importance of alternative energy sources essay

Benefits of Renewable Energy Use

Published Jul 14, 2008 Updated Dec 20, 2017

Wind turbines and solar panels are an increasingly common sight. But why? What are the benefits of renewable energies—and how do they improve our health, environment, and economy?

This page explores the many positive impacts of clean energy, including the benefits of wind , solar , geothermal , hydroelectric , and biomass . For more information on their negative impacts—including effective solutions to avoid, minimize, or mitigate—see our page on  The Environmental Impacts of Renewable Energy Technologies .

Less global warming

Human activity is overloading our atmosphere with carbon dioxide and other  global warming emissions . These gases act like a blanket, trapping heat. The result is a web of  significant and harmful impacts , from stronger, more frequent storms, to drought, sea level rise, and extinction.

In the United States, about 29 percent of global warming emissions come from our electricity sector. Most of those emissions come from fossil fuels like coal and natural gas [ 1 ,  2 ].

What is CO 2 e?

Carbon dioxide (CO 2 ) is the most prevalent greenhouse gas, but other air pollutants—such as methane—also cause global warming. Different energy sources produce different amounts of these pollutants. To make comparisons easier, we use a carbon dioxide equivalent , or CO2e—the amount of carbon dioxide required to produce an equivalent amount of warming.

In contrast, most renewable energy sources produce little to no global warming emissions. Even when including “life cycle” emissions of clean energy (ie, the emissions from each stage of a technology’s life—manufacturing, installation, operation, decommissioning), the global warming emissions associated with renewable energy are minimal [ 3 ].

The comparison becomes clear when you look at the numbers. Burning natural gas for electricity releases between 0.6 and 2 pounds of carbon dioxide equivalent per kilowatt-hour (CO2E/kWh); coal emits between 1.4 and 3.6 pounds of CO2E/kWh.  Wind , on the other hand, is responsible for only 0.02 to 0.04 pounds of CO2E/kWh on a life-cycle basis;  solar  0.07 to 0.2;  geothermal  0.1 to 0.2; and  hydroelectric  between 0.1 and 0.5.

Renewable electricity generation from  biomass  can have a wide range of global warming emissions depending on the resource and whether or not it is sustainably sourced and harvested.

Increasing the supply of renewable energy would allow us to replace carbon-intensive energy sources and significantly reduce US global warming emissions.

For example, a 2009 UCS analysis found that a 25 percent by 2025 national renewable electricity standard would lower power plant CO2 emissions 277 million metric tons annually by 2025—the equivalent of the annual output from 70 typical (600 MW) new coal plants [ 4 ].

In addition, a ground-breaking study by the US Department of Energy's National Renewable Energy Laboratory (NREL) explored the feasibility of generating 80 percent of the country’s electricity from renewable sources by 2050. They found that renewable energy could help reduce the electricity sector’s emissions by approximately 81 percent [ 5 ].

Improved public health

The air and water pollution emitted by coal and natural gas plants is linked with breathing problems, neurological damage, heart attacks, cancer, premature death, and a host of other serious problems. The pollution affects everyone: one Harvard University study estimated the life cycle costs and public health effects of coal to be an estimated $74.6 billion every year . That’s equivalent to 4.36 cents per kilowatt-hour of electricity produced—about one-third of the average electricity rate for a typical US home [ 6 ].

Most of these negative health impacts come from air and water pollution that clean energy technologies simply don’t produce. Wind, solar, and hydroelectric systems generate electricity with no associated air pollution emissions. Geothermal and biomass systems emit some air pollutants, though total air emissions are generally much lower than those of coal- and natural gas-fired power plants.

In addition, wind and solar energy require essentially no water to operate and thus do not pollute water resources or strain supplies by competing with agriculture, drinking water, or other important water needs. In contrast, fossil fuels can have a  significant impact on water resources : both coal mining and natural gas drilling can pollute sources of drinking water, and all thermal power plants, including those powered by coal, gas, and oil, withdraw and consume water for cooling. 

Biomass and geothermal power plants, like coal- and natural gas-fired power plants, may require water for cooling. Hydroelectric power plants can disrupt river ecosystems both upstream and downstream from the dam. However, NREL's 80-percent-by-2050 renewable energy study, which included biomass and geothermal, found that total water consumption and withdrawal would decrease significantly in a future with high renewables [ 7 ].

Inexhaustible energy

Strong winds, sunny skies, abundant plant matter, heat from the earth, and fast-moving water can each provide a vast and constantly replenished supply of energy. A relatively small fraction of US electricity currently comes from these sources, but that could change: studies have repeatedly shown that renewable energy can provide a significant share of future electricity needs, even after accounting for potential constraints [ 9 ].

In fact, a major government-sponsored study found that clean energy could contribute somewhere between three and 80 times its 2013 levels, depending on assumptions [8]. And the previously mentioned NREL study found that renewable energy could comfortably provide up to 80 percent of US electricity by 2050.

Getting Excited About Energy: Expanding Renewables in the US

Jobs and other economic benefits.

Compared with fossil fuel technologies, which are typically mechanized and capital intensive, the renewable energy industry is more labor intensive. Solar panels need humans to install them; wind farms need technicians for maintenance.

This means that, on average, more jobs are created for each unit of electricity generated from renewable sources than from fossil fuels.

Renewable energy already supports thousands of jobs in the United States. In 2016, the wind energy industry directly employed over 100,000 full-time-equivalent employees in a variety of capacities, including manufacturing, project development, construction and turbine installation, operations and maintenance, transportation and logistics, and financial, legal, and consulting services [ 10 ]. More than 500 factories in the United States manufacture parts for wind turbines, and wind power project installations in 2016 alone represented $13.0 billion in investments [ 11 ].

Other renewable energy technologies employ even more workers. In 2016, the solar industry employed more than 260,000 people, including jobs in solar installation, manufacturing, and sales, a 25% increase over 2015 [ 12 ]. The hydroelectric power industry employed approximately 66,000 people in 2017 [ 13 ]; the geothermal industry employed 5,800 people [ 14] .

Increased support for renewable energy could create even more jobs. The 2009 Union of Concerned Scientists study of a 25-percent-by-2025 renewable energy standard found that such a policy would create more than three times as many jobs (more than 200,000) as producing an equivalent amount of electricity from fossil fuels [ 15 ]. 

In contrast, the entire coal industry employed 160,000 people in 2016 [ 26 ].

In addition to the jobs directly created in the renewable energy industry, growth in clean energy can create positive economic “ripple” effects. For example, industries in the renewable energy supply chain will benefit, and unrelated local businesses will benefit from increased household and business incomes [ 16 ].

Local governments also benefit from clean energy, most often in the form of property and income taxes and other payments from renewable energy project owners. Owners of the land on which wind projects are built often receive lease payments ranging from $3,000 to $6,000 per megawatt of installed capacity, as well as payments for power line easements and road rights-of-way. They may also earn royalties based on the project’s annual revenues. Farmers and rural landowners can generate new sources of supplemental income by producing feedstocks for biomass power facilities.

UCS analysis found that a 25-by-2025 national renewable electricity standard would stimulate $263.4 billion in new capital investment for renewable energy technologies, $13.5 billion in new landowner income from? biomass production and/or wind land lease payments, and $11.5 billion in new property tax revenue for local communities [ 17 ].

Stable energy prices

Renewable energy is providing affordable electricity across the country right now, and can help stabilize energy prices in the future.

Although renewable facilities require upfront investments to build, they can then operate at very low cost (for most clean energy technologies, the “fuel” is free). As a result, renewable energy prices can be very stable over time.

Moreover, the costs of renewable energy technologies have declined steadily, and are projected to drop even more. For example, the average price to install solar dropped more than 70 percent between 2010 and 2017 [ 20 ]. The cost of generating electricity from wind dropped 66 percent between 2009 and 2016 [ 21 ]. Costs will likely decline even further as markets mature and companies increasingly take advantage of economies of scale.

In contrast, fossil fuel prices can vary dramatically and are prone to substantial price swings. For example, there was a rapid increase in US coal prices due to rising global demand before 2008, then a rapid fall after 2008 when global demands declined [ 23 ]. Likewise, natural gas prices have fluctuated greatly since 2000 [ 25 ].

Using more renewable energy can lower the prices of and demand for natural gas and coal by increasing competition and diversifying our energy supplies. And an increased reliance on renewable energy can help protect consumers when fossil fuel prices spike. 

Barriers to Renewable Energy Technologies

Reliability and resilience.

 Wind and solar are less prone to large-scale failure because they are distributed and modular. Distributed systems are spread out over a large geographical area, so a severe weather event in one location will not cut off power to an entire region. Modular systems are composed of numerous individual wind turbines or solar arrays. Even if some of the equipment in the system is damaged, the rest can typically continue to operate.

For example, Hurricane Sandy damaged fossil fuel-dominated electric generation and distribution systems in New York and New Jersey and left millions of people without power. In contrast, renewable energy projects in the Northeast weathered Hurricane Sandy with minimal damage or disruption [ 25 ]. 

Water scarcity is another risk for non-renewable power plants. Coal, nuclear, and many natural gas plants depend on having sufficient water for cooling, which means that severe droughts and heat waves can put electricity generation at risk. Wind and solar photovoltaic systems do not require water to generate electricity and can operate reliably in conditions that may otherwise require closing a fossil fuel-powered plant. (For more information, see  How it Works: Water for Electricity .)  

The risk of disruptive events will also increase in the future as droughts, heat waves, more intense storms, and increasingly severe wildfires become more frequent due to global warming—increasing the need for resilient, clean technologies.

References:

[1] Environmental Protection Agency. 2017. Inventory of U.S. Greenhouse Gas Emissions and Sinks: 1990-2015.

[2] Energy Information Agency (EIA). 2017.  How much of the U.S. carbon dioxide emissions are associated with electricity generation?

[3] Intergovernmental Panel on Climate Change (IPCC). 2011.  IPCC Special Report on Renewable Energy Sources and Climate Change Mitigation . Prepared by Working Group III of the Intergovernmental Panel on Climate Change [O. Edenhofer, R. Pichs-Madruga, Y. Sokona, K. Seyboth, P. Matschoss, S. Kadner, T. Zwickel, P. Eickemeier, G. Hansen, S. Schlömer, C. von Stechow (eds)]. Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA, 1075 pp. (Chapter 9).

[4] Union of Concerned Scientists (UCS). 2009.  Clean Power Green Jobs .

[5] National Renewable Energy Laboratory (NREL). 2012.  Renewable Electricity Futures Study . Volume 1, pg. 210.

[6] Epstein, P.R.,J. J. Buonocore, K. Eckerle, M. Hendryx, B. M. Stout III, R. Heinberg, R. W. Clapp, B. May, N. L. Reinhart, M. M. Ahern, S. K. Doshi, and L. Glustrom. 2011. Full cost accounting for the life cycle of coal in “Ecological Economics Reviews.” Ann. N.Y. Acad. Sci. 1219: 73–98.

[7]  Renewable Electricity Futures Study . 2012.

[8] NREL. 2016.  Estimating Renewable Energy Economic Potential in the United States: Methodology and Initial Results .

[9]  Renewable Electricity Futures Study . 2012.

IPCC Special Report on Renewable Energy Sources and Climate Change Mitigation . Prepared by Working Group III of the Intergovernmental Panel on Climate Change. 2011.

UCS. 2009.  Climate 2030: A national blueprint for a clean energy economy .

[10] American Wind Energy Association (AWEA). 2017. AWEA U.S. Wind Industry Annual Market Report: Year Ending 2016. Washington, D.C.: American Wind Energy Association.

 [11] Wiser, Ryan, and Mark Bolinger. 2017. 2016 Wind Technologies Market Report. U.S. Department of Energy.

[12] The Solar Foundation. 2017. National Solar Jobs Census 2016.

[13] Navigant Consulting. 2009.  Job Creation Opportunities in Hydropower .

[14] Geothermal Energy Association. 2010.  Green Jobs through Geothermal Energy .

[15] UCS. 2009.  Clean Power Green Jobs .

[16] Environmental Protection Agency. 2010.  Assessing the Multiple Benefits of Clean Energy: A Resource for States . Chapter 5.

[17] UCS. 2009.  Clean Power Green Jobs .

[18] Deyette, J., and B. Freese. 2010.  Burning coal, burning cash: Ranking the states that import the most coal . Cambridge, MA: Union of Concerned Scientists.

[20] SEIA. 2017. Solar Market Insight Report 2017 Q2.

[21] AWEA. 2017. AWEA U.S. Wind Industry Annual Market Report: Year Ending 2016. Washington, D.C.: American Wind Energy Association.

[22] UCS. 2009.  Clean Power Green Jobs .

[23] UCS. 2011.  A Risky Proposition: The financial hazards of new investments in coal plants .

[24] EIA. 2013.  U.S. Natural Gas Wellhead Price .

[25] Unger, David J. 2012.  Are renewables stormproof? Hurricane Sandy tests solar, wind . The Christian Science Monitor. November 19.

[26] Department of Energy. 2017 U.S. Energy and Employment Report

Related resources

The Electric Utility Toolkit

Siting for a Cleaner, More Equitable Grid in Massachusetts

Barriers and Solutions to Building Clean Energy in California

Accelerating Clean Energy Ambition

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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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• 08 August 2023

Clean energy can fuel the future — and make the world healthier

You have full access to this article via your institution.

China is on track to reach its solar-power target for 2030. Credit: Zhao Yongtao/VCG/Getty

The 2030 targets laid out by the United Nations for the seventh Sustainable Development Goal (SDG 7) are clear enough: provide affordable access to energy; expand use of renewable sources; improve energy efficiency year on year; and enhance international cooperation in support of clean-energy research, development and infrastructure. Meeting those goals, however, will be anything but simple. As seen in many of the editorials in this series examining the SDGs at their halfway stage , the world is falling short.

This is due, at least in part, to the influence of the fossil-fuel industry, which drives the economics and, often, the politics of countries large and small, rich and poor. Rising human prosperity, as measured by economic growth, has long been linked to an abundance of fossil fuels. Many politicians fear that the pursuit of clean-energy sources will compromise that economic development. The latest science clearly counters this view — but the voice of the research community is not being heard in the right places. To meet the targets embodied in SDG 7, that has to change.

There is much to be done. In 2021, some 675 million people worldwide still did not have access to electricity. This is down from 1.1 billion a decade or so ago, but the pace of progress has slowed. On the basis of current trends, 660 million people, many of them in sub-Saharan Africa, will remain without electricity by 2030. And projections indicate that some 1.9 billion people will still be using polluting and inefficient cooking systems fuelled by coal and wood (see go.nature.com/3s8d887 ). This is bad news all round: for health, biodiversity and the climate.

Carbon emissions hit new high: warning from COP27

Achieving the energy-access targets was always going to be a stretch, but progress has been slow elsewhere, too. Take energy efficiency. More energy efficiency means less pollution, and energy efficiency has increased by around 2% annually in the past few years. But meeting the target for 2030 — to double the rate of the 1990–2010 average — would require gains of around 3.4% every year for the rest of this decade.

The picture for renewable energy is similarly mixed. Despite considerable growth in wind and solar power to generate grid electricity, progress in the heat and transport sectors remains sluggish. Renewable energy’s share of total global energy consumption was just 19.1% in 2020, according to the latest UN tracking report, but one-third of that came from burning resources such as wood.

One reason for the slow progress is the continued idea that aggressive clean-energy goals will get in the way of economic development. It’s easier and more profitable for major fossil-fuel producers to simply maintain the status quo. Just last month, ministers from the G20 group of the world’s biggest economies, including the European Union, India, Saudi Arabia and the United States, failed to agree on a plan to phase out fossil fuels and triple the capacity of renewable energy by 2030.

But this is where science has a story to tell. In the past, researchers say, many models indicated that clean energy would be more expensive than that from fossil fuels, potentially pricing the poorest nations out of the market as well as driving up people’s food bills and exacerbating hunger. But the latest research suggests that the picture is more complex. Energy is a linchpin for most of the SDGs, and research that merges climate, energy and the SDGs underscores this 1 . For example, the agriculture and food-transport sectors still depend on fossil fuels, and that generates pollution that kills millions of people each year. Other links are indirect: lack of access to light at night and to online information — as a result of energy poverty — hampers educational attainment and contributes to both long- and short-term inequality.

US aims for electric-car revolution — will it work?

The lesson from research is that it might be easier, not harder, to address these challenges together. In 2021, researcher Gabriela Iacobuţă at the German Institute of Development and Sustainability in Bonn and her colleagues showed that technologies centred on renewable resources and efficiency tend to come with few trade-offs and many benefits, including improved public health and wealth, thanks to a cleaner environment and better jobs 2 . And climate scientist Bjoern Soergel at the Potsdam Institute for Climate Impact Research in Germany and his colleagues found that a coordinated package of climate and development policies could achieve most of the SDGs while limiting global warming to 1.5 °C above pre-industrial levels 3 .

The study assessed 56 indicators across all 17 SDGs. One proposed intervention is an international climate finance mechanism that would levy fees on carbon emissions that would be redistributed through national programmes to reduce poverty. A second focuses on promoting healthy diets — including reducing the consumption of meat, the production of which requires a lot of water, energy and land. This would benefit people on low incomes by lowering both food and energy prices.

The biggest challenge lies in translating these models to the real world. To do so, we need leaders who are not bound by outmoded thinking, are aware of the latest science and can draw on the research to build public support for the necessary energy transition. We require more national and international public institutions that are willing to address problems at the system level. And all of this needs a science community that is willing and able to champion knowledge and evidence.

Nature 620 , 245 (2023)

doi: https://doi.org/10.1038/d41586-023-02510-y

Vohra, K. et al. Environ. Res. 195 , 110754 (2021).

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Soergel, B. et al. Nature Clim. Change 11 , 656–664 (2021).

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Scientist / Postdoc (m/f/d): Analysis of Microscopic BIOMedical Images (AMBIOM)

A new project area in the institute is the development of artificial intelligence (AI)

Dortmund, Nordrhein-Westfalen (DE)

Leibniz-Institut für Analytische Wissenschaften – ISAS – e.V.

PhD Candidate (m/f/d): Analysis of Microscopic BIOMedical Images (AMBIOM)

Senior researcher-experimental leukemia modeling, mullighan lab.

Memphis, Tennessee

St. Jude Children's Research Hospital (St. Jude)

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Renewable Energy Essay: Tips to Write a Great Paper

Scientists have categorized climate change as the greatest threat facing humanity today. While there’s irrefutable evidence that our climate is warming up, scientists are divided on its probable causes, with some attributing it to anthropogenic origins and others claiming Earth’s orbital patterns, among myriads of hypotheses. Today, climatologists and other mainstream researchers float renewable energy as humanity’s silver bullet to fight climate change. The discussions around the topic have inspired interest among the young and the old, leading to increased enrolment in climate-related studies, participation in demos and campaigns, and sharing of knowledge in talk shows and online platforms. However, being passionate about renewable energy and sharing your insights with others are two different things. Many people struggle to express themselves. Yet, there’s no room for hesitation regarding climate change. We must all act now and play the small part we can to reverse it. As such, it’s crucial to understand the power of words in advocating for change as the world shifts towards more sustainable energy sources. In this short article, we’ll guide you in crafting a winning essay on renewable energy, exploiting the power of storytelling to capture people’s attention while highlighting the importance of taking immediate action to reverse its potential impacts on humanity.

Unlocking the Power of Words: Secrets to Writing about Energy

The internet is awash with essays and articles on various topics. In the last few years, climate change has become one of the most targeted topics of discussion. So, by writing another renewable energy essay, you could add to the debate but not make any significant impact. Therefore, it’s vital to create a well-crafted piece to convey your ideas and influence your audience effectively. Remember that the intention is not to add to the existing literature but to make a powerful impact. A poorly written essay may fail to engage your readers and diminish the significance of your message. Consider what’s at stake when writing a renewable energy essay.

To make your work stand out, pay special attention to writing mechanics such as coherence and persuasive techniques. Additionally, adhere to grammar and writing style requirements. Most importantly, stay on the topic. While climate change is an emotive issue, be careful not to be dragged into every aspect of the debate. Yours should be to communicate your ideas effectively and inspire action.

From Sun to Success: Tips to Write an Essay on Renewable Energy

Writing a renewable energy paper is unlike crafting other documents. The scrutiny such pieces get in today’s world is mind-boggling. A simple misrepresentation of facts or omission can attract incredibly unwanted attention. So, how do you create an impactful and persuasive piece of writing on this topic? We’ve got you covered. Below, we’ve put together some invaluable tips to help you harness the power of words to make a difference in the world of renewable energy.

Choosing the perfect topic

There are numerous topics under renewable energy to explore. It’s improbable to examine or discuss them all. Consequently, it would be best to settle for the one that interests you the most or addresses the most critical issues on the subject matter. Here are a few factors to consider when choosing a topic:   

Relevance: If it’s not germane, don’t write it. Your primary objective is to address current issues and developments in the field of renewable energy, ensuring your essay is timely and highlights essential concerns. We understand this can challenge some students, so we recommend seeking professional help. For example, you can use a trustworthy paper writing service , to help write your essay online or develop a topic.

Uniqueness: As we said earlier, you don’t want to add to existing literature but explore new ideas from different perspectives. Consider topics that stand out, especially those in niche areas or emerging technologies within renewable energy, e.g., wave and tidal power, solar skin technology, and floating solar farms, among others.

Passion : Don’t just write, do so about the things you love or are genuinely passionate about. Readers can always tell if you’re writing for money, attention, or interest. If you put your heart into it, your enthusiasm will shine through it and engage them.

Conduct thorough research

Thorough research is the backbone of any well-written essay. This is especially critical when crafting an essay on renewable energy. You must not only gather reliable and up-to-date information from credible sources but also use them expertly. But how can an amateur achieve this? Here are some tips:

Rely on credible sources: Libraries and online databases contain millions of books and articles about renewable energy. So, how can a student know reputable ones? Most often, academic journals and government reports are the most reliable. They contain information that’s been verified by peers. You can also check educational institutes and organizations that provide primary data, e.g., NASA and NSE.

Stay updated : Things can move very fast in the field of renewable energy. As such, you must always be alert or risk being left behind. Therefore, access the latest research on the topic and, if possible, subscribe to newsletters and publications on renewable energy. A rapidly evolving field requires unconventional ways to stay ahead.

Take notes : There could be so much to learn on this topic. However, always note new trends, emerging issues, and controversies. This way, you can update your essays long after writing them, keeping them relevant for longer.   

Structuring your essay for maximum impact

An essay is only as impactful as the structure of its arguments. You can’t go far with a haphazard essay design. You must adopt a well-structured format to convey your ideas clearly and effectively. This may not be as straightforward as it seems. So, here are a few considerations for you:

Introduction : Begin your article with a powerful and captivating paragraph outlining what it is about and the direction of your argument. Remember that a flat introduction can distract readers from an otherwise excellent essay.    

Main body : Divide the body of your essay into several paragraphs, each focusing on a specific aspect or argument related to renewable energy. Here, you’re supposed to produce evidence and dispute any divergent opinions with solid arguments. This is the core of your paper.

Conclusion : This section is no less important than the others. You should use it to summarize your main points and restate your thesis statement. Given the criticalness of the topic, you can sign off with a thought-provoking message that reinforces the importance of renewable energy and encourages action or further exploration of the subject.

Do Some Research to Craft an A+ Renewable Energy Essay

Any good English paper requires careful planning, thorough research, and effective writing techniques . However, when trading in extremely high-stakes zones, your writing ability becomes secondary. The accuracy of your claims comes first when crafting essays on renewable energy. Still, other components remain vital. Therefore, by choosing a compelling topic, conducting thorough research based on valid questions, structuring your essay for maximum impact, and utilizing persuasive language and credible sources, you can create a powerful piece of writing that inspires action and raises awareness about the importance of renewable energy.

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Energy is at the heart of the sustainable development agenda to 2030

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IEA (2018), Energy is at the heart of the sustainable development agenda to 2030 , IEA, Paris https://www.iea.org/commentaries/energy-is-at-the-heart-of-the-sustainable-development-agenda-to-2030

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Three years ago, all countries of the world adopted 17 ambitious policy goals to end poverty, protect the planet, promote gender equality, or ensure prosperity, as part of the United Nations Sustainable Development Agenda, and vowed to achieve specific targets by 2030.

Energy is at the heart of many of these Sustainable Development Goals – from expanding access to electricity, to improving clean cooking fuels, from reducing wasteful energy subsidies to curbing deadly air pollution that each year prematurely kills millions around the world. One of these goals – commonly known as SDG 7 – aims to ensure access to affordable, reliable, sustainable and modern energy for all by the end of the next decade.

All these topics are fundamental to the work of the International Energy Agency. As the world’s leading energy authority, the IEA has unmatched analytical capabilities based on its unique data collection, technological network, research, and policy recommendations, which we put in the service of understanding the energy system. As I have often said –  in the world of energy, data always wins.

The adoption of energy specific sustainable development goals was a milestone in moving the world towards a more sustainable and equitable system. The IEA continues to support this critical goal with unbiased data and projections. This has long been a personal and professional priority for me. Fifteen years ago, we recognized this basic fact when we first compiled data for electricity access and mapped out a scenario for delivering universal electricity access by 2030 in the  World Energy Outlook , the IEA’s benchmark publication.

As a result, the IEA has been tracking country-by-country progress on energy access (SDG 7.1) on an annual basis since 2002. As the world's most authoritative source of energy statistics, the IEA is also the lead custodian agency for reporting progress towards substantially increasing the share of renewables in the global energy mix (SDG 7.2) and doubling the global rate of improvement in energy efficiency (SDG 7.3).

The United Nations will have the first in-depth review of SDG 7 goals at the High-level Political Forum on Sustainable Development organized in New York, in July this year. This will be a good time to assess where we stand with our global energy goals, where existing national policies are taking us, and how to steer the global energy system towards a more sustainable path. To assist this critical process, the IEA has decided to create a new online resource to centralize all of our data and scenario projections in support of the 2030 Agenda.

It is clear that the energy sector must be at the heart of efforts to lead the world on a more sustainable pathway. But our data and analysis show that the current and planned policies fall well short of achieving our critical energy-related sustainable development objectives.

There has been tremendous progress in delivering universal electricity access (SDG 7.1.1) in Asia and parts of sub-Saharan Africa, with the number of people without access declining to 1.1 billion in 2016, from 1.7 billion in 2000. But on the basis of current progress, more than 670 million people are still projected to be without electricity access in 2030. Much work remains to be done in this field.

The picture is even dimmer when it comes to access to clean and modern cooking facilities (SDG 7.1.2). About 2.8 billion people rely on polluting biomass, coal and kerosene to cook their daily meals, a number which has not changed since 2000. Without greater ambition, 2.3 billion will still remain without clean cooking access in 2030, with grave health, environmental and social consequences.

The share of modern renewables in global final energy consumption (SDG 7.2) has been growing steadily in the past decades, reaching nearly 10% in 2015. However, to achieve a truly sustainable energy system, this share needs to more than double to 21% by 2030. But while wind and solar deployment has accelerated, thanks to falling costs and policy support in many parts of the world, this goal is still out of reach under current policies.

Finally, 2015 was an impressive year for energy efficiency (SDG 7.3), with global energy intensity falling by 2.8%, the fastest annual improvement since 1990. However, the average improvement between 2000 and 2015 of 2.2% still falls short of the 2.6% target needed to achieve the SDG target, and the 3.4% annual improvement needed to meet more ambitious long-term climate objectives.

Tracking progress towards these goals is only one aspect of our sustainable development work. Through our new Sustainable Development Scenario, introduced in 2017, we also seek to map an integrated path for achieving critical global goals in the next three decades: delivering universal energy access by 2030, an early peak in carbon emissions (SDG 13), and reducing deadly air pollution (SDG 3). One of the main finding of this new scenario is that these three goals are not incompatible. Indeed, our analysis shows they can successfully be met together.

But there is an urgent need for action on all fronts, especially on renewables and energy efficiency, which are key for delivering on all three goals – energy access, climate mitigation and lower air pollution. The IEA is committed to keep leading this agenda, and stepping up efforts to support the clean energy transition. We will do so with our unparalleled data, unbiased analysis, and our determined policy support to help move the world towards delivering the 2030 Agenda.

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Renewable Energy

Renewable energy comes from sources that will not be used up in our lifetimes, such as the sun and wind.

Earth Science, Experiential Learning, Engineering, Geology

Wind Turbines in a Sheep Pasture

Wind turbines use the power of wind to generate energy. This is just one source of renewable energy.

Photograph by Jesus Keller/ Shutterstock

The wind, the sun, and Earth are sources of  renewable energy . These energy sources naturally renew, or replenish themselves.

Wind, sunlight, and the planet have energy that transforms in ways we can see and feel. We can see and feel evidence of the transfer of energy from the sun to Earth in the sunlight shining on the ground and the warmth we feel when sunlight shines on our skin. We can see and feel evidence of the transfer of energy in wind’s ability to pull kites higher into the sky and shake the leaves on trees. We can see and feel evidence of the transfer of energy in the geothermal energy of steam vents and geysers .

People have created different ways to capture the energy from these renewable sources.

Solar Energy

Solar energy can be captured “actively” or “passively.”

Active solar energy uses special technology to capture the sun’s rays. The two main types of equipment are photovoltaic cells (also called PV cells or solar cells) and mirrors that focus sunlight in a specific spot. These active solar technologies use sunlight to generate electricity , which we use to power lights, heating systems, computers, and televisions.

Passive solar energy does not use any equipment. Instead, it gets energy from the way sunlight naturally changes throughout the day. For example, people can build houses so their windows face the path of the sun. This means the house will get more heat from the sun. It will take less energy from other sources to heat the house.

Other examples of passive solar technology are green roofs , cool roofs, and radiant barriers . Green roofs are completely covered with plants. Plants can get rid of pollutants in rainwater and air. They help make the local environment cleaner.

Cool roofs are painted white to better reflect sunlight. Radiant barriers are made of a reflective covering, such as aluminum. They both reflect the sun’s heat instead of absorbing it. All these types of roofs help lower the amount of energy needed to cool the building.

Advantages and Disadvantages There are many advantages to using solar energy. PV cells last for a long time, about 20 years.

However, there are reasons why solar power cannot be used as the only power source in a community. It can be expensive to install PV cells or build a building using passive solar technology.

Sunshine can also be hard to predict. It can be blocked by clouds, and the sun doesn’t shine at night. Different parts of Earth receive different amounts of sunlight based on location, the time of year, and the time of day.

Wind Energy

People have been harnessing the wind’s energy for a long, long time. Five-thousand years ago, ancient Egyptians made boats powered by the wind. In 200 B.C.E., people used windmills to grind grain in the Middle East and pump water in China.

Today, we capture the wind’s energy with wind turbines . A turbine is similar to a windmill; it has a very tall tower with two or three propeller-like blades at the top. These blades are turned by the wind. The blades turn a generator (located inside the tower), which creates electricity.

Groups of wind turbines are known as wind farms . Wind farms can be found near farmland, in narrow mountain passes, and even in the ocean, where there are steadier and stronger winds. Wind turbines anchored in the ocean are called “ offshore wind farms.”

Wind farms create electricity for nearby homes, schools, and other buildings.

Advantages and Disadvantages Wind energy can be very efficient . In places like the Midwest in the United States and along coasts, steady winds can provide cheap, reliable electricity.

Another great advantage of wind power is that it is a “clean” form of energy. Wind turbines do not burn fuel or emit any pollutants into the air.

Wind is not always a steady source of energy, however. Wind speed changes constantly, depending on the time of day, weather , and geographic location. Currently, it cannot be used to provide electricity for all our power needs.

Wind turbines can also be dangerous for bats and birds. These animals cannot always judge how fast the blades are moving and crash into them.

Geothermal Energy

Deep beneath the surface is Earth’s core . The center of Earth is extremely hot—thought to be over 6,000 °C (about 10,800 °F). The heat is constantly moving toward the surface.

We can see some of Earth’s heat when it bubbles to the surface. Geothermal energy can melt underground rocks into magma and cause the magma to bubble to the surface as lava . Geothermal energy can also heat underground sources of water and force it to spew out from the surface. This stream of water is called a geyser.

However, most of Earth’s heat stays underground and makes its way out very, very slowly.

We can access underground geothermal heat in different ways. One way of using geothermal energy is with “geothermal heat pumps.” A pipe of water loops between a building and holes dug deep underground. The water is warmed by the geothermal energy underground and brings the warmth aboveground to the building. Geothermal heat pumps can be used to heat houses, sidewalks, and even parking lots.

Another way to use geothermal energy is with steam. In some areas of the world, there is underground steam that naturally rises to the surface. The steam can be piped straight to a power plant. However, in other parts of the world, the ground is dry. Water must be injected underground to create steam. When the steam comes to the surface, it is used to turn a generator and create electricity.

In Iceland, there are large reservoirs of underground water. Almost 90 percent of people in Iceland use geothermal as an energy source to heat their homes and businesses.

Advantages and Disadvantages An advantage of geothermal energy is that it is clean. It does not require any fuel or emit any harmful pollutants into the air.

Geothermal energy is only avaiable in certain parts of the world. Another disadvantage of using geothermal energy is that in areas of the world where there is only dry heat underground, large quantities of freshwater are used to make steam. There may not be a lot of freshwater. People need water for drinking, cooking, and bathing.

Biomass Energy

Biomass is any material that comes from plants or microorganisms that were recently living. Plants create energy from the sun through photosynthesis . This energy is stored in the plants even after they die.

Trees, branches, scraps of bark, and recycled paper are common sources of biomass energy. Manure, garbage, and crops , such as corn, soy, and sugar cane, can also be used as biomass feedstocks .

We get energy from biomass by burning it. Wood chips, manure, and garbage are dried out and compressed into squares called “briquettes.” These briquettes are so dry that they do not absorb water. They can be stored and burned to create heat or generate electricity.

Biomass can also be converted into biofuel . Biofuels are mixed with regular gasoline and can be used to power cars and trucks. Biofuels release less harmful pollutants than pure gasoline.

Advantages and Disadvantages A major advantage of biomass is that it can be stored and then used when it is needed.

Growing crops for biofuels, however, requires large amounts of land and pesticides . Land could be used for food instead of biofuels. Some pesticides could pollute the air and water.

Biomass energy can also be a nonrenewable energy source. 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 non-renewable energy source.

Hydroelectric Energy

Hydroelectric energy is made by flowing water. Most hydroelectric power plants are located on large dams , which control the flow of a river.

Dams block the river and create an artificial lake, or reservoir. A controlled amount of water is forced through tunnels in the dam. As water flows through the tunnels, it turns huge turbines and generates electricity.

Advantages and Disadvantages Hydroelectric energy is fairly inexpensive to harness. Dams do not need to be complex, and the resources to build them are not difficult to obtain. Rivers flow all over the world, so the energy source is available to millions of people.

Hydroelectric energy is also fairly reliable. Engineers control the flow of water through the dam, so the flow does not depend on the weather (the way solar and wind energies do).

However, hydroelectric power plants are damaging to the environment. When a river is dammed, it creates a large lake behind the dam. This lake (sometimes called a reservoir) drowns the original river habitat deep underwater. Sometimes, people build dams that can drown entire towns underwater. The people who live in the town or village must move to a new area.

Hydroelectric power plants don’t work for a very long time: Some can only supply power for 20 or 30 years. Silt , or dirt from a riverbed, builds up behind the dam and slows the flow of water.

Other Renewable Energy Sources

Scientists and engineers are constantly working to harness other renewable energy sources. Three of the most promising are tidal energy , wave energy , and algal (or algae) fuel.

Tidal energy harnesses the power of ocean tides to generate electricity. Some tidal energy projects use the moving tides to turn the blades of a turbine. Other projects use small dams to continually fill reservoirs at high tide and slowly release the water (and turn turbines) at low tide.

Wave energy harnesses waves from the ocean, lakes, or rivers. Some wave energy projects use the same equipment that tidal energy projects do—dams and standing turbines. Other wave energy projects float directly on waves. The water’s constant movement over and through these floating pieces of equipment turns turbines and creates electricity.

Algal fuel is a type of biomass energy that uses the unique chemicals in seaweed to create a clean and renewable biofuel. Algal fuel does not need the acres of cropland that other biofuel feedstocks do.

Renewable Nations

These nations (or groups of nations) produce the most energy using renewable resources. Many of them are also the leading producers of nonrenewable energy: China, European Union, United States, Brazil, and Canada

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Related Resources

113 Renewable Energy Essay Topic Ideas & Examples

🏆 best renewable energy topic ideas & essay examples, 👍 good essay topics on renewable energy, 💡 interesting topics to write about renewable energy, ❓ questions about renewable energy.

• Renewable Energy Sources: Existence, Impacts and Trends It is important to note that about 20% of the world energy sources come from renewable sources. The management and maintenance of renewable energy production may be in the short run or long run.
• Solar Energy Installation Project Management 0 Pilot solar energy project Managers will run a pilot project to determine the feasibility of the project. A number of resources will be required to complete the project.
• The Benefits of Renewable and Non-Renewable Energy This research paper seeks to describe renewable and non renewable energy sources, their effects on the environment and economic benefits.”Fossils fuels are one of the most widely used sources of energy”.
• Using Solar (PV) Energy to Generate Hydrogen Gas for Fuel Cells With the current technologies, an electrolyzer working at 100% efficiency needs 39 kWh of electricity to liberate 1 kg of hydrogen.
• Renewable Energy: Comparison Between Biogas and Solar Energies Again, the research finds that the cost of installation is higher compared to solar energy sources. However, the paper is going to compare solar and biogas energy sources.
• Wind Energy as Forms of Sustainable Energy Sources T he only costs to be met in producing wind energy is the cost of equipment for harnessing wind, wind turbines for converting the energy and photovoltaic panels for storing energy.
• Climate Change and Renewable Energy Options The existence of various classes of world economies in the rural setting and the rise of the middle class economies has put more pressure on environmental services that are highly demanded and the use of […]
• Investment in Renewable Energy Sources Thus, it is possible to say that climate crisis can prove to be a catastrophe that can profoundly influence people living in various regions of the world; more importantly, the existing policies are not sufficient […]
• How Solar Energy Can Save the Environment? Over the past few decades, the level of greenhouse gasses in the environment has been on the rise. The only cost in the production of solar energy is making the solar panels.
• Renewable Energy: Geothermal Energy Of all these forms of renewables, geothermal energy is perceived as one of the renowned forms of renewable energy which is generated from the crust of the earth.
• Renewable Energy Ethical Question Despite the fact that the power of wind, sun, and water can be transformed into energy the great majority of people argue the importance of the renewable energy system implementation proving that the disadvantages should […]
• Science and the Use of Non-Renewable Energy Resources It is scientific knowledge that the use of fossil fuels such as oil leads to the pollution of the environment. This is the reason why science can be used to explain the lethal effects of […]
• Solar Energy in the United Arab Emirates The success of the solar power initiatives in the UAE is largely attributed to the wide range of financial incentives that the UAE government has offered to the companies that are prepared to advance the […]
• Renewable Energy Sources Thus, the establishment that the use of fossil fuels adversely affects the environment is important in explaining the shift to the use of renewable energy sources.
• Adopting Renewable Energies Proponents of fossil fuels assert that while alternative energy sources purport to be the solution to the problems that fossil fuels have caused, alternative energy sources can simply not cater for the huge energy needs […]
• The Sun’s Light and Heat: Solar Energy Issue The figure below provides an overview of the major parts of the solar system, which include the solar core, the radiative zone, the convective zone, the photosphere, the chromosphere, and the corona among others.
• Carbon Footprint and Renewable Energy The consumption of fossil fuels by the energy infrastructure is one of the greatest sources of greenhouse gases which are responsible for recent global warming and climate change concern. This is the increase in the […]
• Climate Change: Renewable Energy Sources Climate change is the biggest threat to humanity, and deforestation and “oil dependency” only exacerbate the situation and rapidly kill people. Therefore it is important to invest in the development of renewable energy sources.
• The Role of Renewable Energy in Addressing Electricity Demand in Zambia In this regard, ZESCO Limited, the Zambian power utility company, has an obligation to generate and supply the electricity in the country.
• Barriers to Deploying Renewable Energy in Hotels The main benefit of renewable energy is environmental protection, improving the environmental and social performance of the industry, and reducing utility costs.
• Renewable Energy: An International Profile To illustrate the severity of some of the outlined consequences and challenges presented to the national environment, the following graph is presented, illustrating the growth rate of the US fracking industry.
• “The American Recovery and Reinvestment Act”: Developing Renewable Energy The focus of this bill on the technological aspect of environmental protection is seen in the allocation of funds on loan guarantees, grants for researchers, and the manufacturing of advanced systems.
• Technology and Wind Energy Efforts by the elite members of the society enlightened the global countries about the benefits of renewable energy sources in conserving the environment prompting the need to consider wind energy.
• Efficient Solar Refrigeration: A Technology Platform for Clean Energy and Water Refrigeration cycle capable to be driven by low grade energy, substituting gas-phase ejector used in conventional mechanical compressor.
• Non-Renewable Energy and Gross Domestic Product of China The use of non-renewable energy in China has the negative impact on the GDP, as indicated by the negative values of DOLS and CCR coefficients. The generation of renewable energy has a negligible negative impact […]
• Making Solar Energy Affordable Solar energy is a type of energy that is obtained through tapping the sun’s rays radiant and converting it into other energy forms such as heat and electricity.
• Government Subsidies for Solar Energy This approach has enabled solar companies and developers to penetrate the energy market despite the high costs involved in developing solar power.
• Electrical Engineering Building Uses Wind Energy The purpose of this fact-finding mission was to determine an appropriate type and rating of the wind turbine based on three factors: the average wind data at UNSW; the peak power demand for the EE […]
• Solar Energy: Review and Analysis Available literature shows that most commercial CSP plants in Spain and the United States using synthetic oil as the transfer fluid and molten salt as the thermal energy storage technology are able to achieve a […]
• Solar and Wind Energy in the Empty Quarter Desert However, the main bulk of the report focuses on the proposal to build a stand alone renewable energy source, a combination of a solar power wind turbine system that will provide a stable energy source […]
• Wind Energy for the Citizens of Shikalabuna, Sri Lanka The citizens of Shikalabuna are shot of the possibility to implement the required wind turbines and get a chance to pay less using the natural source available.
• Renewable Energy and Transport Fuel Use Patterns The base data is as follows: Table 1 The first segment of this analysis tests for differences between consumption of natural gas and ethanol.
• Renewable Energy Technologies As for the construction decision and the way of harnessing the wave power, a variety of solutions has been proposed. Cheap and reliable desalinization technology such as one described in the Economist article could be […]
• Solar Energy Selling Framework The list of actions to complete the required activity goes in the following sequence: planning actions, sales pitch itself, and reflection. The actions, aimed at doing are the four stages of a sales pitch, that […]
• Renewable Energy Resources in Qatar The topicality of the problem is evidenced by current trends favoring the use of renewable energy resources and the necessity to avoid further deterioration of the situation in this sphere.
• The Solar Energy and Photovoltaic Effect The key difference factor of the solar cells is the material and technology that is used. Photon behavior in a solar cell is defined by the materials used and the construction of the cell itself.
• Solar Energy: Commercial and Industrial Power Source This is made further possible by the inspirational circulars related to the application of more solar energy in the state. This is one of the major participations that came in to the notice.
• Conceptual Chemistry. Wind Turbine vs. Coal Energy The current paper is aimed at considering and comparing traditional coal energy and the newly popular wind turbine energy in the context of their costs and environmental benefits.
• Solar Energy and Its Impact on Society He believed that the wheel was the extension of our feet, the hammer was an extension of our hands, and technology is the extension of our mind and mentality.
• Bismuth Vanadate Photocatalyst for Solar Energy 20 In the scheelite BiVO4, it is possible to find out a hybridized band structure with Bi 6s and O 2p orbitals.
• Renewable Energy and Politics Relationships The global regimes concerned with energy use and distribution call on states to stick to commerce when dealing with energy matters instead of mixing it with politics, but it seems the pleas are ignored given […]
• Solar Energy Power Plant & Utility Supply Contract The first assumption from the case above is that the advisement by SEPP to the US not to provide EEC certificates was made orally and was came after the contract had been signed.
• Renewable Energy in Saudi Arabia, Qatar and the UAE Adoption of solar power technologies would be extremely beneficial to Gulf countries, and it will help to address most of the issues related to resource shortages.
• Solar Energy Industry in the UAE The UAE International Investors Council insists that the sustainable use of the available financial resources, particularly, FDI, should be viewed as the foundation for enhancing the development of the state industries, especially as far as […]
• Biofuel: Renewable Energy Type The purpose of this essay is to discuss this statement and evaluate its accuracy in accordance to the latest studies, as well as the pros and cons of biofuel in general.
• Wind Energy Feasibility in Russia In Russia, feasibility studies have been conducted to establish the viability of wind turbine projects. In conjunction with the problem statement above, the following aims have been formulated: To use the available and relevant data […]
• Innergex Renewable Energy Inc. at Canada’s Market The company’s mission is to expand the renewable energy production through the development and operation of their high-quality facilities, considering the need to preserve the environment and the necessity to balance the interests of the […]
• Google’s Driverless Cars and Renewable Energy Some of the firms are testing the technology with the application of low-powered green energy. The violations of the road regulations are not the only issue with the driverless car technology.
• Solar Energy: Definition and Ways of Usage Observers believe that the energy from the sun has the potential to satisfy the world’s energy requirements. Energy from the solar is free, and we can never deplete solar energy.
• Solar Energy Panels in UAE This report will examine the future of solar energy and the incentive schemes that can be put in place to develop the United Arab Emirates solar energy industry.
• Wind Power as an Alternative Energy Source Wind energy is a renewable source of energy that is an alternative to fossil fuel use, which is necessary for the conservation of the environment.
• Environmental Issues for Managers: UK’s Current Strategy on Renewable Energy & Technologies The renewable energy strategy of the UK entails escalating the utilization of micro-generation and lessening energy wastage. Barriers to Adoption of Renewable Energy and Technologies The main barriers to adoption of renewable technology in the […]
• Solar & Wind Sources: Hybrid Energy System Of the Australian capital cities, Darwin, Australia is the smallest and is located in the north-most part of the country. The following is the analysis of the factors to be considered.
• The Cost Efficiency of Renewable Energy The mentioned benefits as well as other objectives are the reasons why departments of energy around the globe highlight on the generation of electricity from the renewable sources.
• Legal and Political Factors of Renewable Energy Development To overcome these barriers the government has put in place various regulations and policies to facilitate the development of renewable energy.
• Environment and Renewable Energy A greater focus on renewable energy development is necessary in this day and age due to the various problems brought about by the use of fossil fueled power plants, which have caused not only an […]
• Technological Factors of Renewable Energy Development There are three reasons behind this: Renewable energy resources from a commercial energy standpoint are as of yet an unproven method of reliable energy production The means by which renewable energy is produced requires a […]
• Social Background of Renewable Energy Development According to Craddock, although some people believe that the development of renewable sources of energy is driven by the economic needs, the social force also plays an important role in increasing popularity of this form […]
• Economic Factors of Renewable Energy Development There has been a consistent increase in the price of a barrel of oil in the world market over the last fifty years.
• Producing and Transmitting Renewable Energy Complexity in producing and transmitting renewable energy is multifaceted and may be related to many factors, which hinder production and transmission of renewable energy to users.
• Renewable Energy Policies in Thailand Craddock defines renewable energy policies as “Regulations or incentives that are created to encourage the use of renewable energy, and the main purpose of these policies is to increase the production of renewable energy”.
• Solar Energy Houses’ Benefits In the same breadth, another advantage of the solar energy houses is that they reduce the emission of carbon dioxide through other processes.
• Is Renewable Energy a Viable Option? One of the most critical questions that majorities ask and the main hurdle to renewable energy is whether renewable energy can ever efficiently become a viable energy option relative to the traditional, ready available sources […]
• Economics of Renewable Energy This form of renewable energy has proven to be the best in the industrial sector. This means that the society has to look beyond the use of non renewable energy.
• Renewable Energy: Wind Generating Plant for the Local Community The financial department will deal with all the financial aspects of the project, while marketing department will handle the marketing of the energy source in the society.
• Usage of Renewable Energy in Saudi Arabia Energy system stability for the year 2010 In the Table, the Potential for adopting CSP in the Kingdom for the year 2010 rated 124,560 TWh and has a capacity credit of 90%.
• Wind-Based Energy Market The energy department in the U.S.has been able to discover and point a number of challenges and problems in the development of wind energy.
• Solar Energy in the UAE It is important to note that the nature of the solar field is modular, and that it has a number of parallel solar collector rows.
• Solar Energy Business Model Based in Melbourne Competitiveness The concentration of solar energy consultancy industry Industry concentration is a term used to define the measure of the number of organizations as well as the size of the organizations, which are considered predominant […]
• Abu Dhabi Wind Energy The report covers energy crisis in Abu Dhabi, wind energy as a potential source of renewable energy for Abu Dhabi, and recommendations.
• Wind Energy for Environmental Sustainability Production of this energy is important to the survival and enhancement of lives of people in a society. It refers to the role of that business or a corporate towards the society.
• Advantages and Disadvantages of Wind Energy Another advantage is the fact that most of the turbines that are used in the generation of wind power are located in ranches, and on farms.
• Making Solar Energy More Affordable The use of solar energy can be critical for environmental and economic sustainability of many communities that can be located in different regions of the world.
• Renewable Energy Sources Summary Solar energy, wind energy, tidal energy and geothermal energy are the main renewable sources of energy. In an analysis of 2005 energy sources, it is evident that nuclear energy was the dominant energy source followed […]
• Wind Energy, Its Advantages and Disadvantages Reliable sources of energy need to be renewable; they include wind energy, solar energy and hydro-energy; wind energy is a dependable source of energy although it remains the least used among the available renewable sources […]
• Renewable Energy Co: Engineering Economics and TOP Perspectives of Renewable Energy in Canada The beginning of the twenty-first century reflects the concerns of people about the sources of energy, lack of power supply, and importance of reconsidering values and sources of energy that have been established in the […]
• Solving the Climate Change Crisis Through Development of Renewable Energy Thus, the threats of the climate change can be overcome with references to resolving the economic crisis with the help of orientation to the new sources of renewable energy, which can be discussed as beneficial […]
• Can a Switch to Renewable Energy Sources Help Combat Global Warming? This paper will argue that since fossil fuels have been the primary contributors to the global warming problem, a switch to renewable energy sources will help to mitigate global warming and possibly even reverse the […]
• Wind and Solar Energy as a Sources of Alternative Energy Fthenakis, Mason and Zweibel also examined the economical, geographical and technical viability of solar power to supplement the energy requirements of the U.S.and concluded that it was possible to substitute the current fossil fuel energy […]
• Wind Energy: The Use of Wind Turbines One of the most promising is wind energy, specifically the use of wind turbines to produce clean and renewable energy. The only problem is that it is more expensive to build large wind turbines.
• New Techniques for Harnessing Solar Energy Due to the scarcity of fossil fuels and the expenses incurred in the mining of fossil fuels, it is important that we find a new source of energy to fulfill the energy needs of the […]
• Is Solar Energy Good for the State of New Jersey? The state of the New Jersey is second to California in terms of the use of solar energy. As people are waking up to the reality that the limited world’s resources are increasingly being depleted, […]
• The Use of Solar Energy Should be Adopted in All States in the U.S. The emphasis on renewable sources of energy has been enhanced by the fact that the limited world’s resources are increasingly being depleted; thus, the states have adopted the use of solar energy so as to […]
• What Energy Is Renewable?
• What Is the Cleanest Renewable Energy Source?
• How Does Renewable Energy Work?
• What Are the Types of Renewable Resources?
• Is Renewable Energy Healthy?
• What Are the Benefits of Renewable Energy?
• What Are the Cons of Renewable Energy?
• What Is the Most Powerful Renewable Energy?
• What Affects the Development of Renewable Energy Power Generation Projects in China?
• Can the World Be Powered Fully by Renewable Energy?
• How Safe Is Renewable Energy?
• Why Is Renewable Energy Not Popular?
• What Are the Most Renewable Energy Sources?
• How Renewable Energy Can Change the World?
• What Drives Renewable Energy Development?
• What Role Can Renewable Energy Play for North Africa and the Middle East?
• How Does Renewable Energy Impact Carbon Emissions?
• What Will the Situation for Renewable Energy in Europe Be in 2030?
• What Is the Main Problem With Renewable Energy?
• How Efficient Is Renewable Energy?
• Can Renewable Energy Be Overused?
• Why 100% Renewable Is Not Possible?
• Which Country Has Highest Renewable Energy?
• What Are the Effects of Renewable Energy?
• What Is the Safest Energy Source?
• Water Issues Research Ideas
• Global Warming Essay Titles
• Ecosystem Essay Topics
• Biodiversity Research Topics
• Green Building Questions
• Electric Vehicle Paper Topics
• Environmental Protection Titles
• Greenhouse Gases Research Ideas
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• 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.

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.

Related Topics

• SUSTAINABILITY
• RENEWABLE ENERGY
• GEOTHERMAL ENERGY
• SOLAR POWER
• HYDROELECTRIC POWER
• CLIMATE CHANGE

5 environmental victories from 2021 that offer hope

Activists fear a new threat to biodiversity—renewable energy

How the Ukraine war is accelerating Germany's renewable energy transition

3 ways COVID-19 is making us rethink energy and emissions

Let’s not waste this crucial moment: We need to stop abusing the planet

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Essay on Renewable Energy

Introduction to Renewable Energy

In the quest for a sustainable and environmentally conscious future, adopting renewable energy has emerged as a pivotal solution to mitigate the challenges posed by traditional fossil fuels. Take, for instance, the remarkable growth of solar power in countries like Germany, where the “Energiewende” policy has catapulted them to the forefront of green energy innovation. This transformative journey showcases the potential of harnessing solar energy as an alternative and a cornerstone for economic prosperity, reduced carbon emissions, and heightened energy security. As we delve into the world of renewable energy, it becomes evident that these innovations are key to shaping a cleaner, more resilient global energy landscape.

Importance of Transitioning to Renewable Sources

A sustainable future and resolving numerous global issues depend heavily on the switch to renewable energy sources. This shift is crucial for several reasons:

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• Environmental Preservation: Fossil fuel combustion contributes significantly to air and water pollution and climate change. Transitioning to renewables reduces greenhouse gas emissions, mitigates environmental degradation, and helps preserve ecosystems.
• Climate Change Mitigation: Renewable energy is a key player in mitigating climate change . Reducing greenhouse gas emissions, including carbon dioxide, is crucial to prevent catastrophic outcomes such as extreme weather events and rising sea levels.
• Energy Security: Wind and solar power, as renewable energy sources, provide a diverse and decentralized energy supply. This reduces dependence on finite and geopolitically sensitive fossil fuel reserves, enhancing energy security and resilience.
• Economic Opportunities: The renewable energy sector fosters job creation and economic growth. Investments in clean energy technologies stimulate innovation, create employment opportunities, and contribute to developing a robust and sustainable economy.
• Public Health Improvement: Transitioning away from fossil fuels decreases the release of harmful pollutants, leading to improved air and water quality. This, in turn, positively impacts public health by reducing respiratory illnesses and other pollution-related diseases.
• Resource Conservation: Unlike finite fossil fuel reserves, renewable sources are inherently sustainable and inexhaustible. By harnessing the power of sunlight, wind, water, and geothermal heat, societies can meet their energy needs without depleting limited natural resources.
• Technological Advancements: The transition to renewables drives innovation and technological advancements. Research and development in clean energy technologies contribute to a cleaner environment and the advancement of scientific knowledge and industrial capabilities.
• Global Cooperation: The shift to renewable energy encourages international collaboration to address shared challenges. Collaborative efforts in research, development, and the adoption of clean energy technologies can foster diplomatic ties and strengthen global cooperation.

Types of Renewable Energy

Sources naturally replenished on a human timescale, making them sustainable and environmentally friendly, derive renewable energy. Listed below are the main types of renewable energy:

• Solar Power: While solar thermal systems use sunshine to heat a fluid that produces steam to power turbines, photovoltaic cells use sunlight to convert light into energy.
• Wind Energy: Wind turbines are machines that use the wind’s kinetic energy to generate electricity through wind energy. When the wind rotates the turbine blades, a generator transforms that rotational energy into electrical energy. Onshore or offshore locations often host wind farms.
• Hydropower: Hydropower produces electricity by harnessing the energy of flowing water. Run-of-river systems divert a portion of a river’s flow, while dam-based hydropower involves the controlled release of stored water through turbines to generate power.
• Biomass Energy: Organic materials like wood, agricultural waste, and agricultural residues produce biomass energy. Biomass can produce heat, electricity, and biofuels through combustion or anaerobic digestion, offering a versatile energy source.
• Geothermal Energy: Geothermal energy taps into the Earth’s internal heat by harnessing steam or hot water beneath the Earth’s surface. Geothermal power plants convert this thermal energy into electricity, providing a consistent and reliable power source.
• Tidal Energy: Tidal energy harnesses the moon’s and sun’s gravitational pull to create electricity as the tides rise and fall. Utilizing underwater turbines allows tidal stream devices to capture the energy of the water’s flow.
• Wave Energy: Wave energy captures the motion of ocean waves to generate electricity. Wave energy converters, including point absorbers and oscillating water columns, convert waves’ up and down motion into usable power.
• Hydrogen Energy: Hydrogen, often considered a carrier of energy, can be produced through electrolysis using renewable electricity. It is a clean fuel for various applications, including transportation and industrial processes, emitting only water vapor when used.

Technological advancements

Technological breakthroughs have shaped the modern world, revolutionizing industries and elevating people’s standard of living. Several key areas highlight the profound impact of technology on society:

• Information Technology (IT): The evolution of IT has transformed communication, information access, and business operations. The development of the Internet, cloud computing , and mobile technologies has facilitated instantaneous global communication, d ata storage , and access to vast amounts of information.
• Artificial Intelligence & Machine Learning: AI and ML have ushered in a new era of automation and decision-making capabilities. From autonomous vehicles to predictive analytics in healthcare, these technologies continue to enhance efficiency, accuracy, and problem-solving across various industries.
• Biotechnology: Advances in biotechnology have revolutionized healthcare, agriculture, and environmental conservation. Gene editing tools like CRISPR-Cas9 offer unprecedented possibilities in treating genetic disorders, while biotech applications in agriculture improve crop yield and resilience.
• Renewable Energy Technologies: Clean energy generation is now more economical and efficient thanks to renewable energy technology, including energy storage systems, wind turbines, and solar panels. These innovations are pivotal in addressing environmental challenges and promoting sustainable practices.
• Nanotechnology: Nanotechnology manipulates materials at the atomic or molecular level. Nanotechnology has transformed the fields of materials science, electronics, and medicine. As a result, scientists have created sophisticated materials with unique qualities, developed more compact and potent electrical devices, and improved medication delivery methods.
• 3D Printing: Layer-by-layer construction of three-dimensional items is possible with additive manufacturing, also known as 3D printing. This technology utilizes diverse applications, from prototyping and manufacturing to healthcare, producing custom implants and prosthetics.
• Blockchain Technology: The decentralized and secure ledger technology known as blockchain powers cryptocurrencies such as Bitcoin . Beyond finance, it finds applications in supply chain management , voting systems, and ensuring the integrity and transparency of various processes.
• Quantum Computing: Using the ideas of quantum mechanics, quantum computing can execute intricate calculations at a pace impossible for conventional computers. This can potentially revolutionize fields such as cryptography, optimization problems, and drug discovery.
• Internet of Things (IoT): The technology known as the Internet of Things (IoT) enables commonplace objects to be linked to the Internet and gather and share data. This interconnectedness enhances efficiency in smart homes, cities, and industries, optimizing resource utilization and overall productivity.
• Augmented and Virtual Reality (AR/VR): AR and VR technologies immerse users in virtual or augmented environments, transforming experiences in fields like gaming, education, healthcare, and training simulations.

Challenges and Solutions

Addressing the challenges posed by technological advancements, societal changes, and global issues requires proactive strategies and innovative solutions. Here are some main challenges and possible solutions:

• Cybersecurity Threats:
• Challenge: Due to the growing interconnectivity of systems and the dependence on digital technology, individuals and organizations are more vulnerable to cyber threats such as ransomware attacks and data breaches.
• Solution: Implementing robust cybersecurity measures, regular updates, and user education can help mitigate cyber risks. Collaboration between governments, industries, and cybersecurity experts is crucial for developing effective strategies.
• Privacy Concerns:
• Challenge: The collection and utilization of personal data by companies and governments raise concerns about privacy infringement.
• Solution: Implemented to safeguard people’s privacy rights, GDPR (the General Data Protection Regulation) and other stricter laws and policies exist. Innovations like privacy-enhancing technologies and decentralized identity solutions offer alternative approaches.
• Job Displacement Due to Automation:
• Challenge: Automation and artificial intelligence technologies can lead to job displacement and economic inequality.
• Solution: Reskilling and upskilling programs and focusing on education in emerging fields can prepare the workforce for the changing job landscape. Social policies like universal basic income (UBI) may provide a safety net during transitions.
• Environmental Degradation:
• Challenge: Industrial activities and resource exploitation contribute to environmental degradation, climate change, and biodiversity loss.
• Solution: Sustainable practices, renewable energy adoption, and circular economy principles can mitigate environmental impact. International cooperation and stringent environmental regulations also play a crucial role.
• Ethical Concerns in AI:
• Challenge: Ethical issues surrounding artificial intelligence include biased algorithms, lack of transparency, and potential misuse.
• Solution: Implementing ethical guidelines and standards for AI development, promoting transparency in algorithms, and fostering interdisciplinary collaboration on AI ethics can help address these concerns.
• Healthcare Access Disparities:
• Challenge: Access to quality healthcare is unique globally, with disparities exacerbated by factors such as geography and socioeconomic status.
• Solution: Telemedicine, mobile health applications, and innovative healthcare delivery models can improve access. International collaborations and investment in healthcare infrastructure can reduce disparities.
• Digital Inequality:
• Challenge: Not everyone has equal access to digital technologies, leading to disparities in education, economic opportunities, and social inclusion.
• Solution: Initiatives focusing on digital literacy, affordable internet access, and technology inclusion programs can bridge the digital divide. Governments and organizations can also invest in infrastructure to expand connectivity.
• Global Public Health Crises:
• Challenge: Events like pandemics can strain healthcare systems, disrupt economies, and create social upheaval.
• Solution: Preparedness plans, early warning systems, and international cooperation in research and resource allocation are crucial. Advances in biotechnology and data analytics can aid in swift responses.
• Ethical Use of Biotechnology:
• Challenge: Biotechnological advancements like gene editing raise ethical concerns about human enhancement and unintended consequences.
• Solution: Robust ethical frameworks, public engagement, and interdisciplinary dialogues involving ethicists, scientists, and policymakers can guide responsible biotechnological development.
• Energy Transition Challenges:
• Challenge: Shifting from traditional to renewable energy sources faces infrastructure, economic viability, and societal acceptance challenges.
• Solution: Government incentives, public awareness campaigns, and investment in research and development can accelerate the transition. Community involvement and stakeholder engagement are critical for successful adoption.

Global Initiatives and Policies

Global initiatives and policies play a pivotal role in shaping the trajectory of technological, economic, and environmental progress. These initiatives often reflect the collective effort of nations to address shared challenges and promote cooperation in various domains. Here are some notable global initiatives and policies:

• Paris Agreement: Global leaders reached a global agreement to keep the rise in temperature to less than 2°C above pre-industrial levels. Nations aim to enhance climate resilience while reducing greenhouse gas emissions.
• United Nations Sustainable Development Goals (SDGs): The 17 goals address global issues, including poverty, inequality, and environmental sustainability. Goal 7 targets explicitly affordable and clean energy, promoting the transition to renewable sources.
• IRENA(International Renewable Energy Agency): An intergovernmental organization promoting the widespread use of renewable energy. IRENA facilitates cooperation among nations, provides policy advice, and supports capacity building for renewable energy projects.
• Clean Energy Ministerial (CEM): A forum bringing together energy ministers from various nations to promote clean energy policies, share best practices, and collaborate on initiatives to advance the global transition to low-carbon technologies.
• Mission Innovation: A global initiative involving 24 countries and the European Union, committed to doubling public investment in clean energy research and development over five years. It aims to accelerate innovation and make clean energy more affordable.
• European Green Deal: An ambitious EU policy framework aiming for climate neutrality by 2050. It describes plans to lower greenhouse gas emissions, support renewable energy, and completely revamp the European economy.
• Renewable Energy Policies at National Levels: Many countries have established specific policies and targets to promote renewable energy adoption. Examples include Germany’s Energiewende, India’s National Solar Mission, and China’s commitment to peak carbon emissions by 2030.
• Power Africa: An initiative by the U.S. government to increase access to electricity in sub-Saharan Africa. Its main objectives are to encourage investment in the region’s power sector and to facilitate the development of renewable energy projects.
• Global Geothermal Alliance: Launched at COP21, the alliance promotes geothermal energy deployment worldwide. It encourages collaboration between governments, development partners, and the private sector to harness the potential of geothermal resources.
• ESMAP (World Bank’s Energy Sector Management Assistance Program): ESMAP supports developing countries in building sustainable energy systems. It provides technical assistance, policy advice, and financial support for projects promoting renewable energy and energy efficiency.

Case Studies

• Germany’s Energiewende: Germany’s ambitious energy transition, known as Energiewende, aims to shift from conventional energy sources to renewable energy. The country has made significant investments in wind and solar energy, enacted energy-saving measures, and plans to phase out nuclear power. The Energiewende case study exemplifies the integration of renewables into the energy mix and the challenges of maintaining grid balance during this transition.
• China’s Renewable Energy Expansion: China has become a global leader in renewable energy deployment. The country has significantly invested in wind and solar energy projects, increasing capacity. The case study explores China’s policy incentives, market dynamics, and technological advancements that have facilitated its rapid expansion in the renewable energy sector.
• Denmark’s Wind Power Success: Denmark has been a pioneer in wind energy, with wind power contributing significantly to its electricity generation. The case study delves into Denmark’s wind energy policies, including favorable regulatory frameworks, community engagement, and advancements in wind turbine technology. It highlights the economic and environmental benefits of widespread wind power adoption.
• California’s Renewable Energy Leadership: In the US, California has used renewable energy. The state’s case study examines its aggressive renewable portfolio standards, innovative policies promoting solar power, and the role of technology companies in driving clean energy initiatives. California’s experience demonstrates the potential for subnational entities to lead in renewable energy transitions.
• Rural Electrification in India through Solar Power: India’s case study focuses on rural electrification efforts using solar power. Initiatives like the National Solar Mission and off-grid solar projects have brought electricity to remote areas, transforming lives and fostering economic development. The study explores the challenges faced and lessons learned in scaling up solar energy access in a diverse and populous country.
• Costa Rica’s Renewable Energy Achievement: Costa Rica stands out for achieving high levels of renewable energy generation, primarily from hydropower, wind, and geothermal sources. The case study examines the country’s commitment to environmental sustainability, policies promoting clean energy, and the role of hydropower in maintaining a reliable and renewable energy supply.
• South Australia’s Grid Transformation: South Australia’s case study illustrates its transition to a renewable energy-dominant grid. The state has faced challenges related to grid stability and intermittency but has also demonstrated successful integration of wind and solar power. The study delves into the policy measures, technological solutions, and lessons learned in South Australia’s journey toward a low-carbon energy system.
• Morocco’s Concentrated Solar Power Project: Morocco’s case study focuses on the Noor Ouarzazate Solar Complex, one of the world’s most significant concentrated solar power projects. The initiative aims to harness solar energy for electricity generation, reduce dependence on fossil fuels, and contribute to national energy security. The study explores the project’s technological innovations, financing models, and the impact on Morocco’s energy landscape.

Future Prospects

The future of energy holds exciting possibilities as technological advancements and evolving societal priorities shape the landscape. Several key prospects are likely to influence the trajectory of the global energy sector:

• Emerging Technologies: Ongoing research and development in renewable energy technologies will likely yield breakthroughs in efficiency, cost-effectiveness, and energy storage. Innovations such as advanced solar cells, next-generation wind turbines, and novel energy storage solutions will be crucial in shaping the future energy landscape.
• Tidal and Wave Energy: Tidal and wave energy, largely untapped at present, hold significant potential for sustainable power generation. As technologies mature, harnessing the kinetic energy of ocean tides and waves could contribute to a more diverse and reliable renewable energy mix.
• Advanced Solar Technologies: Continued advancements in solar technologies, including thin-film solar cells, tandem solar cells, and solar paint, are anticipated. These innovations aim to enhance the efficiency of solar energy capture and broaden its applications across various industries.
• Integration into Various Sectors: One of the most important aspects of the energy landscape of the future is integrating renewable energy into various sectors, including industrial processes and transportation. Electric vehicles, green hydrogen production, and sustainable manufacturing will likely gain prominence.
• Energy Transition in Developing Countries: A significant role in the global energy transition is expected to be played by developing countries. International collaborations, financial support, and technology transfer will empower these nations to leapfrog traditional fossil fuel-dependent phases of development and embrace cleaner energy solutions.
• Smart Grids and Energy Storage: Deploying smart power grids, in conjunction with advanced energy storage solutions, will simplify the integration of renewable energy resources in existing power systems. Battery technologies, grid-scale storage, and demand-response mechanisms will enhance grid reliability and flexibility.
• Decentralized Energy Systems: Decentralized energy systems, such as community microgrids and distributed energy resources, will likely become more prevalent. These systems empower communities to generate, store, and manage their energy locally, promoting resilience and energy independence.
• Circular Economy in Energy: The adoption of circular economy principles in the energy sector will gain traction, emphasizing resource efficiency, recycling, and waste reduction. This strategy seeks to mitigate the harmful consequences of energy production and consumption on nature.
• Policy and Regulatory Shifts: Governments worldwide are expected to implement more ambitious policies and regulations to accelerate the transition to renewable energy. Carbon pricing, renewable energy mandates, and incentives for sustainable practices will shape the regulatory environment.
• Global Collaboration: International cooperation and collaboration will be crucial for addressing global energy challenges. Shared research initiatives, technology transfer, and joint efforts to combat climate change will foster a collective approach to building a sustainable energy future.

The global shift towards renewable energy is pivotal in fostering a sustainable future. The imperative to mitigate climate change, ensure energy security, and promote economic prosperity underscores the significance of embracing clean technologies. The trajectory towards a low-carbon energy landscape becomes increasingly tangible as nations unite in initiatives like the Paris Agreement and implement robust policies. The successes of case studies from Germany to China demonstrate the feasibility and benefits of renewable energy adoption. By continuing to innovate, invest, and collaborate, humanity can unlock the full potential of renewable sources, ensuring a resilient and environmentally responsible energy paradigm for generations to come.

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renewable energy

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• U.S. Energy Information Administration - Energy Kids - Energy Sources - Renewable
• Natural Resources Defense Council - Renewable Energy: The Clean Facts
• Energy.gov - Renewable Energy
• United Nations - What is renewable energy?
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• alternative energy - Children's Encyclopedia (Ages 8-11)
• alternative energy - Student Encyclopedia (Ages 11 and up)

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renewable energy , usable energy derived from replenishable sources such as the Sun ( solar energy ), wind ( wind power ), rivers ( hydroelectric power ), hot springs ( geothermal energy ), tides ( tidal power ), and biomass ( biofuels ).

At the beginning of the 21st century, about 80 percent of the world’s energy supply was derived from fossil fuels such as coal , petroleum , and natural gas . Fossil fuels are finite resources; most estimates suggest that the proven reserves of oil are large enough to meet global demand at least until the middle of the 21st century. Fossil fuel combustion has a number of negative environmental consequences. Fossil-fueled power plants emit air pollutants such as sulfur dioxide , particulate matter , nitrogen oxides, and toxic chemicals (heavy metals: mercury , chromium , and arsenic ), and mobile sources, such as fossil-fueled vehicles, emit nitrogen oxides, carbon monoxide , and particulate matter. Exposure to these pollutants can cause heart disease , asthma , and other human health problems. In addition, emissions from fossil fuel combustion are responsible for acid rain , which has led to the acidification of many lakes and consequent damage to aquatic life, leaf damage in many forests, and the production of smog in or near many urban areas. Furthermore, the burning of fossil fuels releases carbon dioxide (CO 2 ), one of the main greenhouse gases that cause global warming .

In contrast, renewable energy sources accounted for nearly 20 percent of global energy consumption at the beginning of the 21st century, largely from traditional uses of biomass such as wood for heating and cooking . By 2015 about 16 percent of the world’s total electricity came from large hydroelectric power plants, whereas other types of renewable energy (such as solar, wind, and geothermal) accounted for 6 percent of total electricity generation. Some energy analysts consider nuclear power to be a form of renewable energy because of its low carbon emissions; nuclear power generated 10.6 percent of the world’s electricity in 2015.

Growth in wind power exceeded 20 percent and photovoltaics grew at 30 percent annually in the 1990s, and renewable energy technologies continued to expand throughout the early 21st century. Between 2001 and 2017 world total installed wind power capacity increased by a factor of 22, growing from 23,900 to 539,581 megawatts. Photovoltaic capacity also expanded, increasing by 50 percent in 2016 alone. The European Union (EU), which produced an estimated 6.38 percent of its energy from renewable sources in 2005, adopted a goal in 2007 to raise that figure to 20 percent by 2020. By 2016 some 17 percent of the EU’s energy came from renewable sources. The goal also included plans to cut emissions of carbon dioxide by 20 percent and to ensure that 10 percent of all fuel consumption comes from biofuels . The EU was well on its way to achieving those targets by 2017. Between 1990 and 2016 the countries of the EU reduced carbon emissions by 23 percent and increased biofuel production to 5.5 percent of all fuels consumed in the region. In the United States numerous states have responded to concerns over climate change and reliance on imported fossil fuels by setting goals to increase renewable energy over time. For example, California required its major utility companies to produce 20 percent of their electricity from renewable sources by 2010, and by the end of that year California utilities were within 1 percent of the goal. In 2008 California increased this requirement to 33 percent by 2020, and in 2017 the state further increased its renewable-use target to 50 percent by 2030.

Solar Energy Essay

500 words essay on solar energy.

Solar energy is the energy which the earth receives from the sun which converts into thermal or electrical energy. Moreover, solar energy influences the climate of the earth and weather to sustain life. It has great potential which we must use to our advantage fully. Through the solar energy essay, we will look at this in detail and know more about it carefully.

Importance of Solar Energy

Solar energy is very important as it is a clean and renewable source of energy. Thus, this means it will not damage the earth in any way. In addition, it is available on a daily basis. Similarly, it does not cause any kind of pollution.

As it is environment-friendly, it is very important in today’s world. It is so much better than other pollution sources of energies like fossil fuels and more. Further, it has low maintenance costs.

Solar panel systems do not require a lot of solar power energy. Moreover, they come with 5-10 years of warranty which is very beneficial. Most importantly, it reduces the cost of electricity bills.

In other words, we use it mostly for cooking and heating up our homes. Thus, it drops the utility bills cost and helps us save some extra money. Further, solar energy also has many possible applications.

A lot of communities and villages make use of solar energy to power their homes, offices and more. Further, we can use it in areas where there is no access to a power grid. For instance, distilling the water is Africa and powering the satellites in space.

Get the huge list of more than 500 Essay Topics and Ideas

Uses of Solar Energy

In today’s world, we use solar energy for a lot of things. Firstly, we use solar power for many things as small as calculators to as big as power plants which power the entire city. We use the most common solar power for small things.

For instance, many calculators use solar cells to operate, thus they never run out of batteries. Moreover, we also have some watches which run on solar cells. Similarly, there are also radios which run on solar cells.

Thus, you see so many things run on solar power. All satellites run on solar power otherwise they won’t be able to function. Moreover, large desalinization plants make use of solar power if there is little or no freshwater.

In addition, many countries have solar furnaces. We also use solar power commercially and residentially. You will find its uses in transportation service too. In fact, soon, solar powers will also be out on the streets.

Conclusion of Solar Energy Essay

To sum it up, solar energy is a cost-effective means of energy which is quite useful for people that have huge families. When we install solar panels, we can get solar energy which will reduce electricity costs and allow us to lead a sustainable lifestyle. Thus, we must all try to use it well to our advantage.

FAQ of Solar Energy Essay

Question 1: What is solar energy in simple words?

Answer 1: Solar energy is basically the transformation of heat, the energy which is derived from the sun. We have been using it for thousands of years in numerous different ways all over the world. The oldest uses of solar energy are for heating, cooking, and drying.

Question 2: What are the advantages of solar energy?

Answer 2: There are many advantages of solar energy. Firstly, it is a renewable source of energy which makes it healthy. Moreover, it also reduces the electricity bills of ours. After that, we can also use it for diverse applications. Further, it also has low maintenance costs.

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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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Essay on Sources of Energy

Students are often asked to write an essay on Sources of Energy in their schools and colleges. And if you’re also looking for the same, we have created 100-word, 250-word, and 500-word essays on the topic.

Let’s take a look…

100 Words Essay on Sources of Energy

Introduction.

Energy is vital for our daily life. It powers our homes, schools, and cities. Energy comes from different sources, mainly classified into two categories: renewable and non-renewable.

Non-Renewable Energy

Non-renewable energy comes from sources that will run out or will not be replenished in our lifetimes. Examples include oil, natural gas, and coal. These sources are often used to generate electricity.

Renewable Energy

Renewable energy is from sources that never run out or are replenished quickly. Sunlight, wind, water, and geothermal heat are examples. These sources are environmentally friendly but require technology to harness.

Understanding energy sources helps us make informed choices. It’s important to support renewable energy for a sustainable future.

250 Words Essay on Sources of Energy

Energy is the driving force behind all natural and artificial phenomena. It is an indispensable resource in our daily lives, powering our homes, industries, and transportation. The sources of energy can be broadly classified into two categories: renewable and non-renewable.

Non-renewable Energy Sources

Non-renewable energy sources are finite and will eventually deplete. They include fossil fuels such as coal, oil, and natural gas. These energy sources are primarily used for electricity generation and transportation. However, their usage results in harmful environmental impacts, including air pollution and climate change, due to the emission of greenhouse gases.

Renewable Energy Sources

Renewable energy sources, on the other hand, are inexhaustible and can be replenished naturally. They include solar, wind, hydro, geothermal, and biomass energy. Solar energy, harnessed through photovoltaic cells, is a clean and abundant source. Wind energy, captured by wind turbines, is another potent source, especially in coastal and high-altitude regions.

Hydro energy, derived from the kinetic energy of flowing or falling water, is a dominant renewable source, while geothermal energy, obtained from the Earth’s internal heat, is reliable and consistent. Biomass energy, generated from organic materials, can be a sustainable option if managed responsibly.

The transition from non-renewable to renewable energy sources is crucial for sustainable development. While non-renewable sources have been the backbone of our energy infrastructure, their environmental impacts necessitate a shift towards cleaner, renewable sources. This transition is not only an environmental imperative but also an opportunity for economic growth and energy security.

500 Words Essay on Sources of Energy

Non-renewable energy sources.

Non-renewable energy sources are those that do not replenish in a short time. They include fossil fuels such as coal, oil, and natural gas. These energy sources are formed over millions of years from the remains of plants and animals. They are finite and their extraction and use lead to environmental pollution.

Coal, for instance, is used to generate electricity and in industrial processes requiring heat. Its extraction, however, often leads to environmental degradation and health hazards. Oil is used in transportation and manufacturing, but its extraction can lead to oil spills causing severe environmental damage. Natural gas, although cleaner than coal and oil, is still a major contributor to greenhouse gas emissions.

Solar energy harnesses the power of the sun and converts it into electricity. It’s a clean, abundant source of energy, but its efficiency is affected by weather conditions and geographical location. Wind energy converts the kinetic energy of wind into electricity. It’s a clean and renewable source, but its effectiveness is dependent on wind speed and direction.

Hydropower uses the energy of flowing or falling water to generate electricity. It’s renewable and produces a significant amount of electricity, but it can disrupt aquatic ecosystems and requires significant infrastructure. Geothermal energy harnesses the heat from the earth’s crust to generate electricity. It’s a reliable and constant source of energy but its extraction can cause land instability.

The world’s energy needs are diverse and complex. Non-renewable energy sources have been the mainstay of our energy systems, but their environmental impact and finite nature necessitate a shift towards renewable energy sources. However, these too have their challenges. The future of energy therefore lies in a balanced mix of different energy sources, improved energy efficiency, and technological innovations that mitigate the downsides of each source. As we move towards a sustainable future, the understanding and exploration of these energy sources become more crucial than ever.

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A mathematical model of an off-grid hybrid energy system utilizing the reversible solid oxide fuel cell

• Buchaniec, S.
• Kimijima, S.
• Moździerz, M.

The current energy transition focuses on decentralizing energy systems by implementing alternative energy sources. Integrating distributed energy sources into functional hybrid energy systems has proven to be a difficult task. To solve this problem, it is important to conduct an in-depth analysis of the energy system through the preparation of a mathematical model. The study aims to model and simulate the operation of an off-grid self-sustainable energy storage system for single-family household use by utilizing solid oxide technology. The proposed system consists of photovoltaic modules and an energy storage system including batteries, reversible solid oxide fuel cells, and hydrogen storage tanks. To integrate these energy resources into one system, an energy management system, in which the solid oxide stack is used as a backup generator or a hydrogen production device, is implemented. Finally, a numerical simulation of the system's operation is run to estimate the system's performance over a one-year time period. The prepared model can find many practical applications, such as optimizing system costs, environmental impact, or the energy management system.