatts of power —less than one percent of all renewables—but the potential is far greater. Programs like Scotland’s Saltire Prize have encouraged innovation in this area.

Wind: Harnessing the wind as a source of energy started more than 7,000 years ago . Now, electricity-generating wind turbines are proliferating around the globe, and China, the U.S., and Germany are the leading wind energy producers. From 2001 to 2017 , cumulative wind capacity around the world increased to more than 539,000 megawatts from 23,900 mw—more than 22 fold.

Some people may object to how wind turbines look on the horizon and to how they sound, but wind energy, whose prices are declining , is proving too valuable a resource to deny. While most wind power comes from onshore turbines, offshore projects are appearing too, with the most in the U.K. and Germany. The first U.S. offshore wind farm opened in 2016 in Rhode Island, and other offshore projects are gaining momentum . Another problem with wind turbines is that they’re a danger for birds and bats, killing hundreds of thousands annually , not as many as from glass collisions and other threats like habitat loss and invasive species, but enough that engineers are working on solutions to make them safer for flying wildlife.

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Solar: From home rooftops to utility-scale farms, solar power is reshaping energy markets around the world. In the decade from 2007 and 2017 the world's total installed energy capacity from photovoltaic panels increased a whopping 4,300 percent .

In addition to solar panels, which convert the sun's light to electricity, concentrating solar power (CSP) plants use mirrors to concentrate the sun's heat, deriving thermal energy instead. China, Japan, and the U.S. are leading the solar transformation, but solar still has a long way to go, accounting for around two percent of the total electricity generated in the U.S. in 2017. 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 and 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.S. 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.

Geothermal: Used for thousands of years in some countries for cooking and heating, geothermal energy is derived from the Earth’s internal heat . On a large scale, underground reservoirs of steam and hot water can be tapped through wells that can go a mile deep or more to generate electricity. On a smaller scale, some buildings have geothermal heat pumps that use temperature differences several feet 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.S. states have set renewable portfolio standards —policies that mandate a certain percentage of energy from renewable sources, More than 100 cities worldwide now boast at least 70 percent renewable energy, and still others are making commitments to reach 100 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 2018.

Wonder whether your state could ever be powered by 100 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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• SUSTAINABILITY
• RENEWABLE ENERGY
• GEOTHERMAL ENERGY
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• HYDROELECTRIC POWER
• CLIMATE CHANGE

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Introduction to Renewable Energy

Exploring our content.

Fast Facts View our summary of key facts and information. ( Printable PDF, 270 KB )

Before You Watch Our Lecture Maximize your learning experience by reviewing these carefully curated readings we assign to our students.

Our Lecture Watch the Stanford course lecture.

Additional Resources Find out where to explore beyond our site.

Fast Facts About Renewable Energy

Principle Energy Uses: Electricity, Heat Forms of Energy: Kinetic, Thermal, Radiant, Chemical

The term “renewable” encompasses a wide diversity of energy resources with varying economics, technologies, end uses, scales, environmental impacts, availability, and depletability. For example, fully “renewable” resources are not depleted by human use, whereas “semi-renewable” resources must be properly managed to ensure long-term availability. The most renewable type of energy is energy efficiency, which reduces overall consumption while providing the same energy service. Most renewable energy resources have significantly lower environmental and climate impacts than their fossil fuel counterparts.

The data in these Fast Facts do not reflect two important renewable energy resources: traditional biomass, which is widespread but difficult to measure; and energy efficiency, a critical strategy for reducing energy consumption while maintaining the same energy services and quality of life. See the Biomass and Energy Efficiency pages to learn more.

Significance

14% of world 🌎 9% of US 🇺🇸

Electricity Generation

30% of world 🌎 21% of US 🇺🇸

Global Renewable Energy Uses

Electricity 65% Heat 26% Transportation 9%

Global Consumption of Renewable Electricity Change

Increase: ⬆ 33% (2017 to 2022)

Energy Efficiency

Energy efficiency measures such as LED light bulbs reduce the need for energy in the first place

Renewable Resources

Wind Solar Ocean

Semi-Renewable Resources

Hydro Geothermal Biomass

Renewable Energy Has Vast Potential to Meet Global Energy Demand

Solar >1,000x global demand Wind ~3x global demand

Share of Global Energy Demand Met by Renewable Resources

Hydropower 7% Wind 3% Solar 2% Biomass <2%  

Share of Global Electricity Generation Met by Renewable Resources

Hydropower 15% Wind 7% Solar 5% Biomass & Geothermal <3%

Global Growth

Hydropower generation increase ⬆6% Wind generation increase ⬆84% Solar generation increase ⬆197% Biofuels consumption increase ⬆23% (2017-2022)

Largest Renewable Energy Producers

China 34% 🇨🇳 US 10% 🇺🇸 of global renewable energy

Highest Penetration of Renewable Energy

Norway 72% 🇳🇴 of the country’s primary energy is renewable

(China is at 16%, the US is at 11%)

Largest Renewable Electricity Producers

China 31% 🇨🇳 US 11% 🇺🇸 of global renewable electricity

Highest Penetration of Renewable Electricity

Albania, Bhutan, CAR, Lesotho, Nepal, & Iceland 100%

Iceland, Ethiopia, Paraguay, DRC, Norway, Costa Rica, Uganda, Namibia, Eswatini, Zambia, Tajikistan, & Sierra Leone > 90% of the country’s primary electricity is renewable

(China is at 31%, the US is at 22%)

Share of US Energy Demand Met by Renewable Resources

Biomass 5% Wind 2% Hydro 1% Solar 1%

Share of US Electricity Generation Met by Renewable Resources

Wind 10% Hydropower 6% Solar 3% Biomass 1%

US States That Produce the Most Renewable Electricity

Texas 21% California 11% of US renewable energy production

US States With Highest Penetration of Renewable Electricity

Vermont >99% South Dakota 84% Washington 76% Idaho 75% of state’s total generation comes from renewable fuels

Renewable Energy Expansion Policies

The Inflation Reduction Act continued tax credits for new renewable energy projects in the US.

Production Tax Credit (PTC)

Tax credit of $0.0275/kWh of electricity produced at qualifying renewable power generation sites

Investment Tax Credit (ITC)

Tax credit of 30% of the cost of a new qualifying renewable power generation site

To read more about the credit qualifications, visit this EPA site .

*LCOE (levelized cost of electricity) - price for which a unit of electricity must be sold for system to break even

Important Factors for Renewable Site Selection

• Resource availability
• Environmental constraints and sensitivities, including cultural and archeological sites
• Transmission infrastructure
• Power plant retirements
• Transmission congestion and prices
• Electricity markets
• Load growth driven by population and industry
• Policy support
• Land rights and permitting
• Competitive and declining costs of wind, solar, and energy storage
• Lower environmental and climate impacts (social costs) than fossil fuels
• Expansion of competitive wholesale electricity markets
• Governmental clean energy and climate targets and policies
• Corporate clean energy targets and procurement of renewable energy
• No fuel cost or fuel price volatility
• Retirements of old and/or expensive coal and nuclear power plants
• Most renewable resources are abundant, undepletable
• Permitting hurdles and NIMBY/BANANA* concerns
• Competition from subsidized fossil fuels and a lack of price for their social cost (e.g., price on carbon)
• Site-specific resources means greater need to transport energy/electricity to demand
• High initial capital expenditure requirements required to access fuel cost/operating savings
• Intermittent resources
• Inconsistent governmental incentives and subsidies
• Managing environmental impacts to the extent that they exist

*NIMBY - not in my backyard; BANANA - build absolutely nothing anywhere near anything

Climate Impact: Low to High

• Solar, wind, geothermal, and ocean have low climate impacts with near-zero emissions; hydro and biomass can have medium to high climate impact
• Hydro: Some locations have greenhouse gas emissions due to decomposing flooded vegetation
• Biomass: Some crops require significant energy inputs, land use change can release carbon dioxide and methane

Environmental Impact: Low to High

• Most renewable energy resources have low environmental impacts, particularly relative to fossil fuels; some, like biomass, can have more significant impacts
• No air pollution with the exception of biomass from certain feedstocks
• Can have land and habitat disruption for biomass production, solar, and hydro
• Potential wildlife impacts from wind turbines (birds and bats)
• Modest environmental impacts during manufacturing, transportation, and end of life

Updated January 2024

Before You Watch Our Lecture on Introduction to Renewable Energy

We assign videos and readings to our Stanford students as pre-work for each lecture to help contextualize the lecture content. We strongly encourage you to review the Essential reading below before watching our lecture on  Introduction to Renewable Energy . Include the Optional and Useful readings based on your interests and available time.

• The Sustainable Energy in America 2023 Factbook (Executive Summary pp. 5-11) . Bloomberg New Energy Finance. 2023. (7 pages) Provides valuable year-over-year data and insights on the American energy transformation.

Optional and Useful

• Renewables 2023 Global Status Report (Global Overview pp. 11-40) . REN21. 2023. (30 pages).  Documents the progress made in the renewable energy sector and highlights the opportunities afforded by a renewable-based economy and society.

Our Lecture on Introduction to Renewable Energy

This is our Stanford University Understand Energy course lecture that introduces renewable energy. We strongly encourage you to watch the full lecture to gain foundational knowledge about renewable energy and important context for learning more about specific renewable energy resources. For a complete learning experience, we also encourage you to review the Essential reading we assign to our students before watching the lecture.

Presented by: Kirsten Stasio , Adjunct Lecturer, Civil and Environmental Engineering, Stanford University; CEO, Nevada Clean Energy Fund (NCEF) Recorded on:  November 16, 2022   Duration: 52 minutes

Table of Contents

(Clicking on a timestamp will take you to YouTube.) 00:00 What Does "Renewable" Mean? 12:56 What Role Do Renewables Play In Our Energy Use? 20:29  What Factors Affect Renewable Energy Project Development? 52:13 Conclusion

Lecture slides available upon request .

Additional Resources About Renewable Energy

Stanford university.

• Precourt Institute for Energy Renewable Energy , Energy Efficiency
• Stanford Energy Club
• Energy Modeling Forum
• Sustainable Stanford
• Sustainable Finance Initiative
• Mark Jacobson - Renewable energy
• Michael Lepech - Life-cycle analysis
• Leonard Ortolano - Environmental and water resource planning
• Chris Field - Climate change, land use, bioenergy, solar energy
• David Lobell - Climate change, agriculture, biofuels, land use
• Sally Benson - Climate change, energy, carbon capture and storage

Government and International Organizations

• International Energy Agency (IEA) Renewables Renewables 2022 Repor .
• National Renewable Energy Laboratory (NREL)
• US Department of Energy (DOE) Office of Energy Efficiency & Renewable Energy (EERE)
• US Energy Information Administration (EIA) Renewable Energy Explained
• US Energy Information Administration (EIA) Energy Kids Renewable Energy
• US Energy Information Administration (EIA) Today in Energy Renewables

Non-Governmental Organizations (NGOs)

• Carnegie Institution for Science  Biosphere Sciences and Engineering
• The Solutions Project

Other Resources

• REN21: Renewable Energy Policy Network for the 21st Century
• REN21 Renewables 2023 Global Status Report Renewables in Energy Supply
• BloombergNEF (BNEF)
• Renewable Energy World
• World of Renewables
• Energy Upgrade California
• Windustry Community Wind Toolbox

Next Topic: Energy Efficiency Other Energy Topics to Explore

Fast Facts Sources

• Energy Mix (World 2022): Energy Institute. Statistical Review of World Energy . 2023.
• Energy Mix (US 2022): US Energy Information Agency (EIA). Total Energy: Energy Overview, Table 1.3 . 
• Electricity Mix (World 2022): Energy Institute. Statistical Review of World Energy . 2023.
• Electricity Mix (US 2022): US Energy Information Agency (EIA). Total Energy: Electricity, Table 7.2a.  
• Global Solar Use (2022): REN21. Renewables 2023 Global Status Report: Renewables in Energy Supply , page 42. 2023
• Global Consumption of Renewable Electricity Change (2017-2022): Energy Institute. Statistical Review of World Energy . 2023.
• Renewable Energy Potential: Perez & Perez. A Fundamental Look at Energy Reserves for the Planet . 2009
• Share of Global Energy Demand (2022): Energy Institute. Statistical Review of World Energy . 2023.
• Share of Global Electricity Demand (2022): Energy Institute. Statistical Review of World Energy . 2023.
• Global Growth (2017-2022): Energy Institute. Statistical Review of World Energy . 2023.
• Largest Renewable Energy Producers (World 2022): International Renewable Energy Agency (IRENA). Renewable Capacity Statistics 2023 . 2023.
• Highest Penetration Renewable Energy (World 2022): Our World in Data. Renewable Energy . 2023.
• Largest Renewable Electricity Producers (World 2022):   Energy Institute. Statistical Review of World Energy . 2023.
• Highest Penetration Renewable Electricity (World 2022): Our World in Data. Renewable Energy . 2023.
• Share of US Energy Demand (2022): Energy Information Administration (EIA). Electric Power Monthly. 2023.
• Share of Electricity Generation (2022): Energy Information Administration (EIA). Electric Power Monthly. 2023.
• States with Highest Generation (2022): Energy Information Administration (EIA). Electric Power Monthly. 2023.
• States with Highest Penetration (2021): Energy Information Administration (EIA). State Profile and Energy Estimates. 2023.
• LCOE of US Renewable Resources: Lazard. LCOE. April 2023.
• LCOE of US Non Renewable Resources: Lazard. LCOE. April 2023.

More details available on request . Back to Fast Facts

• Renewable Energy

What Is Renewable Energy?

Renewable energy comes from unlimited, naturally replenished resources, such as the sun, tides, and wind. Renewable energy can be used for electricity generation, space and water heating and cooling, and transportation.

Non-renewable energy, in contrast, comes from finite sources, such as coal, natural gas, and oil.

How Does Renewable Energy Work?

Renewable energy sources, such as biomass, the heat in the earth’s crust, sunlight, water, and wind, are natural resources that can be converted into several types of clean, usable energy:

Bioenergy Geothermal Energy Hydrogen and Other Renewable Fuels Hydropower Marine Energy Solar Energy Wind Energy

Learn the truth about clean energy.

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.S. energy independence
• Lower energy costs
• Expanded energy access for remote, coastal, or isolated communities.

Learn more about the advantages of wind energy , solar energy , bioenergy , geothermal energy , hydropower , and marine energy , and how the U.S. Department of Energy is working to modernize the power grid and increase renewable energy production.

Renewable Energy in the United States

Renewable energy generates over 20% of all U.S. electricity , and that percentage continues to grow. The following graphic breaks down the shares of total electricity production in 2022 among the types of renewable power: 

In 2022, annual U.S. renewable energy generation surpassed coal for the first time in history. By 2025, domestic solar energy generation is expected to increase by 75%, and wind by 11%. 

The United States is a resource-rich country with enough renewable energy resources to generate more than 100 times the amount of electricity Americans use each year.  Learn more about renewable energy potential in the United States.

Subscribe to stay up to date on the latest clean energy news from EERE.

Office of Energy Efficiency and Renewable Energy

The U.S. Department of Energy's Office of Energy Efficiency and Renewable Energy (EERE) has three core divisions: Renewable Energy, Sustainable Transportation and Fuels, and Buildings and Industry. The Renewable Energy pillar comprises four technology offices:

Every American can advocate for renewable energy by becoming a Clean Energy Champion. Both small and large actions make a difference. Join the movement .

Advancing Renewable Energy in the United States

EERE offers funding for renewable energy research and development, as well as programs that support the siting of renewable energy , connection of renewable energy to the grid , and community-led energy projects . Find open funding opportunities and learn how to apply for funding .

The U.S. Department of Energy's 17 national laboratories conduct research and help bring renewable energy technologies to market. 

Renewable Energy at Home

Homeowners and renters can use clean energy at home by buying green power, installing renewable energy systems to generate electricity, or using renewable resources for water and space heating and cooling.

Before installing a renewable energy system, it's important to reduce your energy consumption and improve your home’s energy efficiency .

Visit Energy Saver to learn more about the use of renewable energy at home.

You may be eligible for federal and state tax credits if you install a renewable energy system in your home. Visit ENERGY STAR to learn about federal renewable energy tax credits for homeowners. For information on state incentives, visit the Database of State Incentives for Renewables and Efficiency .

Other Ways EERE Champions Clean Energy

Find clean energy jobs.

EERE is dedicated to building a clean energy economy, which means millions of new jobs in construction, manufacturing, and many other industries. Learn more about job opportunities in renewable energy:

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Renewable energy – powering a safer future

Energy is at the heart of the climate challenge – and key to the solution.

A large chunk of the greenhouse gases that blanket the Earth and trap the sun’s heat are generated through energy production, by burning fossil fuels to generate electricity and heat.

Fossil fuels, such as coal, oil and gas, are by far the largest contributor to global climate change , accounting for over 75 percent of global greenhouse gas emissions and nearly 90 percent of all carbon dioxide emissions.

The science is clear: to avoid the worst impacts of climate change, emissions need to be reduced by almost half by 2030 and reach net-zero by 2050.

To achieve this, we need to end our reliance on fossil fuels and invest in alternative sources of energy that are clean, accessible, affordable, sustainable, and reliable.

Renewable energy sources – which are available in abundance all around us, provided by the sun, wind, water, waste, and heat from the Earth – are replenished by nature and emit little to no greenhouse gases or pollutants into the air.

Fossil fuels still account for more than 80 percent of global energy production , but cleaner sources of energy are gaining ground. About 29 percent of electricity currently comes from renewable sources.

Here are five reasons why accelerating the transition to clean energy is the pathway to a healthy, livable planet today and for generations to come.

1. Renewable energy sources are all around us

About 80 percent of the global population lives in countries that are net-importers of fossil fuels -- that’s about 6 billion people who are dependent on fossil fuels from other countries, which makes them vulnerable to geopolitical shocks and crises.

In contrast, renewable energy sources are available in all countries, and their potential is yet to be fully harnessed. The International Renewable Energy Agency (IRENA) estimates that 90 percent of the world’s electricity can and should come from renewable energy by 2050.

Renewables offer a way out of import dependency, allowing countries to diversify their economies and protect them from the unpredictable price swings of fossil fuels, while driving inclusive economic growth, new jobs, and poverty alleviation.

2. Renewable energy is cheaper

Renewable energy actually is the cheapest power option in most parts of the world today. Prices for renewable energy technologies are dropping rapidly. The cost of electricity from solar power fell by 85 percent between 2010 and 2020. Costs of onshore and offshore wind energy fell by 56 percent and 48 percent respectively.

Falling prices make renewable energy more attractive all around – including to low- and middle-income countries, where most of the additional demand for new electricity will come from. With falling costs, there is a real opportunity for much of the new power supply over the coming years to be provided by low-carbon sources.

Cheap electricity from renewable sources could provide 65 percent of the world’s total electricity supply by 2030. It could decarbonize 90 percent of the power sector by 2050, massively cutting carbon emissions and helping to mitigate climate change.

Although solar and wind power costs are expected to remain higher in 2022 and 2023 then pre-pandemic levels due to general elevated commodity and freight prices, their competitiveness actually improves due to much sharper increases in gas and coal prices, says the International Energy Agency (IEA).

3. 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.

The unhealthy levels of fine particulate matter and nitrogen dioxide originate mainly from the burning of fossil fuels. In 2018, air pollution from fossil fuels caused $2.9 trillion in health and economic costs , about $8 billion a day.

Switching to clean sources of energy, such as wind and solar, thus helps address not only climate change but also air pollution and health.

4. Renewable energy creates jobs

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 2030, 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 2030.

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.

5. Renewable energy makes economic sense

About $7 trillion was spent on subsidizing the fossil fuel industry in 2022, including through explicit subsidies, tax breaks, and health and environmental damages that were not priced into the cost of fossil fuels.

In comparison, about $4 trillion a year needs to be invested in renewable energy until 2030 – including investments in technology and infrastructure – to allow us to reach net-zero emissions by 2050.

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. The reduction of pollution and climate impacts alone could save the world up to $4.2 trillion per year by 2030.

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.

Will developing countries benefit from the renewables boom? Learn more here .

What is renewable energy?

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.

Why invest in renewable energy?

Learn more about the differences between fossil fuels and renewables, the benefits of renewable energy, and how we can act now.

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.

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.

• What is climate change?

Our climate 101 offers a quick take on the how and why of climate change. Read more.

How will the world foot the bill? We explain the issues and the value of financing climate action.

Climate issues

Learn more about how climate change impacts are felt across different sectors and ecosystems.

It’s time to stop burning our planet, and start investing in the abundant renewable energy all around us." ANTÓNIO GUTERRES , United Nations Secretary-General

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Aerial view of a wind farm at Pen y Cymoedd in south Wales, UK. Wind-generated power in the UK increased by 83% between 2015 and 2020 to provide nearly a quarter of our electricity . It's also one of the fastest-growing renewable energy technologies globally. © Richard Whitcombe/ Shutterstock

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Renewable energy and its importance for tackling climate change

Replacing fossil fuel-reliant power stations with renewable energy sources, such as wind and solar, is a vital part of stabilising climate change and achieving net zero carbon emissions.

Professor Magda Titirici , Chair in Sustainable Energy Materials at Imperial College London, offers an introduction to renewable energy and the future of clean, green power in the UK.

What is renewable energy?

Renewable energy comes from sources that replenish naturally and continually within a human lifetime. Renewable energy is often called sustainable energy.

Major sources of renewable energy include solar, wind, hydroelectric, tidal, geothermal and biomass energy, which is derived from burning plant or animal matter and waste.

Switching our reliance on fossil fuels to renewable energy sources that produce lower or no greenhouse gas emissions is critically important in tackling the climate crisis .

Clean, green or renewable - what's the difference?

Clean energy doesn't produce any pollution once installed. Nor does green energy, which comes from natural sources such as the Sun and is produced without any major negative impacts on the environment. Renewable energy refers to sources that are constantly replenished.

While there is often overlap between these definitions and most renewable energy sources can also be considered clean and green, it's not always the case.

Nuclear energy doesn't release greenhouse gases into the atmosphere, so some people consider it to be clean - providing the radioactive waste is stored safely and doesn't escape into the environment. But the uranium energy source used in nuclear power plants isn't renewable.

A coal power plant emitting smoke, steam and carbon dioxide. Fossil fuels such as coal are non-renewable resources. Burning fossil fuels contributes to climate change by releasing greenhouse gases into the atmosphere. © Peter Gudella/ Shutterstock

What's the difference between renewable and non-renewable energy?

Non-renewable energy comes from natural resources such as coal, oil and natural gas that take billions of years to form, which is why we call them fossil fuels. They are present in finite amounts and will run out, as we are using them far more quickly than they form.

When will fossil fuels run out?

Research based on 2015 data predicts that coal stocks will last well into the next century, but oil and natural gas reserves (stocks that we know we can extract from) will run out in the late 2060s . However, scientific models suggest that if we are to limit global warming to 2°C - the target agreed at COP26 is 1.5°C - over 80% of coal, 50% of gas and 30% of oil reserves will need to be left untouched anyway.

When we extract fossil fuels from deep within the planet and burn them, we can generate electricity quite efficiently. But the process releases a lot of carbon dioxide (CO 2 ) into the atmosphere, which contributes to the greenhouse effect, global warming and biodiversity loss .

Magda explains, 'Fossil fuels brought with them immense technological progress but using them releases CO 2 into the atmosphere, which acts like a blanket, trapping heat that would otherwise escape into space and causing global warming.'

Did you know?

The energy sector is responsible for almost three-quarters of the emissions that have caused global temperatures to warm by 1.1°C since pre-industrial times. 

If we continue to use fossil fuels, the effect will only worsen.

Magda adds, 'If we want to live on this planet much longer than 2050 and keep temperature levels below the 1.5°C of warming agreed to by governments around the world, we need to make some radical changes right now. We need to move to technologies that will give us the same level and comfort of living but drastically cut our emissions and carbon footprint .'

Examples of renewable energy sources

The main types of renewable energy are wind, solar, hydroelectric, tidal, geothermal and biomass. Read on to discover the pros and cons of each of these renewable energy sources.

One of the main benefits of most renewable energy sources is that they don't release carbon dioxide or pollute the air when they are used to produce electricity or heat. Greenhouse gases are emitted during the lifetime of some of the technologies - for example, during their manufacture or construction - but overall emissions are significantly lower than for fossil fuels.

Whereas some countries lack direct access to fossil fuels and must rely on international sources, renewable energy often allows countries to supply their own energy needs, a big economic and political advantage.

Wind energy

An offshore wind farm in the North Sea off the UK coast. Wind energy is an important renewable resource for the UK. According to analysis by Imperial College London's Energy Institute , offshore wind turbines offer the best-value option for meeting the UK's target of delivering carbon neutral electricity by 2035. But the UK's current target for offshore wind electricity production - up to 50 gigawatts by 2030 - will need to be significantly increased to do so. © Riekelt Hakvoort/ Shutterstock

Wind power converts wind - the movement of air - into stored power by turning turbines and converting mechanical energy into electricity. Wind farms can be built both on land and offshore. They work well wherever wind is strong and reliable.

Advantages: Wind energy is a clean, green and renewable resource and turbines can be placed on farmland with minimal disruption. It has the lowest carbon footprint of all renewable energy sources .

Disadvantages: Like any infrastructure, there is an upfront establishment cost and ongoing maintenance fees. These are even higher if wind farms are built offshore. Turbines have a reputation for being noisy and poorly sited wind farms can be dangerous to some wildlife - for instance, if they're placed in the migration paths of birds or bats.

How loud is a wind turbine?

At 300 metres from a dwelling, wind turbines have a sound pressure of 43 decibels , which is between the volume of a refrigerator and an air conditioner.

Solar energy

An array of solar panels in a field in Chippenham, UK. Solar energy is a renewable resource, and the Sun provides more energy than we'll ever use. If we could capture it all, an hour of sunlight would meet the world's energy needs for a year. © Alexey Fedorenko/ Shutterstock

Solar power captures energy (radiation) from the Sun and converts it into electricity, which is then fed into a power grid or stored for later use. Although places near the equator receive the most solar energy, solar panels can generate electricity anywhere that gets sunlight.

Advantages:  Solar energy is renewable, clean, increasingly efficient and has low maintenance costs. Once established, it can dramatically reduce the price of generating electricity.

Disadvantages:  Setting up a solar array is costly and there are expenses involved with energy storage. Solar panels can take up more land than some other types of renewable energy and performance depends on the availability of sunlight. The mining and processing of minerals needed to make the panels can pollute and damage the environment.

China is currently leading the world in solar energy production , with roughly 35% of the global market.

Hydroelectric energy

Although hydroelectric energy is renewable, it is not always considered green, as building large-scale dams can negatively impact the environment. Nepean Dam in Australia, shown here, was included in a study that showed dams are causing problems for platypuses by creating a barrier between populations. © Greg Brave/ Shutterstock

Hydroelectric power uses the flow of water, often from rivers and lakes controlled by a dam, to turn turbines and power generators, creating electricity. Hydropower works best for regions with reliable rainfall and large, natural water reservoirs.

Hydropower currently produces more electricity than  all other renewable energy sources combined and provides around 17% of the world's energy.

Advantages: Hydroelectricity is dependable and renewable for as long as there is rainfall or flowing water. Reservoirs can offer additional benefits, such as providing drinking water, irrigation and recreational opportunities, including swimming or boating.

Disadvantages: Hydropower plants take up a lot of room and aren't suited to all climates. They are susceptible to drought. Creating artificial water reservoirs can harm biodiversity in natural water systems by limiting the inflow of nutrients and blocking the journey of migratory fish populations. These reservoirs can also release methane - a type of greenhouse gas - as vegetation in the flooded area decomposes. Large amounts of cement are used to construct dams. The manufacture of this material produces large amounts of carbon dioxide.

Tidal energy

Renewable tidal energy is produced by the natural rise and fall of the sea. However, tidal power plants can change the local biodiversity. This one on the River Rance in Brittany, France, not only led to the local extinction of a fish called plaice but to an increase in the number of cuttlefish, which now thrive there. © Francois BOIZOT/ Shutterstock

Tidal energy uses the continual movement of ocean tides to generate power. Turbines in the water turn a generator, creating electricity.

Advantages: Tidal energy is renewable, generates no carbon emissions and can produce a lot of energy very reliably.

Disadvantages: Offshore infrastructure is expensive to set up and maintain and there are a limited number of appropriate sites for tidal power plants around the world. They can also damage marine environments and impact local plants and animals.

Geothermal energy

A geothermal power plant in Iceland harnesses this renewable energy source. © Peter Gudella/ Shutterstock

Geothermal power uses underground reservoirs of hot water or steam created by the heat of Earth's core to generate electricity. It works best in regions near tectonic plate boundaries .

Advantages: Geothermal energy is highly reliable and has a consistent power output. It also has a relatively small footprint on the land.

Disadvantages: Drilling geothermal wells is expensive and can affect the stability of surrounding land. It must be monitored carefully to minimise environmental impact. There is also a risk of releasing greenhouse gases trapped under Earth's surface.  

Biomass energy

A biogas plant producing renewable energy from biomass in the Czech Republic. © Kletr/ Shutterstock

Biomass energy comes from burning plants, plant by-products or waste. Examples include ethanol (from corn or sugarcane), biodiesel (made from vegetable oils, used cooking oils and animal fats), green diesel (derived from algae, sustainable wood crops or sawdust) and biogas (derived from animal manure and other waste).

Advantages: Abundant and cheaply produced, biomass energy is a novel use of waste product and leftover crops. It creates less emissions than burning fossil fuels and having carbon capture in place can stop carbon dioxide entering the atmosphere. Biofuels are also considered relatively easy and inexpensive to implement, as they are compatible with existing agriculture and waste processing and used in existing petrol and diesel vehicles.

Disadvantages: Generating biofuels requires land and water so growing demand for them could lead to deforestation and biodiversity loss. Burning biomass emits carbon dioxide unless carbon capture is implemented.

Ethanol-powered vehicles create up to 86% less greenhouse gas emissions than petrol vehicles, and crops that are grown to produce biomass absorb carbon dioxide.

Can renewable energy replace fossil fuels in the UK?

In 2020, 42% of the UK's electricity came from renewable energy. A quarter of the UK's electricity was produced by wind power, which is the highest proportion of any G20 country and more than four times the global average. Statistics on UK energy trends reveal that from April to June 2022, nearly 39% of the UK's electricity came from renewable energy, slightly more than during the same period in 2021, but down from 45.5% between January and March 2022 when it was unusually sunny and wind speeds were high.

'There has been good news in recent years in terms of progress on renewables,' says Magda, 'but in my opinion, the UK is still lagging behind. It is not so strong yet for truly sustainable technologies. It needs storage and conversion.'

Magda believes that wind (particularly offshore), solar, green hydrogen and rapid innovation in battery storage will be key to the UK reaching net zero by 2050.

She explains, 'The UK is a really windy place, so wind is the perfect renewable energy technology. By 2035 wind and solar should provide 75-90% of total UK electricity to bring emissions down significantly.'

'It has already been shown that it's feasible to produce 90% of the UK's electricity from wind and solar combined. The tech is there and it's becoming more efficient and affordable each year.'

'Offshore wind capacity will also help produce green hydrogen, another crucial part of the UK decarbonisation path.'

What is green hydrogen?

Green hydrogen is a fuel created using renewable energy in a process known as electrolysis. When green hydrogen is burned to produce energy, it releases water.

It's predicted that the UK will need 100 terawatt-hours of green hydrogen by 2035.

What is a terawatt-hour?

A terawatt-hour is a unit of measurement that's large enough to describe the annual electricity needs of entire countries. For scale, one terawatt-hour is equivalent to burning 588,441 barrels of oil.

The future of renewable energy in the UK

Magda believes the UK is at a very critical point in its sustainable technologies journey.

'Everything will depend on what happens this year and next. We need to see radical changes, investment, subsidies and support to reach our target of net zero by 2050.'

'It would cost less than 1% of GDP to get to net zero by 2050 but the advantages would be immense: new jobs, a sustainable economy and a healthy and resilient society.'

An empty electric vehicle charging point © Tony Skerl/ Shutterstock

Challenges and opportunities for renewable energy in the UK

One of the biggest challenges the UK is facing right now is battery storage and access to materials like cobalt and lithium , which are needed to produce lithium-ion batteries at scale.

Why are batteries important for renewable energy?

Batteries help make renewable energy supply reliable and portable - such as in the case of electric vehicles.

Batteries are an important part of our transition to renewable technologies, as they allow energy to be stored and released as needed. For example, solar panels generate energy during the day, and batteries make it possible to store and use that electricity at night.

Currently, just a few countries are responsible for most of the world's production of lithium.

According to Magda, the UK lacks access to the supply chain needed for Li-ion batteries. 'As a result, she adds, 'Johnson Matthey, which is a major company driving battery innovations in the UK, announced they would stop lithium battery research because they are unable to secure a path to raw materials and be competitive on the international market.'

Museum researchers are investigating whether it would be possible to develop a  more sustainable, domestic supply chain by extracting lithium from UK rocks. They made a key breakthrough in 2021 when they produced battery-grade lithium chemicals from UK rocks for the first time.

According to Professor Richard Herrington, Head of Earth Sciences at the Museum, 'An increased, reliable supply of lithium is critical if we are to meet the rising demand for electric cars and provide a dependable supply of energy from renewable sources. The next generation of batteries that don't require lithium may still be three to five years away from being ready for public use.'

However, Magda is optimistic that the UK could lead in emerging battery technologies. 'I think the UK has an amazing opportunity to pioneer the next generation of batteries,' she says.

Innovative models already under development at The Faraday Institution include:

• Sodium-ion batteries, which are based on waste-derived anodes and critical metal -free cathodes, provide almost the same performance as lithium-ion batteries at half the cost.
• Lithium-sulphur batteries with 10 times the energy density of lithium-ion batteries make more efficient use of limited materials and eliminate metals from the cathode by using sulphur instead.

Magda adds, 'We need to focus on the areas where the UK has the potential to lead. The UK has such a big tradition in new materials and discoveries, we could move to completely new technologies both for batteries and hydrogen production.'

'There are a lot of challenges, but if we're investing in it, we could be future leaders and even solve one of the most difficult challenges in decarbonisation: flight.'

• Sustainability
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Lithium carbonate has been produced from UK rocks for the first time

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• Renewable Energy

What is Renewable Energy?

Renewable energy, as the name suggests is an energy that can be renewed or replenished. It is often referred to as 'clean energy' because it is less harmful to the environment as compared to non-renewable energy. Renewable energy is obtained from natural resources and processes that are constantly replenished.

Whenever a question arises about what is renewable energy, we can simply say that it is the energy obtained from the resources which constantly renew themselves, hence it is available in sufficient amounts for our use such that it would not finish no matter how much we use it. Sunlight and wind energy can be taken as an example. These resources keep flourishing even if their availability is dependent on time and weather respectively.

Renewable Energy Definition

It is the type of energy obtained from the resources which do not deplete or replenish themselves within a human's lifetime. It is opposite to the energy obtained from depleting fossil fuels.

Renewable Energy Resources

These are those resources that produce renewable energy. They are mostly present in nature. To the question 'what are renewable energy sources’, we can say that a renewable source is a natural resource that either through natural reproduction or other recurring processes replenishes the depleted or consumed amount of resource within a finite time interval on the human time scale. Solar, wind, biomass, geothermal, and water (hydro) are major renewable resources.

Types of Renewable Energy

Here are some major renewable energy examples.

Solar Energy

Solar energy is the energy obtained from the sun. The radiant light and heat energy are harnessed by solar collectors. The sun's energy can be captured to generate electricity or heat through a system of panels or mirrors.

Solar or photovoltaic cells convert sunlight directly into electricity while solar thermal collectors use heat-absorbing panels and a series of attached circulation tubes to heat water or buildings.

Wind Energy

Wind power or wind energy makes the use of wind to provide mechanical power to electric generators through wind turbines so that they can do operations like milling or pumping. The wind hits two or more propeller-like blades around a rotor. This rotor is connected to the main shaft connected to the generator so that when the rotor moves it moves the shaft in turn, hence electricity is produced as the generator operates. These turbines are installed mostly in high-altitude areas.

Geothermal Energy

Earth has its thermal energy stored in it. The energy that is generated from the thermal energy stored in the earth is called geothermal energy. Hot springs and volcanoes are used to capture the heat energy and this heat is directly used by industries for heating the water and other purposes.

Hydropower or hydroelectricity is the energy generated by the use of water. Dams and reservoirs are constructed on flowing water which uses the kinetic energy of the water to run turbines and in turn, generate electricity. Hydropower is also generated by making use of tides known as tidal energy. Also, energy from the surface of ocean waves is used to produce electricity known as wave energy.

Bioenergy is derived from biomass which is the organic waste of animals and plants. Biomass contains stored chemical energy. It is burnt to produce bioenergy. It may be converted to biofuel and then used or it can directly be used to produce heat through combustion. The heat generated from combustion is used to run generators to produce electricity.

Importance of Renewable Energy

The importance of renewable energy lies in the need for renewable energy over the conventional form of energy. Some important points are given below.

Renewable energy is a source of clean, inexhaustible energy.

It is pollution-free as it does not produce any greenhouse gas and polluting emissions which are otherwise produced in the case of non-renewable sources.

The costs for renewable energy are also falling at a sustainable rate opposite to the rate trend of fossil fuels.

It reduces energy dependence on fossil fuels.

It can be easily generated because renewable sources are mostly present all around, there is no non-availability issue.

Both economically and environmentally, renewable technologies are becoming competitive to conventional sources of energy.

Uses of Renewable Energy

The major use of all renewable energies is to generate electricity. In 2018, 26.2 percent of global electricity requirements were fulfilled by renewable energy which is expected to rise to 45 percent by 2040.

Solar energy can be directly used for heating and lighting homes, for hot water heating, solar cooling, etc.

Biomass is also used to heat buildings and provide heat in industries. It is also used as a fuel when converted to liquid biofuel.

FAQs on Renewable Energy

1. What are the benefits of using renewable energy for small businesses?

Making our business go green can help us avoid big electricity bills. Using renewable energies, we can do a handsome amount of production at a lower cost.

As a reward for the green initiative. The company can get tax incentives from the local government. About 30% of renewable energy system installation costs can be funded with the help of these incentives.

This will make the organisation a healthier place to work for employees. Reducing carbon footprint will have a positive impact on both the environment and the workplace.

2. What are the disadvantages of renewable energy?

The higher upfront cost is the biggest disadvantage renewable energy holds. It includes capital cost, upfront building or land cost, installation cost, etc.

Intermittency is another factor. Renewable resources are not present 24×7 and whole year round which is not the case in fossil fuels.

Because they are not always available they need to be stored which again is a bit difficult and expensive as well.

Renewable energy also has geographical limitations. You need to have a large farmhouse or open land to install a wind turbine or solar energy system for their significant use. All geographies are not suitable for renewable technologies.

This Is the Future: Essay on Renewable Energy

Today the world population depends on nonrenewable energy resources. With the constantly growing demand for energy, natural gas, coal, and oil get used up and cannot replenish themselves. 

Aside from limited supply, heavy reliance on fossil fuels causes planetary-scale damage. Sea levels are rising. Heat-trapping carbon dioxide increased the warming effect by 45% from 1990 to 2019. The only way to tackle the crisis is to start the transition to renewable energy now. 

What is renewable energy? It is energy that comes from replenishable natural resources like sunlight, wind, thermal energy, moving water, and organic materials. Renewable resources do not run out. They are cost-efficient and renew faster than they are consumed. How does renewable energy save money? It creates new jobs, supports economic growth, and decreases inequitable fossil fuel subsidies. 

At the current rates of production, some fossil fuels will not even last another century. This is why the future depends on reliable and eco-friendly resources. This renewable energy essay examines the types and benefits of renewable energy and its role in creating a sustainable future.

Top 5 Types of Renewable Energy: The Apollo Alliance Rankings

There are many natural resources that can provide people with clean energy. To make a list of the five most booming types of renewable energy on the market today, this energy essay uses data gathered by the Apollo Alliance. It is a project that aims to revolutionize the energy sector of the US with a focus on clean energy. 

The Apollo Alliance unites businesses, community leaders, and environmental experts to support the transition to more sustainable and efficient living. Their expert opinion helped to compile information about the most common and cost-competitive sources of renewable energy. However, if you want to get some more in-depth research, you can entrust it to an essay writer . Here’s a quick overview of renewable energy resources that have a huge potential to substitute fossil fuels. 

Solar Renewable Energy

The most abundant and practically endless resource is solar energy. It can be turned into electricity by photovoltaic systems that convert radiant energy captured from sunlight. Solar farms could generate enough energy for thousands of homes.

An endless supply is the main benefit of solar energy. The rate at which the Earth receives it is 10,000 times greater than people can consume it, as a paper writer points out based on their analysis of research findings. It can substitute fossil fuels and deliver people electricity, hot water, cooling, heat, etc. 

The upfront investment in solar systems is rather expensive. This is one of the primary limitations that prevent businesses and households from switching to this energy source at once. However, the conclusion of solar energy is still favorable. In the long run, it can significantly decrease energy costs. Besides, solar panels are gradually becoming more affordable to manufacture and adopt, even at an individual level. 

Wind Renewable Energy

Another clean energy source is wind. Wind farms use the kinetic energy of wind flow to convert it into electricity. The Appolo Alliance notes that, unlike solar farms, they can’t be placed in any location. To stay cost-competitive, wind farms should operate in windy areas. Although not all countries have the right conditions to use them on a large scale, wind farms might be introduced for some energy diversity. The technical potential for it is still tremendous. 

Wind energy is clean and safe for the environment. It does not pollute the atmosphere with any harmful products compared to nonrenewable energy resources. 

The investment in wind energy is also economically wise. If you examine the cost of this energy resource in an essay on renewable resources, you’ll see that wind farms can deliver electricity at a price lower than nonrenewable resources. Besides, since wind isn’t limited, its cost won’t be influenced by the imbalance of supply and demand.

Geothermal Renewable Energy

Natural renewable resources are all around us, even beneath the ground. Geothermal energy can be produced from the thermal energy from the Earth’s interior. Sometimes heat reaches the surface naturally, for example, in the form of geysers. But it can also be used by geothermal power plants. The Earth’s heat gets captured and converted to steam that turns a turbine. As a result, we get geothermal energy.

This source provides a significant energy supply while having low emissions and no significant footprint on land. A factsheet and essay on renewable resources state that geothermal plants will increase electricity production from 17 billion kWh in 2020 to 49.8 billion kWh in 2050.

However, this method is not without limitations. While writing a renewable resources essay, consider that geothermal energy can be accessed only in certain regions. Geological hotspots are off-limits as they are vulnerable to earthquakes. Yet, the quantity of geothermal resources is likely to grow as technology advances. 

Ocean Renewable Energy

The kinetic and thermal energy of the ocean is a robust resource. Ocean power systems rely on:

• Changes in sea level;
• Wave energy;
• Water surface temperatures;
• The energy released from seawater and freshwater mixing.

Ocean energy is more predictable compared to other resources. As estimated by EPRI, it has the potential to produce 2640 TWh/yr. However, an important point to consider in a renewable energy essay is that the kinetic energy of the ocean varies. Yet, since it is ruled by the moon’s gravity, the resource is plentiful and continues to be attractive for the energy industry. 

Wave energy systems are still developing. The Apollo energy corporation explores many prototypes. It is looking for the most reliable and robust solution that can function in the harsh ocean environment. 

Another limitation of ocean renewable energy is that it may cause disruptions to marine life. Although its emissions are minimal, the system requires large equipment to be installed in the ocean. 

Biomass Renewable Energy

Organic materials like wood and charcoal have been used for heating and lighting for centuries. There are a lot more types of biomass: from trees, cereal straws, and grass to processed waste. All of them can produce bioenergy. 

Biomass can be converted into energy through burning or using methane produced during the natural process of decomposition. In an essay on renewable sources of energy, the opponents of the method point out that biomass energy is associated with carbon dioxide emissions. Yet, the amount of released greenhouse gases is much lower compared to nonrenewable energy use. 

While biomass is a reliable source of energy, it is only suitable for limited applications. If used too extensively, it might lead to disruptions in biodiversity, a negative impact on land use, and deforestation. Still, Apollo energy includes biomass resources that become waste and decompose quickly anyway. These are organic materials like sawdust, chips from sawmills, stems, nut shells, etc. 

What Is the Apollo Alliance?

The Apollo Alliance is a coalition of business leaders, environmental organizations, labor unions, and foundations. They all unite their efforts in a single project to harness clean energy in new, innovative ways. 

Why Apollo? Similarly to President John F. Kennedy’s Apollo Project, Apollo energy is a strong visionary initiative. It is a dare, a challenge. The alliance calls for the integrity of science, research, technology, and the public to revolutionize the energy industry.

The project has a profound message. Apollo energy solutions are not only about the environment or energy. They are about building a new economy. The alliance gives hope to building a secure future for Americans. 

What is the mission of the Apollo Alliance? 

• Achieve energy independence with efficient and limitless resources of renewable energy.
• Pioneer innovation in the energy sector.
• Build education campaigns and communication to inspire new perceptions of energy. 
• Create new jobs.
• Reduce dependence on imported fossil fuels. 
• Build healthier and happier communities. 

The transformation of the industry will lead to planet-scale changes. The Apollo energy corporation can respond to the global environmental crisis and prevent climate change. 

Apollo renewable energy also has the potential to become a catalyst for social change. With more affordable energy and new jobs in the industry, people can bridge the inequality divide and build stronger communities. 

Why Renewable Energy Is Important for the Future

Renewable energy resources have an enormous potential to cover people’s energy needs on a global scale. Unlike fossil fuels, they are available in abundance and generate minimal to no emissions. 

The burning of fossil fuels caused a lot of environmental problems—from carbon dioxide emissions to ocean acidification. Research this issue in more detail with academic assistance from essay writer online . You can use it to write an essay on renewable sources of energy to explain the importance of change and its global impact. 

Despite all the damage people caused to the planet, there’s still hope to mitigate further repercussions. Every renewable energy essay adds to the existing body of knowledge we have today and advances research in the field. Here are the key advantages and disadvantages of alternative energy resources people should keep in mind. 

Advantage of Green Energy

The use of renewable energy resources has a number of benefits for the climate, human well-being, and economy:

• Renewable energy resources have little to no greenhouse gas emissions. Even if we take into account the manufacturing and recycling of the technologies involved, their impact on the environment is significantly lower compared to fossil fuels. 
• Renewable energy promotes self-sufficiency and reduces a country’s dependence on foreign fuel. According to a study, a 1% increase in the use of renewable energy increases economic growth by 0.21%. This gives socio-economic stability.
• Due to a lack of supply of fossil fuels and quick depletion of natural resources, prices for nonrenewable energy keep increasing. In contrast, green energy is limitless and can be produced locally. In the long run, this allows decreasing the cost of energy. 
• Unlike fossil fuels, renewable energy doesn’t emit air pollutants. This positively influences health and quality of life. 
• The emergence of green energy plants creates new jobs. Thus, Apollo energy solutions support the growth of local communities. By 2030, the transition to renewable energy is expected to generate 10.3 million new jobs. 
• Renewable energy allows decentralization of the industry. Communities get their independent sources of energy that are more flexible in terms of distribution. 
• Renewable energy supports equality. It has the potential to make energy more affordable to low-income countries and expand access to energy even in remote and less fortunate neighborhoods. 

Disadvantages of Non-Conventional Energy Sources

No technology is perfect. Renewable energy resources have certain drawbacks too: 

• The production of renewable energy depends on weather conditions. For example, wind farms could be effective only in certain locations where the weather conditions allow it. The weather also makes it so that renewable energy cannot be generated around the clock. 
• The initial cost of renewable energy technology is expensive. Both manufacturing and installation require significant investment. This is another disadvantage of renewable resources. It makes them unaffordable to a lot of businesses and unavailable for widespread individual use. In addition, the return on investment might not be immediate.
• Renewable energy technology takes up a lot of space. It may affect life in the communities where these clean energy farms are installed. They may also cause disruptions to wildlife in the areas. 
• One more limitation a renewable resources essay should consider is the current state of technology. While the potential of renewable energy resources is tremendous, the technology is still in its development phase. Therefore, renewable energy might not substitute fossil fuels overnight. There’s a need for more research, investment, and time to transition to renewable energy completely. Yet, some diversity of energy resources should be introduced as soon as possible. 
• Renewable energy resources have limited emissions, but they are not entirely pollution-free. The manufacturing process of equipment is associated with greenhouse gas emissions while, for example, the lifespan of a wind turbine is only 20 years. 

For high school seniors eyeing a future rich with innovative endeavors in renewable energy or other fields, it's crucial to seek financial support early on. Explore the top 10 scholarships for high school seniors to find the right fit that can propel you into a future where you can contribute to the renewable energy movement and beyond. Through such financial support, the road to making meaningful contributions to a sustainable future becomes a tangible reality.

Renewable energy unlocks the potential for humanity to have clean energy that is available in abundance. It leads us to economic growth, independence, and stability. With green energy, we can also reduce the impact of human activity on the environment and stop climate change before it’s too late. 

So what’s the conclusion of renewable energy? Transitioning to renewable energy resources might be challenging and expensive. However, most experts agree that the advantages of green energy outweigh any drawbacks. Besides, since technology is continuously evolving, we’ll be able to overcome most limitations in no time.

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A look at California's major advancements in renewable energy usage

S ACRAMENTO — California has quietly passed a major energy milestone this week signaling advancements in renewable energy usage across the state.

Stanford Professor Mark Jacobson has seen a surprising trend.

For a period of time -- 15 minutes to 6 hours -- each day for the last month or so, the state's energy grid has been fueled 100% by clean renewables.

"California has exceeded 100% of its demand on the grid by just wind, water and solar," Jacobson said.

Johanna Neumann, a senior director for Environment America, calls it a sign of massive progress.

"The idea of getting all our energy from renewable energy felt like some fringe futuristic notion, and today, it is our lived experience," she said.

That only scratches the surface of what the state is capable of.

"California has the technical potential to meet all of its electricity needs 38 times over from solar alone," Neumann said.

So what does that mean for future energy bills? Neumann said it can actually be cheaper.

"Utility-scale solar is actually the cheapest out there," she said.

Jacobson added that the state's taxes on natural gas have made equipment like solar energy more economically attractive.

"These renewables are helping to keep these prices lower than they need to be," Jacobson said.

While climate change is at the forefront of the discussion, Jacobson said this push can have bipartisan support.

"We want to engage everybody in a transition, and it's important for everybody to feel like they're benefiting from this transition," he said.

It's something that Neumann agrees with and believes can lead the way toward a national push for clean renewables.

"Any investor looking to get a return on their investment is going to be putting their money towards wind and solar over fossil fuels," she said.

The California Legislature has signaled that they hope 90% of the state's energy consumption will come from renewable energy by 2035.

Nonrenewable Energy

Nonrenewable energy comes from sources that will eventually run out, such as oil and coal.

Biology, Ecology, Earth Science, Geography, Social Studies, Economics

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Nonrenewable energy comes from sources that will run out or will not be replenished in our lifetimes—or even in many, many lifetimes.

Most nonrenewable energy sources are fossil fuels : coal , petroleum , and natural gas . Carbon is the main element in fossil fuels. For this reason, the time period that fossil fuels formed (about 360-300 million years ago) is called the Carboniferous Period.

All fossil fuels formed in a similar way. Hundreds of millions of years ago, even before the dinosaurs, Earth had a different landscape. It was covered with wide, shallow seas and swampy forests. 

Plants, algae , and plankton grew in these ancient wetlands . They absorbed sunlight and created energy through photosynthesis . When they died, the organisms drifted to the bottom of the sea or lake. There was energy stored in the plants and animals when they died.

Over time, the dead plants were crushed under the seabed. Rocks and other sediment piled on top of them, creating high heat and pressure underground. In this environment , the plant and animal remains eventually turned into fossil fuels (coal, natural gas, and petroleum). Today, there are huge underground pockets (called reservoirs ) of these nonrenewable sources of energy all over the world.

Advantages and Disadvantages

Fossil fuels are a valuable source of energy. They are relatively inexpensive to extract . They can also be stored, piped, or shipped anywhere in the world.

However, burning fossil fuels is harmful to the environment. When coal and oil are burned, they release particles that can pollute the air, water, and land. Some of these particles are caught and set aside, but many of them are released into the air.

Burning fossil fuels also upsets Earth’s “ carbon budget ,” which balances the carbon in the ocean, earth, and air. When fossil fuels are combusted (heated), they release carbon dioxide into the atmosphere . Carbon dioxide is a gas that keeps heat in Earth’s atmosphere, a process called the “ greenhouse effect .” The greenhouse effect is necessary to life on Earth, but relies on a balanced carbon budget.

The carbon in fossil fuels has been sequestered , or stored, underground for millions of years. By removing this sequestered carbon from the ground and releasing it into the atmosphere, Earth’s carbon budget is out of balance. This contributes to temperatures rising faster than organisms can adapt.

Coal is a black or brownish rock. We burn coal to create energy. Coal is ranked depending on how much “ carbonization ” it has gone through. Carbonization is the process that ancient organisms undergo to become coal. About three meters (10 feet) of solid vegetation crushed together form 0.3 meter (one foot) of coal!

Peat is the lowest rank of coal. It has gone through the least amount of carbonization. It is an important fuel in areas of the world including Scotland, Ireland, and Finland.

Anthracite is the highest rank of coal. Anthracite forms in regions of the world where there have been giant movements of the earth, such as the formation of mountain ranges. The Appalachian Mountains, in the eastern part of the United States, are rich in anthracite.

We mine coal out of the ground so we can burn it for energy. There are two ways that we can mine coal: underground mining and surface mining.

Underground mining is used when the coal is located below the surface of Earth, sometimes 300 meters (1,000 feet) deep—that’s deeper than most of the Great Lakes! Miners take an elevator down a mineshaft. They operate heavy machinery that cuts the coal out, and brings it above ground. This can be dangerous work because cutting coal can release dangerous gases. The gases can cause explosions or make it hard for miners to breathe.

Surface mining is used when the coal is located very near the surface of the planet. To get to the coal, companies must first clear the area. They take away the trees and soil. The coal can then be cut out of the ground more easily. Entire habitats are destroyed during this process.

Almost 20 percent the electricity in the United States comes from coal. It gives power to our lights, refrigerators, dishwashers, and most other things we plug in. When coal is burned, it leaves “ byproducts ” that are also valuable. We use the byproducts to make cement, plastics, roads, and many other things.

Coal is a reliable source of energy. We can rely on it day and night, summer and winter, sunshine or rain, to provide fuel and electricity.

Using coal is also harmful. Mining is one of the most dangerous jobs in the world. Coal miners are exposed to toxic dust and face the dangers of cave-ins and explosions at work.

When coal is burned, it releases many toxic gases and pollutants into the atmosphere. Mining for coal can also cause the ground to cave in and create underground fires that burn for decades at a time.

Petroleum is a liquid fossil fuel. It is also called oil or crude oil.

Petroleum is trapped by underground rock formations. In some places, oil bubbles right out of the ground. At the LaBrea Tar Pits, in Los Angeles, California, U.S., big pools of thick oil bubble up through the ground. Remains of animals that got trapped there thousands of years ago are still preserved in the tar!

Most of the world’s oil is still deep under the ground. We drill through the earth to access the oil. Some deposits are on land, and others are under the ocean floor. 

Once oil companies begin drilling with a “drill rig,” they can extract petroleum 24 hours a day, seven days a week, 365 days a year. Many successful oil sites produce oil for about 30 years. Sometimes they can produce oil for much longer.

When oil is under the ocean floor, companies drill offshore . They must build an oil platform . Oil platforms are some of the biggest artificial structures in the world!

Once the oil has been drilled, it must be refined . Oil contains many chemicals besides carbon, and refining the oil takes some of these chemicals out.

We use oil for many things. About half the world’s petroleum is converted into gasoline . The rest can be processed and used in liquid products such as nail polish and rubbing alcohol, or solid products such as water pipes, shoes, crayons, roofing, vitamin capsules, and thousands of other items.

There are advantages to drilling for oil. It is relatively inexpensive to extract. It is also a reliable and dependable source of energy and money for the local community.

Oil provides us with thousands of conveniences. In the form of gasoline, it is a portable source of energy that gives us the power to drive places. Petroleum is also an ingredient in many items that we depend on. 

However, burning gasoline is harmful to the environment. It releases hazardous gases and fumes into the air we breathe. There is also the possibility of an oil spill. If there is a problem with the drilling machinery, the oil can explode out of the well and spill into the ocean or surrounding land. Oil spills are environmental disasters, especially offshore spills. Oil floats on water, so it can look like food to fish and ruin birds’ feathers. 

Natural Gas

Natural gas is another fossil fuel that is trapped underground in reservoirs. It is mostly made up of methane . You may have smelled methane before. The decomposing material in landfills also release methane, which smells like rotten eggs.

There is so much natural gas underground that it is measured in millions, billions, or trillions of cubic meters. 

Natural gas is found in deposits a few hundred meters underground. In order to get natural gas out of the ground, companies drill straight down. However, natural gas does not form in big open pockets. Natural gas is trapped in rock formations that can stretch for kilometers. 

To reach natural gas, some companies use a process called “hydraulic fracturing,” or fracking . Hydraulic means they use water, and fracturing means to “split apart.” The process uses high-pressure water to split apart the rocks underground. This releases the natural gas that is trapped in rock formations. If the rock is too hard, they can send acid down the well to dissolve the rock. They can also use tiny grains of glass or sand to prop open the rock and let the gas escape.

We use natural gas for heating and cooking. Natural gas can also be burned to generate electricity. We rely on natural gas to give power to lights, televisions, air conditioners, and kitchen appliances in our homes.

Natural gas can also be turned into a liquid form, called liquid natural gas ( LNG ). LNG is much cleaner than any other fossil fuels.

Liquid natural gas takes up much less space than the gaseous form. The amount of natural gas that would fit into a big beach ball would fit into a ping-pong ball as a liquid! LNG can be easily stored and used for different purposes. LNG can even be a replacement for gasoline. 

Natural gas is relatively inexpensive to extract, and is a “cleaner” fossil fuel than oil or coal. When natural gas is burned, it only releases carbon dioxide and water vapor (which are the exact same gases that we breathe out when we exhale!) This is healthier than burning coal.

However, extracting natural gas can cause environmental problems. Fracturing rocks can cause mini-earthquakes. The high-pressure water and chemicals that are forced underground can also leak to other sources of water. The water sources, used for drinking or bathing, can become contaminated and unsafe.

Other Nonrenewable Energy Sources

Fossil fuels are the leading nonrenewable energy sources around the world. There are others, however.

Nuclear Energy

Nuclear energy is usually considered another nonrenewable energy source. Although nuclear energy itself is a renewable energy source, the material used in nuclear power plants is not.

Nuclear energy harvests the powerful energy in the nucleus, or core, of an atom . Nuclear energy is released through nuclear fission , the process where the nucleus of an atom splits. Nuclear power plants are complex machines that can control nuclear fission to produce electricity.

The material most often used in nuclear power plants is the element uranium . Although uranium is found in rocks all over the world, nuclear power plants usually use a very rare type of uranium, U-235. Uranium is a nonrenewable resource.

Nuclear energy is a popular way of generating electricity around the world. Nuclear power plants do not pollute the air or emit greenhouse gases . They can be built in rural or urban areas , and do not destroy the environment around them.

However, nuclear energy is difficult to harvest. Nuclear power plants are very complicated to build and run. Many communities do not have the scientists and engineers to develop a safe and reliable nuclear energy program.

Nuclear energy also produces radioactive material. Radioactive waste can be extremely toxic, causing burns and increasing the risk for cancers, blood diseases, and bone decay among people who are exposed to it.

Biomass Energy

Biomass energy, a renewable energy source, can also be a nonrenewable energy source.

Biomass energy uses the energy found in plants. Biomass energy relies on biomass feedstocks —plants that are processed and burned to create electricity. Biomass feedstocks can include crops such as corn or soy, as well as wood. If people do not replant biomass feedstocks as fast as they use them, biomass energy becomes a nonrenewable energy source.

Fossilized Energy According to the Central Intelligence Agency, the world generates more than 66 percent of its electricity from fossil fuels, and another 8 percent from nuclear energy.

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Al Gore Thinks Trump Will Lose and Climate Activists Will Triumph

Mr. Gore spoke at a climate leadership conference hosted by his nonprofit organization.

By Cara Buckley

Former Vice President Al Gore was in New York City over the weekend for a leadership training convened by the Climate Reality Project, his nonprofit organization.

On Saturday, before thousands of attendees, Mr. Gore highlighted mounting climate perils but also spoke of progress. He slammed fossil fuel companies for ramping up plastics production and promoting technology to suck carbon dioxide from the atmosphere, which he called “utterly preposterous.”

Afterward, Mr. Gore explained in an interview why he was not surprised that major oil and gas companies have walked back their pledges to decarbonize. And he said he believed that former President Donald J. Trump would lose his campaign to return to the White House. Here are excerpts from that conversation, edited and condensed for clarity.

Oil and gas companies recently gathered in Houston for the industry’s annual conference. Many of the major companies have walked back their promises to decarbonize. In Houston, the head of Saudi Aramco said the “fantasy of phasing out oil and gas” should be ditched.

I don’t think their pledges were sincere in the first place. After the Russian invasion of Ukraine, there was this pinch in Europe’s access to fossil fuels which translated into a crunch and in demand elsewhere in the world. There was a sudden surge to try to replace the Russian supplies. That had a global impact on the price of fossil fuels, and on the profits of the large companies.

When they got a taste of these higher windfall profits, they came under pressure from their investors to capitalize while the getting was good. So they just decided en masse to abandon their pledges and just go forward, without regard to what they had pretended to be doing in the past. I think it was always a fraud. It remains to be seen whether they are going to be able to walk back their pledges without incurring significant damage politically and in the business community.

What does that mean for the need to stop burning fossil fuels, which scientists say is imperative?

We have to change the laws and policies. We must stop subsidizing . We have to put a tax on carbon, as we have already put a tax on methane. So-called carbon border adjustment mechanisms rising up elsewhere in the world offer a pathway to do that.

Former President Donald J. Trump has made it clear he would dismantle President Biden’s climate policies and promote fossil fuels. If he wins in November, what would that mean for the fight against global warming?

First of all, I refuse to accept the hypothetical. Trump’s not going away. I don’t think he’s going to win.

I think that the long political tail of inflation is going to be attenuated by November. I think that the increasing economic strength and America’s job market is going to continue to give benefits to President Biden. Trump is vulnerable to making more mistakes as the pressure on him increases. You see him flailing a bit on the questions related to choice. I don’t portray myself as a skilled political analyst, that’s not my forte. But the number of months between now and the election is, to use a cliché, a lifetime in politics. I would way prefer to have Biden’s political position right now than Trump’s.

And the climate impact, if you’re wrong?

If Trump were to be elected, I think that the favorable trends in renewable energy, battery storage, electric vehicles, green hydrogen, circular manufacturing, regenerative agriculture, sustainable forestry, would all continue to move in the right direction. However, the momentum from what they’re doing now will not get us to where we need to be.

We need skilled and determined leadership from the White House in the United States in order to accelerate progress. The crisis is still getting worse faster than we’re deploying the solutions. If we gain more momentum, we’ll begin to gain on the crisis itself.

We’re here at your Climate Reality conference, which trains people around the world to push for climate solutions in their communities.

At this point, it’s 3.5 million members worldwide.

The story of David and Goliath aside, given the huge profits that the fossil fuel industry has been realizing, is there a mismatch between the companies and climate activists?

We don’t have just one David, we have 3,000 Davids here at this training. And there are millions around the world. If you look at all the groups that are doing this work, it is the largest grass roots movement in the entire history of the world, and it is continuing to build.

I draw an analogy between this movement and the abolitionists, women’s suffrage, civil rights, etc. With all of those movements, when the central issue was really crystallized as a choice between what is clearly right and just, and what is clearly unjust and wrong and deadly and dangerous, then the outcome becomes foreordained.

I bet on humanity. I believe that in spite of the well known limitations we all have, and our vulnerabilities to pettiness and greed, and all of the things that can go wrong, we also really and truly have a capacity to rise above those limitations, as we have demonstrated in times past. We are capable of this. And the ability of the special interests, in this case the fossil fuel polluters to dominate laws and policies, is going to come to an end.

Cara Buckley is a reporter on the climate team at The Times who focuses on people working toward climate solutions. More about Cara Buckley