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The advantages and disadvantages of renewable energy

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• Kerry Thoubboron

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As we move toward a zero-carbon future, wind power, geothermal energy, solar energy, hydropower, tidal energy, hydrogen, and other renewable technologies are becoming widely popular energy sources worldwide. Countries, corporations, and individuals are adopting clean energy for several great benefits, from reduced air pollution to financial savings. In this article, we’ll dive into some of the advantages and disadvantages of renewable energy .

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Here are some of the most important pros and cons of using clean, renewable energy:

Advantages of renewable energy

Renewable energy has multiple advantages over fossil fuels. Here are some of the top benefits of using an alternative energy source:

Renewable energy won’t run out.

Renewable energy has lower maintenance requirements.

Renewables save money.

Renewable energy has numerous environmental benefits.

Renewables lower reliance on foreign energy sources.

Renewable energy leads to cleaner water and air.

Renewable energy creates jobs.

Renewable energy can cut down on waste.

1. Renewable energy won’t run out

Renewable energy technologies use resources straight from the environment to generate power. These energy sources include sunshine, wind, tides, and biomass. Renewable resources won’t run out, which cannot be said for many types of fossil fuels – as we use fossil fuel resources, they will be increasingly difficult to obtain, likely driving up both the cost and environmental impact of extraction.

2. Maintenance requirements are lower for renewable energy

Renewable energy systems usually require less overall maintenance than generators that use traditional fuel sources. This is because generating technology like solar panels and wind turbines either have few or no moving parts and don’t rely on flammable, combustible fuel sources to operate. Fewer maintenance requirements translate to more time and money saved.

3. Renewables save money

Using renewable energy can help you save money long term. Not only will you save on maintenance costs but also on operating costs. You don't have to pay to refuel when you’re using a technology that generates power from the sun, wind, steam, or natural processes. The amount of money you will save using renewable energy can vary depending on several factors, including the technology itself. In most cases, transitioning to renewable energy means anywhere from hundreds to thousands of dollars in savings—find out how much you can save by switching to solar energy .

4. Renewable energy has numerous environmental benefits

Renewable energy generation sources lead to lower greenhouse gas emissions than traditional fuel sources like natural gas. This means a smaller carbon footprint and an overall positive impact on the natural environment . During the combustion process, fossil fuels emit high amounts of greenhouse gases, which have been proven to exacerbate climate change, which in turn causes rising global temperatures and higher frequencies of extreme weather events.

The use of fossil fuels emits greenhouse gases and other harmful pollutants that lead to respiratory and cardiac health issues . With renewable energy, you’re helping decrease these pollutants' prevalence and contributing to a healthier atmosphere.

5. Renewables lower reliance on foreign energy sources

With renewable energy technologies, you can produce energy locally. The higher the amount of our energy use is renewable, the less we’ll rely on imported energy, and the more we’ll contribute to U.S. energy independence. Renewable energy sources can help us minimize the geo-political risks associated with fossil fuels, from trade disputes to political instability to pricing wars, which are often rooted in access to oil.

6. Renewable energy leads to cleaner water and air

When you burn fossil fuels to generate electricity, it contaminates the air and water we use. For example, coal power stations release high volumes of carbon dioxide, nitrous oxide, and harmful toxins like mercury, lead, and sulfur dioxide. Health problems from ingesting these elements can be dangerous and even fatal. Investing in renewable energy is a great way to work against these risks, as renewables have a far lower negative impact on our air and water. 

The use of fossil fuels emits greenhouse gases and other harmful pollutants that lead to respiratory and cardiac health issues . With renewable energy, you’re helping decrease these pollutants' prevalence and contributing to a healthier environment.

7. Renewable energy creates new jobs 

While the U.S. shifts its focus to combat global warming, we’re setting ambitious carbon-reduction goals that require labor to get the job done. Today, the renewable energy sector employs three times as many people as fossil fuels in the U.S. That number is expected to rise over the next few years—and as a plus, these jobs tend to pay above average wages, making it a desirable career option and an overall economic boom. 

8. Renewable energy can help solve our waste problem

Specifically, biomass energy can offer a significant benefit in this way. Biomass generators consume used organic products like vegetable oil, corn and soybean byproducts, and even algae to generate energy. Because of this, using biomass as an energy source can reduce the amount of waste that goes into landfills, which helps cut down on carbon emissions and environmental contamination.

Disadvantages of renewable energy

Renewable energy has many benefits, but it’s not always sunny when it comes to renewable energy. Here are some cons of renewable energy when compared to traditional fuel sources:

Renewable energy has high upfront costs.

Renewable energy is intermittent.

Renewables have storage capabilities.

Renewable energy sources have geographic limitations.

Renewables aren’t always 100% carbon-free.

1. Higher upfront cost

While you can save money using renewable energy, the technologies are typically more expensive upfront than traditional energy generators. To combat this, financial incentives such as tax credits and rebates are available to help alleviate your initial costs of renewable technology.

2. Intermittency

Though renewable energy resources are available around the world, many of these resources aren’t available 24/7, year-round. Some days may be windier than others, the sun doesn’t shine at night, and droughts may occur for periods. Unpredictable weather events can disrupt these technologies, and the amount of energy we can get from renewable power sources can be inconsistent. Fossil fuels are not intermittent, and power plants can be turned on or off at any time to provide an energy supply. Wondering if you should make the switch to renewables? Find out if an energy source like solar power is a good fit for you . 

3. Storage capabilities

Because of the intermittency of some renewable energy sources, there’s a high need for energy storage. Storage technologies are available but can be expensive, especially for large-scale renewable energy plants. It’s worth noting that energy storage capacity is growing as the technology progresses, and batteries are becoming more affordable as time passes.

4. Geographic limitations

The United States has a diverse geography with varying climates, topographies, vegetation, etc. This creates a beautiful melting pot of landscapes but also means that some geographies are more suitable for renewable technologies than others. For example, a large property in a rural area with open space may be an excellent place for a residential wind farm or a large-scale solar farm. At the same time, a townhome in a city covered in shade from taller buildings wouldn’t be able to reap the benefits of either technology. There are other options if your property isn’t suitable for a personal renewable energy technology. If you’re interested in solar but don’t have a sunny property, you can often still benefit from renewable energy by purchasing green power or enrolling in a community solar option .

5. Not 100% carbon-free

Although solar panels and other forms of renewable energy drastically reduce carbon emissions, these resources aren’t always completely clean. The manufacturing, transportation, and installation of renewable energy, like wind turbines, can create a carbon footprint since they’re usually produced in factories powered by fossil fuels —not to mention the diesel and gasoline needed to fuel the transport trucks. As the U.S. becomes more and more electrified – from solar panels on factories to electric transport trucks – carbon emissions associated with solar will continue to decrease.

6. Supply chain constraints

Renewables must have an effective distribution network created to transfer the energy where it’s needed on a large scale. These networks need non-renewable fuels to be generated, which offsets the benefits of renewable energy for a bit until it’s paid back. Additionally, politics can play a factor in installing renewable energy if it’s not a priority among local governments.

Types of renewable energy sources

There are a few types of renewable sources we can use for energy production: 

Wind energy leverages the power of wind motion to generate electricity created by the uneven heating of the Earth’s surface. 

Solar power uses energy from the sun to generate electricity and heat.

Hydropower utilizes fast-moving water to spin turbines and generate electricity. This is also known as hydroelectric power or hydroelectricity.

Biomass generates electricity from organic plant matter.

Geothermal energy leverages heat from inside the earth to generate electricity.

Tidal produces electricity with special generators that leverage the surges of the ocean created during rising and falling tides. Hydrogen: utilized as fuel and electricity when separated from other elements like oxygen.

Nuclear energy , while not technically renewable, is often lumped in with the abovementioned sources. Nuclear power has the potential to provide electricity generation on a massive scale with zero emissions, making it an intriguing part of our energy future.

Renewable energy has more benefits than drawbacks

When it comes to renewable energy, the positives outweigh the negatives. Transitioning to renewables on a personal, corporate, or governmental level will help you save money and promote a cleaner, healthier environment for the future.

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New developments in renewable energy are making headlines and inspiring hope in communities worldwide, from a remote Arctic village working to harness solar and wind power under challenging conditions to a U.S. Air Force base planning an advanced, utility-scale geothermal power system.

As much of the world grapples with mitigating the effects of climate change and global warming, innovation and advancements in renewable energy have emerged as a bright spot. Solar energy, wind energy, hydropower, geothermal energy and biomass energy generation is better for the planet than the burning of fossil fuels including oil, natural gas and coal.

But for all of the advantages of renewable energy, its development and use has disadvantages, too. Let’s take a look at both.

The multiple (and sometimes surprising) advantages of renewable energy

The advantages of renewable energy power sources are wide-ranging, and some are more obvious than others.

Inexhaustible supply

One of the main benefits of renewable energy sources like the sun, wind and water is that they will never run out. In contrast, non-renewable resources are not only finite, but cost more as their availability declines and require more extreme extraction methods with greater environmental impacts.

Carbon-free energy generation

The goal of the clean energy transition is decarbonization . Carbon dioxide emissions reached 11.2 gigatonnes (Gt) in 2022 from oil alone, whereas renewable energy generation emits little to no carbon emissions to power homes, cars and businesses.

A cleaner, healthier environment

The burning of fossil fuels, like coal, releases airborne pollutants such as nitrogen oxide and sulfur dioxide, while the mining of these resources can result in water pollution and damage animal habitats. Using renewable energy in place of fossil fuels can reduce these pollutants and help mitigate risks to human health and natural environments.

Energy independence

Renewable energy provides for stronger energy security by opening up new opportunities for domestic energy production, thereby reducing reliance on foreign-sourced energy supply. For example, since Russia’s invasion of Ukraine, European countries have sought to reduce their imports of Russian oil and gas. In 2023, domestic renewable energy production in Europe rose to account for a record 44% of the EU’s electricity mix while imports from Russia declined, helping build a more stable, resilient power grid.

Less maintenance

For certain types of renewable energy sources, the maintenance and maintenance costs of their infrastructure are minimal. Solar photovoltaic systems, for example, generally don’t have moving parts and can last 25 years or more with little maintenance. Hydroelectric power plants typically have low operating costs and require little maintenance as well, with long-lasting equipment that can remain in operation for decades.

Affordable energy

When it comes to costs, renewable energy sources once compared unfavorably to fossil fuels. But as fossil fuel prices rise renewable energy has emerged as an affordable alternative energy option. An estimated 96% of new utility-scale solar and wind power projects had lower generation costs than new coal and natural gas plants. As more renewable energy resources are integrated into power grids, businesses are also implementing energy management programs to optimize energy usage and reduce overall energy costs.

Job creation

While both clean energy and fossil fuel industries have seen job growth in recent years, growth has been markedly faster in the former. As a result, clean energy roles now account for more than half of the 67 million jobs in the global energy sector. Such growth is fueling demand for additional workers and retraining for existing fossil fuel workers to transition to the renewable energy industry.

Hurdles to a clean transition: the disadvantages to renewable energy

For all the celebrated benefits of renewable energy, the sector has some downsides as well. Understanding the disadvantages of renewable energy can help organizations better plan its deployment. Here are some of the cons of renewable energy projects today:

High upfront costs

Shifting to renewable energy technologies saves money in the long run but component costs and initial costs for set-up can be expensive. For example, small businesses can expect to pay USD 100,000 or more for commercial solar installations, depending on their energy needs. However, legislation for incentives, tax credits and various rebates can help offset these costs.

Location and landmass requirements

Most renewable energy power generation is location dependent—solar farms require unobstructed sunlight, hydropower requires water movement, wind farms require open spaces and traditional geothermal power requires proximity to sources of hot water. In many cases, renewable energy systems require a lot of space—more than traditional power stations. Research conducted by the ICF Climate Center found that large-scale renewable energy installations require 10 times more land than coal- and natural gas-fired power plants.

Production volatility

Renewable electricity generation is vulnerable to weather conditions: solar power is susceptible to cloudy days, hydropower to droughts and wind power to calm days. As such, guaranteeing the amount of energy produced at any given time is a challenge. To help companies adapt to this volatility, solutions like the IBM Environmental Intelligence Suite use sensors, geospatial data , advanced analytics, machine learning , artificial intelligence (AI) and weather data to generate day-ahead wind and solar forecasts .

Storage requirements

Due to the intermittent nature of renewable power, batteries are required to collect energy during peak production periods for distribution in a controlled, consistent manner during periods of low- to non-production. Energy storage systems to support utility-scale applications are costly but technology is being developed to support more affordable long-term storage.

Supply chain limitations

Supply chain hurdles are hindering the installation of renewable energy projects. According to a report by McKinsey, project developers face three main challenges : access to raw materials and rare earth metals amid a projected shortage; access to the talent and machinery necessary; and little supplier diversification for critical components. For example, in the case of polysilicon, a material used in solar panels, 79% of global capacity is concentrated in China, making the solar PV industry vulnerable to disruptions in that country.

Carbon footprint and waste

Although solar and wind power emit no harmful emissions during power generation, the manufacturing, installation and transportation of renewable energy equipment does often produce greenhouse gas emissions . Additionally, waste products are created during asset production process and disposal, with wind turbine blades and solar panels taking up space in landfills.

Optimizing renewable energy sourcing

Businesses in the renewable energy industry or interested in sourcing renewable power can proactively monitor renewable energy trends with the right tools. The IBM Environmental Intelligence Suite uses historical energy generation data, weather data and more to generate high-accuracy energy forecasts for wind and solar assets to inform key decision-making at the enterprise level.

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11 Advantages and Disadvantages of Renewable Energy

Renewable energy comes from a source that will not deplete. Two common examples of this type of energy are solar power and wind power. Geothermal power, hydropower, biomass, and tidal power are additional forms of renewable energy that produce power for our planet right now.

The primary advantage of renewable energy is that fewer potentially harmful emissions are released into the atmosphere. Although fossil fuels are used to create the products that allow for this power to be produced, most forms of renewable energy can become carbon neutral in 5 years or less.

The disadvantage of renewable energy is that it can be costly. Although wind power and solar power have become cost-competitive with coal-fired power and nuclear power in some communities, some forms are not cost-competitive globally yet when the cost per kilowatt hour is compared. In 2015, the lifetime cost per kilowatt hour of conventional coal was 9.5 cents, while the cost of offshore wind was 15.8 cents.

There are additional advantages and disadvantages of renewable energy to consider as well.

What Are the Advantages of Renewable Energy?

1. It is safe, abundant, and clean to use when compared to fossil fuels. Even clean-burning natural gas is at a disadvantage to what renewable energy sources can provide. Enough sunlight comes down on our planet every day that if we could harvest it with solar panels and other forms of collection, we could power everything for an entire year. Because wind is created by the warmth of the sun, it is also virtually limitless. Fossil fuels, in theory, are a finite resource because of how they are created.

2. Multiple forms of renewable energy exist. Diversification within the renewable energy sector has exploded since the 1970s. From dams that provide hydropower to solar strips that are strong enough to handle the weight of a vehicle and can be turned into roads, we have numerous methods of creating power through the collection of renewable energy. There is greater diversity in this sector when compared to fossil fuel resources.

3. It provides the foundation for energy independence. Many nations rely on fossil fuels for their society to function under the “modern” definition. These fuels come from a handful of countries that work to control pricing and availability. By developing renewable energy resources, countries can work toward energy independence with a diversified portfolio of energy to access. Although these resources take time to develop, it should be remembered that the current fossil fuel infrastructure has more than a century of development behind it.

4. Renewable energy is stable. When renewables are creating energy, the power produced is stable and usable, just like any other form of “traditional” power. It is a dependable resource when an infrastructure is available to support it. Jobs are created within the sector as well, creating stability within local economic sectors at the same time. The power created can be distributed through existing grids, which can limit installation costs for some communities.

5. It is a technology instead of a fuel. Coal must be mined and refined to make it useful. Natural gas must be released and transported. A fossil fuel is created from natural resources, whereas renewable energies are created thanks to the use of technology. For this reason, the pricing of renewable energies will continue to go down as improvements in technology occur. Fossil fuels can see price reductions through mining and refining efficiency improvements, but there will always be an underlying labor cost that will affect pricing and availability.

What Are the Disadvantages of Renewable Energy?

1. Not every form of renewable energy is commercially viable. Many forms of renewable energy must be collected at a specific location, which means distribution networks must be setup to take advantage of the power that can be generated. These networks require a massive fossil fuel investment that can take generations to neutralize with the use of renewable energy. From tidal power to geothermal, the commercial viability of many renewable energy resources is not available right now.

2. Many forms of renewable energy are location-specific. Even solar energy has limited potential in some locations. In Seattle, Washington, just 71 days per year are classified as “sunny,” or having a cloud cover that is less than 30%. Northern cities may go prolonged periods without any sunlight during the winter months. Because renewable energy is often location-specific, it may not be available for every community to use.

3. Many forms of renewable energy require storage capabilities. With traditional power resources, a home or business is connected to a local distribution grid so that it can be accessed 24/7. When using a renewable energy resource, back-up and storage resources must be included with the power generation opportunity. Sunlight doesn’t happen at night. Wind speeds are not always consistent. The storage capabilities that are required can push the cost of a new renewable energy system beyond what the average person or community can afford.

4. Pollution is still generated with renewable energy. Renewable energies are cleaner than most fossil fuels, but “cleaner” and “clean” are very different terms. A resource like biomass still burns waste products and puts pollution into the atmosphere. This includes carbon and methane, which are classified as greenhouse gases. The technologies and facilities that are used to build renewable energy resources require fossil fuels, as do the transportation and distribution networks. In many instances, renewable energy relies on fossil fuels, whereas fossil fuels do not rely on renewables.

5. Renewables often require subsidies to make them affordable. In the United States, an emphasis on biofuels and renewable energies led to the creation of ethanol as a crude oil replacement. Despite taxpayer-funded subsidies in place for this corn-based fuel, only 430,000 barrels per day were produced in 2007. That was enough to replace 2% of the oil that was being consumed while corn prices skyrocketed because of the crops being funneled into this renewable fuel.

6. Some forms of renewable energy require a massive amount of space. To product 20 megawatts of energy, current solar technologies require 100 acres of space. In comparison, the footprint for a nuclear power plant is 1 square mile to produce 1,000 megawatts of energy. Solar is therefore 45 times less space efficient compared to nuclear power. Solar is even worse, requiring up to 360 square miles to produce the same energy as one nuclear power plant.

The advantages and disadvantages of renewable energy show us that this technology has great potential. We have yet to realize its full potential, however, because of certain limitations that come with renewables. With more investments into this technology, prices can be lowered, jobs can be created, and the transition toward the consumption of fewer fossil fuels can happen.

Renewable Energy Explained

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

Chemistry, Conservation, Earth Science, Engineering

Braes of Doune Wind Farm

As of 2017, wind turbines, like the Braes of Doune wind farm near Stirling, Scotland, are now producing 539,000 megawatts of power around the world—22 times more than 16 years before. Unfortunately, this renewable, clean energy generator isn't perfect.

Photograph by Jim Richardson

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 United States 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 being the leading hydropower producers. While hydropower is theoretically a clean energy source replenished by rain and snow, it also has several drawbacks. 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 would have been with normal precipitation levels, 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 world's leading wind-energy producers. From 2001 to 2017, cumulative wind capacity around the world increased to more than 539,000 megawatts from 23,900 megawatts—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 United Kingdom 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. 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 just 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, 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 Earth’s internal heat. 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.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 receiving at least 70 percent of their energy from renewable sources, 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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Related Resources

• 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.

For Hungry Minds

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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Activists fear a new threat to biodiversity—renewable energy

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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

What Is the Future of Wind Energy?

This article was reviewed by a member of Caltech's Faculty .

Humans have used windmills to capture the force of the wind as mechanical energy for more than 1,300 years . Unlike early windmills, however, modern wind turbines use generators and other components to convert energy from the spinning blades into a smooth flow of AC electricity.

In the video below, Resnick Sustainability Institute researcher John Dabiri discusses the future of wind energy technology.

How much of global electricity demand is met by wind energy?

Wind energy is a small but fast-growing fraction of electricity production. It accounts for 5 percent of global electricity production and 8 percent of the U.S. electricity supply.

Globally, wind energy capacity surpasses 743 gigawatts , which is more than is available from grid-connected solar energy and about half as much as hydropower can provide. Nearly three-quarters of that 651 gigawatts comes from wind farms in five countries: China, the U.S., Germany, India, and Spain. Wind energy capacity in the Americas has tripled over the past decade.

In the U.S., wind is now a dominant renewable energy source , with enough wind turbines to generate more than 100 million watts, or megawatts, of electricity, equivalent to the consumption of about 29 million average homes.

The cost of wind energy has plummeted over the past decade. In the U.S., it is cost-competitive with natural gas and solar power.

Wind energy and solar energy complement each other, because wind is often strongest after the sun has heated the ground for a time. Warm air rises from the most heated areas, leaving a void where other air can rush in, which produces horizontal wind currents . We can draw on solar energy during the earlier parts of the day and turn to wind energy in the evening and night. Wind energy has added value in areas that are too cloudy or dark for strong solar energy production, especially at higher latitudes.

How big are wind turbines and how much electricity can they generate?

Typical utility-scale land-based wind turbines are about 250 feet tall and have an average capacity of 2.55 megawatts, each producing enough electricity for hundreds of homes. While land-based wind farms may be remote, most are easy to access and connect to existing power grids.

Smaller turbines, often used in distributed systems that generate power for local use rather than for sale, average about 100 feet tall and produce between 5 and 100 kilowatts.

One type of offshore wind turbine currently in development stands 853 feet tall, four-fifths the height of the Eiffel Tower, and can produce 13 megawatts of power. Adjusted for variations in wind, that is enough to consistently power thousands of homes. While tall offshore turbines lack some of the advantages of land-based wind farms, use of them is burgeoning because they can capture the energy of powerful, reliable winds high in the air near coastlines, where most of the largest cities in the world are located.

What are some potential future wind technologies other than turbines?

Engineers are in the early stages of creating airborne wind turbines , in which the components are either floated by a gas like helium or use their own aerodynamics to stay high in the air, where wind is stronger. These systems are being considered for offshore use, where it is expensive and difficult to install conventional wind turbines on tall towers.

Trees, which can withstand gale forces and yet move in response to breezes from any direction, also are inspiring new ideas for wind energy technology. Engineers speculate about making artificial wind-harvesting trees . That would require new materials and devices that could convert energy from a tree's complex movements into the steady rotation that traditional generators need. The prize is wind energy harvested closer to the ground with smaller, less obtrusive technologies and in places with complex airflows, such as cities.

What are the challenges of using wind energy?

Extreme winds challenge turbine designers. Engineers have to create systems that will start generating energy at relatively low wind speeds and also can survive extremely strong winds. A strong gale contains 1,000 times more power than a light breeze, and engineers don't yet know how to design electrical generators or turbine blades that can efficiently capture such a broad range of input wind power. To be safe, turbines may be overbuilt to withstand winds they will not experience at many sites, driving up costs and material use. One potential solution is the use of long-term weather forecasting and AI to better predict the wind resources at individual locations and inform designs for turbines that suit those sites.

Climate change will bring more incidents of unusual weather, including potential changes in wind patterns . Wind farms may help mitigate some of the harmful effects of climate change. For example, turbines in cold regions are routinely winterized to keep working in icy weather when other systems may fail, and studies have demonstrated that offshore wind farms may reduce the damage caused by hurricanes . A more challenging situation will arise if wind patterns shift significantly. The financing for wind energy projects depends critically on the ability to predict wind resources at specific sites decades into the future. One potential way to mitigate unexpected, climate-change-related losses or gains of wind is to flexibly add and remove groups of smaller turbines, such as vertical-axis wind turbines , within existing large-scale wind farms.

Wind farms do have environmental impacts . The most well-known is harm to wildlife, including birds and bats . Studies are informing wind farm siting and management practices that minimize harm to wildlife , and Audubon, a bird conservation group, now supports well-planned wind farms. The construction and maintenance of wind farms involves energy-intensive activities such as trucking, road-building, concrete production, and steel construction. Also, while towers can be recycled, turbine blades are not easily recyclable. In hopes of developing low-to-zero-waste wind farms, scientists aim to design new reuse and disposal strategies , and recyclable plastic turbine blades. Studies show that wind energy's carbon footprint is quickly offset by the electricity it generates and is among the lowest of any energy source .

Dive Deeper

Wind Vision: A New Era for Wind Power in the United States

Caltech Energy 10 to Develop the Roadmap for 50% Reduction in Emissions by 2030

Tweaking Turbine Angles Squeezes More Power Out of Wind Farms

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What is renewable energy?

Renewable energy is energy derived from natural sources that are replenished at a higher rate than they are consumed. Sunlight and wind, for example, are such sources that are constantly being replenished. Renewable energy sources are plentiful and all around us.

Fossil fuels - coal, oil and gas - on the other hand, are non-renewable resources that take hundreds of millions of years to form. Fossil fuels, when burned to produce energy, cause harmful greenhouse gas emissions, such as carbon dioxide.

Generating renewable energy creates far lower emissions than burning fossil fuels. Transitioning from fossil fuels, which currently account for the lion’s share of emissions, to renewable energy is key to addressing the climate crisis.

Renewables are now cheaper in most countries, and generate three times more jobs than fossil fuels.

Here are a few common sources of renewable energy:

SOLAR ENERGY

Solar energy is the most abundant of all energy resources and can even be harnessed in cloudy weather. The rate at which solar energy is intercepted by the Earth is about 10,000 times greater than the rate at which humankind consumes energy.

Solar technologies can deliver heat, cooling, natural lighting, electricity, and fuels for a host of applications. Solar technologies convert sunlight into electrical energy either through photovoltaic panels or through mirrors that concentrate solar radiation.

Although not all countries are equally endowed with solar energy, a significant contribution to the energy mix from direct solar energy is possible for every country.

The cost of manufacturing solar panels has plummeted dramatically in the last decade, making them not only affordable but often the cheapest form of electricity. Solar panels have a lifespan of roughly 30 years , and come in variety of shades depending on the type of material used in manufacturing.

WIND ENERGY

Wind energy harnesses the kinetic energy of moving air by using large wind turbines located on land (onshore) or in sea- or freshwater (offshore). Wind energy has been used for millennia, but onshore and offshore wind energy technologies have evolved over the last few years to maximize the electricity produced - with taller turbines and larger rotor diameters.

Though average wind speeds vary considerably by location, the world’s technical potential for wind energy exceeds global electricity production, and ample potential exists in most regions of the world to enable significant wind energy deployment.

Many parts of the world have strong wind speeds, but the best locations for generating wind power are sometimes remote ones. Offshore wind power offers t remendous potential .

GEOTHERMAL ENERGY

Geothermal energy utilizes the accessible thermal energy from the Earth’s interior. Heat is extracted from geothermal reservoirs using wells or other means.

Reservoirs that are naturally sufficiently hot and permeable are called hydrothermal reservoirs, whereas reservoirs that are sufficiently hot but that are improved with hydraulic stimulation are called enhanced geothermal systems.

Once at the surface, fluids of various temperatures can be used to generate electricity. The technology for electricity generation from hydrothermal reservoirs is mature and reliable, and has been operating for more than 100 years .

Hydropower harnesses the energy of water moving from higher to lower elevations. It can be generated from reservoirs and rivers. Reservoir hydropower plants rely on stored water in a reservoir, while run-of-river hydropower plants harness energy from the available flow of the river.

Hydropower reservoirs often have multiple uses - providing drinking water, water for irrigation, flood and drought control, navigation services, as well as energy supply.

Hydropower currently is the largest source of renewable energy in the electricity sector. It relies on generally stable rainfall patterns, and can be negatively impacted by climate-induced droughts or changes to ecosystems which impact rainfall patterns.

The infrastructure needed to create hydropower can also impact on ecosystems in adverse ways. For this reason, many consider small-scale hydro a more environmentally-friendly option , and especially suitable for communities in remote locations.

OCEAN ENERGY

Ocean energy derives from technologies that use the kinetic and thermal energy of seawater - waves or currents for instance -  to produce electricity or heat.

Ocean energy systems are still at an early stage of development, with a number of prototype wave and tidal current devices being explored. The theoretical potential for ocean energy easily exceeds present human energy requirements.

Bioenergy is produced from a variety of organic materials, called biomass, such as wood, charcoal, dung and other manures for heat and power production, and agricultural crops for liquid biofuels. Most biomass is used in rural areas for cooking, lighting and space heating, generally by poorer populations in developing countries.

Modern biomass systems include dedicated crops or trees, residues from agriculture and forestry, and various organic waste streams.

Energy created by burning biomass creates greenhouse gas emissions, but at lower levels than burning fossil fuels like coal, oil or gas. However, bioenergy should only be used in limited applications, given potential negative environmental impacts related to large-scale increases in forest and bioenergy plantations, and resulting deforestation and land-use change.

For more information on renewable sources of energy, please check out the following websites:

International Renewable Energy Agency | Renewables

International Energy Agency | Renewables

Intergovernmental Panel on Climate Change | Renewable Sources of Energy

UN Environment Programme | Roadmap to a Carbon-Free Future

Sustainable Energy for All | Renewable Energy

Renewable energy – powering a safer future

What is renewable energy and why does it matter? Learn more about why the shift to renewables is our only hope for a brighter and safer world.

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.

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New to Climate Change?

Solar energy.

Solar energy is a form of renewable energy , in which sunlight is turned into electricity, heat, or other forms of energy we can use. It is a “carbon-free” energy source that, once built, produces none of the greenhouse gas emissions that are driving climate change.   Solar is the fastest-growing energy source in the world, adding 270 terawatt-hours of new electricity generation in 2022 1 : enough to power a midsize state like North Carolina or Michigan, 2 or a small wealthy country like Denmark or Ireland. 3

The solar photovoltaic effect

There are several ways to turn sunlight into usable energy, but almost all solar energy today comes from “solar photovoltaics (PV).”   Solar PV relies on a natural property of “semiconductor” materials like silicon, which can absorb the energy from sunlight and turn it into electric current. When light hits a semiconductor, it knocks the electrons in the semiconductor’s atoms loose. The electrons then move freely until they find another atom that can take them in, generating an electric field that forces electrons to flow in a specific direction.   The solar panels (“modules”) you see on homes and in solar farms are made of many “cells” of silicon or other types of semiconductor, which constantly absorb light and release electrons. The cells are specially treated and arranged so the free electrons, the “electric charge,” all move in the same direction. This creates an electrical current that can be used to power homes, electric vehicles , and anything that runs on electricity.   The first solar panels were built in the 1950s. They were expensive to make and turned less than 10% of the sunlight that reached them into electricity, making them useful only in situations where no other fuel could be had—like in satellites and spacecraft. But over time, engineers learned to build more efficient panels and invented cheaper PV chemistries, and factories began making solar panels at a huge scale. As a result, the price of solar energy has fallen over 500-fold since 1975 and around 90% just since 2010. 4

Solar in the larger energy system

Today, solar PV is one of the cheapest sources of new energy being built, second only to wind energy . 5 The International Energy Agency forecasts that solar will be the largest source of energy in the world before the end of this decade, and rates it as the only energy-generating technology whose growth is “on track” to meet the world’s climate goals . 1   A unique advantage of solar PV is that it’s easy to scale up or down. The same panels work equally well in an immense solar farm providing energy to the electric grid , or on a rooftop powering a single house. 6 Homeowners looking to save on their energy bills, remote hospitals in low-income countries who can’t rely on the electric grid, and communities who want a backstop during blackouts all value solar energy because it can be built in small, local installations that would be impractical with other energy technologies.   Nonetheless, solar energy, on its own, can’t be relied on around the clock. It is a “variable” energy source that generates more electricity on sunny days, less on cloudy days, and none at night. An electric grid with lots of solar power must pair it with other technologies for reliability: energy sources like hydropower that can be powered up and down at will, energy storage (like batteries) to save up solar energy when it’s plentiful, and/or long-distance transmission to move electricity from the sunniest spots to where it’s needed.   Scientists and engineers also continue to improve solar technology. Many focus on making solar PV cells thinner, lighter, flexible, and transparent. This could let users install solar PV in new places, like on windows. It could also drive down costs. Already, solar panels themselves account for less than half the cost of large solar farms and a tiny fraction of the cost of small rooftop projects, 7 so lightweight technologies that save on labor, transportation, and land use costs could make solar energy even cheaper and more accessible.

Published August 29, 2023.

1 International Energy Agency: Solar PV . Updated July 11, 2023.

2 U.S. Energy Information Administration: U.S. States: Total End-Use Sector Energy Consumption Estimates, 2021 .

3 U.S. Energy Information Administration: International: Total Energy Consumption . Data from 2021.

4 International Energy Agency: Evolution of solar PV module cost by data source, 1970-2020 . Updated July 2, 2020.

5 International Energy Agency: Projected Costs of Generating Electricity 2020 .

6 Solar farms do typically make more energy per panel than rooftop installations, because they can be sited and angled to get the maximum amount of sunlight.

7 National Renewable Energy Laboratory: U.S. Solar Photovoltaic System and Energy Storage Cost Benchmark: Q1 2020 . 2021.

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• Advantages And Disadvantages Of Renewable And Non Renewable Energy Sources

Advantages and Disadvantages of Renewable and Non-renewable Energy Sources

Renewable and non-renewable energy sources are the most important and vital sources of energy on this planet. in this article, you will read about their advantages and disadvantages and also the characteristics of renewable and non-renewable energy sources., what is renewable energy.

Renewable energy is derived from sources that are continuously refilled. Solar energy, geothermal energy, wind energy, and hydroelectric power are some of the renewable energy sources.

Renewable sources are generally allied with clean energy and green energy, but there are some subtle differences between these three types of energy. Where clean energy is a type of energy that does not release pollutants like carbon dioxide, the sources that are recyclable are renewable sources, and the energy that comes from natural sources is green energy. There is often a dispute between these types of energy because not all types of renewable energy are truly green or clean. For instance, natural habitats can be damaged by some hydroelectric sources, which eventually causes deforestation.

Characteristics of Renewable Energy Sources

• Renewable resources have the capacity to restore themselves easily.
• Ecological developments for a definite time period are required by renewable resources to regenerate themselves.
• Renewable energy can become non-renewable energy if it is utilised in an extreme amount, that is, higher than the environment’s ability to restore it.

Advantages of Renewable Sources of Energy

1. Renewable energy sources can never run out because these sources are continuously filled by nature. For instance: solar energy can never run out until the Sun exists in the solar system.

2. As compared to non-renewable sources like fossil fuels, renewable energy sources are easily available to humans and are reliable because these energy sources are distributed equally on the planet.

3. Renewable energy sources are environment friendly because they are produced naturally, and they do not emit any harmful gases or pollutants that can cause damage to the ozone layer or to the environment.

4. Renewable sources require less maintenance as compared to non-renewable energy sources. For instance, if you can see turbines in hydropower stations or in wind farms, you will observe that these power generating systems do not require any external system for rotating parts. Although their initial cost is high, once they are installed, you can benefit from them for a lifetime.

Disadvantages of Renewable Sources of Energy

1. Renewable energy sources are not available round the clock because these sources are natural forces that depend strongly on the weather condition. Therefore, when you have bad weather conditions, renewable energy such as solar cells can’t be used.

2. The efficiency of renewable energy is low because every type of energy requires a particular kind of technology to convert it into electricity. Unfortunately, as compared with traditional energy conversion devices, the efficiency of renewable sources and technology is not that high.

3. The storage cost of renewable energy is very high, and also it requires a lot of space for its installation.

What is Non-Renewable Energy?

The source of energy which will eventually run out with time is known as a non-renewable energy source. Fossil fuels, such as gas, coal, and oil, are some examples of non-renewable energy sources.

For a large number of industries, these natural resources are a major source of power; however, there are several disadvantages to non-renewable energy, counting their negative environmental influence and the fact they are in limited supply .

So, basically, a non-renewable resource is a finite natural resource because it cannot be refilled at the speed at which it is consumed.

Characteristics of Non-Renewable Energy Sources

• Non-renewable energy sources are also known as stock resources because they are not obtainable in high quantities.
• Non-renewable energy generally exists in the form of minerals which are present in various forms in the lithosphere of the earth.
• Non-renewable resources can be obtained in solids, liquids or gases, that is, all the three states of matter, for instance, coal, petroleum and natural gas.

Advantages of Non-Renewable Sources of Energy

1. Resources such as oil and coal tend to provide us with more energy as compared to renewable

energy like wind or solar energy, and the reason behind it is that non-renewable resources are high in energy.

2. In the construction of natural gas pipelines, mining of coal and selling of oil and petroleum, huge profits can be generated.

3. Non-renewable resources are easy to use and quite easy to store. Also, non-renewable resources can be conveniently moved across the world.

4. Most significantly, non-renewable resources are helpful in generating employment. Extracting, refining and transporting are the portions of non-renewable sources that provide employment for the people in gulf countries.

Disadvantages of Non-Renewable Source of Energy

1. One of the main drawbacks of non-renewable energy is that it consumes a lot of time and it

takes a lot of effort. For instance, the process involved in the mining of coal is searching for the coal mines, installation of complex machines, drilling, extracting, refining and transporting. All these processes are very time-consuming processes.

2. Non-renewable energy sources are slowly vanishing from the earth because they are formed over billions of years.

3. Since some non-renewable sources emit carbon monoxide, like fossil fuels, it means that non-renewable energy causes pollution and also, they can cause respiratory problems in humans. Sources like coal, oil and natural gas are responsible for rapidly destroying the ozone layer because these sources release a large amount of carbon dioxide when burnt.

4. Transportation of non-renewable sources is a very risky process because when huge oil tanks and cargo ships crash and spill the contents in the sea or somewhere else, then it can be deadly for human beings, sea animals and the vegetation in that area.

Frequently Asked Questions (FAQs)

What is renewable energy.

Renewable energy is energy that is derived from sources that are continuously refilled. Solar energy, geothermal energy, wind energy, and hydroelectric power are some of the renewable energy sources.

What is non-renewable energy?

How many sources of energy are there.

Basically, there are two sources of energy:

• Renewable Energy
• Non-renewable Energy

Give some examples of non-renewable energy sources.

Coal, uranium, wood, and petroleum products.

GIve some examples of renewable energy sources.

Sun, wind, water.

Stay tuned to BYJU’S for more such interesting and informative, and engaging articles. Physics-related videos and unlimited academic assistance.

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