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Renewable Energy Dissertation Topics

Published by Carmen Troy at January 5th, 2023 , Revised On May 16, 2024

Renewable energy refers to sustainable energy that can be constantly replenished. These energy sources include solar energy, wind energy, and thermal energy, which are naturally replenishing. In simple words, renewable energy is the energy extracted from natural sources.

Renewable energy has become the need of the hour and has potential repercussions on the climate. While many used to claim in the past that the emergency of climate change was false, the obvious changes today evidently ratify its importance. If not for climate change, renewable energy is essential for increasing the longevity of the earth and, thus, the species living on it. Therefore, it is a matter of high significance to make some painstaking efforts and ensure the availability of renewable energy resources to all.

Suppose you are aiming to centralise your dissertation on a renewable energy-related theme. In that case, you can look at some of the current, striking, and potential topics suggested by our PhD scholars at ResearchProspect.

You may also want to start your dissertation by requesting a brief research proposal from our writers on any of these topics, which includes an introduction to the problem, research question, aim and objectives, literature review, and the proposed methodology of research to be conducted. Let us know if you need any help in getting started.

Check our example dissertation to get an idea of how to structure your dissertation .

You can review step by step guide on how to write your dissertation here .

Topic 1: Exploring the economic benefits of increasing biomass conversion – a case study of the UK renewable energy industry.

Research Aim: The present study aims to explore the economic benefits of increasing biomass conversion referring to the case study of the UK renewable energy industry.

Objectives:

To share a preliminary concept of biomass conversion and its benefits.
To describe the economic benefits of increasing biomass conversion based on the context of the UK renewable energy industry
To identify challenges in biomass conversion along with figuring out strategies to eradicate these challenges.

Topic 2: Inspecting the advantages of using solar energy and its role as a solution to the global threat i.e. Climate change.

Research Aim: The present study aims to investigate the benefits of using solar energy and the way it is resolving the problem of climate change.

To elucidate the benefits of using solar energy and its growing use in different sectors.
To explain how solar energy can be a solution to a global threat like climate change.
To provide a stringent set of recommendations for the best possible use of solar energy to eradicate the problem of climate change.

Topic 3: Examining the strategy of embracing renewable energy by the UK retail organisations to fulfil the environmental sustainability goals.

Research Aim: The present study aims to evaluate the strategy of using renewable energy in the UK retail sector to fulfil environmental sustainability goals.

To express the way renewable energy sources are being relevant in the UK retail industry.
To analyse how retail organisations in the UK are using renewable energy to fulfil their environmental sustainability goals.
To share effective ideas about how renewable energy sources can be used properly by UK retail organisations to fulfil environmental sustainability goals.

Topic 4: Critical assessment of growing concern for sustainability in UK construction industry which is driving renewable energy consumption.

Research Aim: The present study aims to assess the growing concern for sustainability in the UK construction industry that drives overall renewable energy consumption.

To explain the increasing concern for sustainability in the UK construction industry.
To examine how renewable energy consumption is increasing in the UK construction industry along with the growing concern for sustainability.
To recommend that organisations in the UK construction industry improve the use of renewable energy sources, aiming to achieve sustainability goals.

Topic 5: Evaluating the impact of solar energy in sustainability practices in the UK agriculture industry.

Research Aim: The present study aims to evaluate the impacts of using solar energy in sustainability practices in the UK agriculture industry.

To demonstrate the concept of solar energy consumption and its impacts on sustainability practices.
To contextualise the use of solar energy in the UK agriculture industry as a part of sustainability practices.
To provide recommendations for improving the use of solar energy thereby gaining its advantageous effects in the UK agriculture industry.

Renewable Energy Research Topics For Research

Topic. 1: renewable energy: prospects and problems today.

Research Aim: The main aim of the research will be to identify the significance of deploying renewable energy to the masses and its implications in the long run. The research will also discuss whether or not the world is facing challenges in ensuring the availability of renewable energy; if yes, what would be the solutions or alternatives?

Topic. 2: Renewable energy for sustainable development in Africa

Research Aim: Africa leads ahead of all other regions of the world in terms of the least access to renewable energy. According to one report, around 600 million people do not have access to electricity in Africa, while 900 million lack access to clean water. This research will study and evaluate how providing renewable energy can foster sustainable development in the region by advancing economic development, improving access to energy, and mitigating climate change.

Topic. 3: Implications of COVID-19 on the biofuel market

Research Aim: COVID -19 posed precarious implications for global markets as it dismantled people’s buying capacity . It was noted that during the pandemic, the prices of biofuel plummeted dramatically as the consumer need was minimal. Keeping that in mind, you can base your research on what shifts are expected to occur in the bio-fuel market when the pandemic ends.

The prime aim of the research will include studying the impact of COVID-9 on the biofuel market and understanding its influences on biofuel policy support by policymakers.

Topic. 4: Geothermal energy; an untapped abundant energy resource

Research Aim: Geothermal energy is usually viewed as a recent form of alternative energy. It is cheaper than other green energy sources and is clean and sustainable. It is derived from the earth’s core and is more eco-friendly than other fossil fuel sources. In this research, you can explain geothermal energy, its abundance, and how it can be leveraged and supplied to the masses to help escape the energy crisis.

Topic. 5: The Future of Wind Energy

Research Aim: The main aim of the research will be to identify the prospects of wind energy by evaluating the current and prospected policies regarding its utilisation worldwide. The research can also be based on modern and future technologies to expand the utilisation and outreach of wind energy.

Topic. 6: Home wind energy: How valuable it is?

Research Aim: Recently more and more people have found it an excellent idea to install our very own wind turbines and produce clean energy to power homes. But doing that does not come without challenges. The research can discuss the significance of wind energy, check for its practicability, and evaluate its benefits and downsides.

Topic. 7: Economic and environmental benefits of Renewable Energy

Research Aim: We are all aware that renewable energy has vast benefits, ranging from economic to environmental. The main aim of the research will be to thoroughly discuss the economic and environmental aspects that are facilitated the most. You can study how countries are thriving economically and structuring workable policies to mitigate climate change and present a model to follow.

How Can ResearchProspect Help?

ResearchProspect writers can send several custom topic ideas to your email address. Once you have chosen a topic that suits your needs and interests, you can order for our dissertation outline service which will include a brief introduction to the topic, research questions , literature review , methodology , expected results and conclusion . The dissertation outline will enable you to review the quality of our work before placing the order for our full dissertation writing service !

Topic. 8: Why it has become more important than ever to focus on renewable energy

Research Aim: The aim of the research will be to identify the key reasons behind the much-needed attention that must be given to renewable energy. It is prime time to focus on renewable energy to ensure sustainable development and handle climate change quickly.

Today, as the world is swiftly transitioning into a technologically driven lifestyle, there are still a lot of people with no access to drinking water and electricity. Moreover, the consumption of artificial resources is responsible for curtailing the longevity of the earth and thus the species living on it. It is essential to take significant steps to help the earth and the people living on it.

Also Read: Environmental Engineering Dissertation Topics

Topic. 9: Is financing Renewable energy costly?

Research Aim: The pivotal aim of the research will be to examine the costs that it would take to finance renewable energy for the masses. Many countries around the world still have no access to clean drinking water, electricity, and therefore technology. These are the main reasons why the countries are underdeveloped, and their inhabitants are below the poverty line.

Topic. 10: Mitigating climate change; can renewable energy help?

Research Aim: The research will evaluate the impact of renewable energy in helping mitigate climate change. It will analyse all key factors that can impeccably play a role in controlling the biggest problem posed to humans.

As the years pass by, the population of humans is also growing. More people means more land acquisition, more pollution, and more requirements for resources. In such a scenario, what is suffering the most is the climate. If it is not addressed today, it will become such a big problem that it will be impossible to handle it easily.

Topic. 11: Living Green: How many have access to Renewable energy

Research Aim: With time, the energy costs are increasing, so are the effects of global warming. It has become more important than ever to ensure living green: Using renewable energy. The main aim of the research would be to do a quantitative analysis of how many people have access to renewable energy.

Topic. 12: Understanding differences between renewable and alternative energy technology

Research Aim: Many people confuse renewable and alternative energy technology and therefore question if there is such a thing as renewable energy technology. The research can explain and evaluate the differences between renewable and alternative technology so that people can use them without any doubt in their minds. Renewable energy can be constantly replenished, while alternative energy is an alternative energy source used instead of fossil fuel.

Also Read: Technology Dissertation Topics

Topic. 13: Is solar energy the way forward

Research Aim: There is a persistent controversy on the advantages and disadvantages of solar energy. While some believe that it is of great benefit, it is the other way around for others.

The aim of the research will be to examine solar energy, and weigh its pros and cons, and evaluate if it is going to predominate in the future. A qualitative analysis that includes surveying people’s opinions on social energy helps clear this ambiguity.

Topic. 14: Approach towards renewable energy in 2030

Research Aim: The research will study the current national and international policies on renewable energy to sketch a draft of the approach towards renewable energy in 2030. Qualitative discourse analysis can help figure out the key indicators that will prompt or prohibit a change in the upcoming years.

Topic. 15: Cost of solar energy in comparison to other renewable energy

Research Aim: The research will conduct a financial analysis on solar energy and draw a comparison against other renewable energy, i.e. hydro, biomass, tidal, and wind energy. It will evaluate the costs against different parameters and on different levels of technology.

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Topic. 16: Trends in Renewable energy

Research Aim: It is necessary to keep an eye on the current trends to make speculations about the future. The researcher can study the trends in renewable energy in 202o or 2021. The research can also draw a comparison of the renewable trends in 2020 and 2021.

Topic. 17: Renewable energy and COVID-19

Research Aim: The research will study and explore the impacts of COVID-19 on renewable energy. It will also explain if the pandemic posed any systematic changes to trends and prospects of renewable energy.

Topic. 18: How does Geothermal energy work?

Research Aim: The research will provide a thorough explanation of how geothermal energy works and why it is more eco-friendly, economical, and valuable than fossil fuels . The researcher can describe the steps from scratch until they are utilised as alternative energy.

Topic. 19: Effects of renewable vs non-renewable energy

Research Aim: The researcher will empirically study the small and broad long-run effects of using renewable and non-renewable energy to create a comparison between them.

Topic. 20: A review of tidal energy technologies

Research Aim: Tidal energy is among the most efficient energies; however, it is less common as it is harnessed from tides. The aim of the research will be to study technological advancement and development regarding their use as an alternative for energy. The research can list different methods, devices, and technologies that are used to harness tidal energy, and which of them can be the most viable to meet our annual needs.

List Of Top Trending Dissertation Topics For Renewable Energy

The Role of Artificial Intelligence in Optimising Energy Production from Renewable Sources
Life Cycle Assessment of Emerging Renewable Energy Technologies: A Comparative Analysis
The Socio-Economic Impacts of a Large-Scale Transition to Renewable Energy
The Integration of Renewable Energy into the Existing Power Grid
Policy Frameworks for Accelerating the Adoption of Renewable Energy Technologies
The Potential of Hydrogen Energy as a Clean and Sustainable Fuel Source
Public Perception and Social Acceptance of Renewable Energy Technologies
The Impact of Renewable Energy on Energy Security and Geopolitical Dynamics
The Role of Financial Incentives in Driving Investment in Renewable Energy Projects
The Ethical Considerations of Renewable Energy Development: Land Use, Resource Extraction, and Social Justice
Cybersecurity Threats to Renewable Energy Infrastructure
Smart Grid Technologies for a Renewable Energy Future: Enabling Two-Way Communication and Demand Response
The Role of Blockchain Technology in Decentralised Renewable Energy Systems
The Potential of Geothermal Energy for Baseload Power Generation
The Economic Viability of Renewable Energy Microgrids for Remote Communities
The Use of Big Data and Analytics to Optimise Renewable Energy Production and Distribution
The Role of Consumer Behavior in Accelerating the Transition to Renewable Energy
The Potential of Renewable Energy for Disaster Relief and Humanitarian Aid
The Impact of Trade Policies on the Global Deployment of Renewable Energy Technologies
The Role of Research and Development in Advancing Renewable Energy Technologies
The Impact of Renewable Energy on Air Quality and Public Health
The Role of Education and Public Awareness in Promoting the Adoption of Renewable Energy
The Potential of Renewable Energy to Reduce Energy Poverty in Developing Countries
The Impact of Renewable Energy on Energy Security in a Geopolitically Unstable World
The Role of International Cooperation in Accelerating the Global Transition to Renewable Energy
The Role of Renewable Energy in Decarbonising the Transportation Secto

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How to find renewable energy dissertation topics.

To find renewable energy dissertation topics:

Research recent advancements.
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Analyse policy and economic aspects.
Consider global energy needs.
Select a specific area of interest for your dissertation.

Renewable Energy Dissertation Topics

Renewable energy is a topic which is at the forefront of energy development. The global drive to manage, mitigate and prevent climate change has seen the contribution of renewable energy, as an alternative to traditional fossil fuels, to global energy generation increase significantly over the past decade. The growing importance of renewable energy as a solution to the global climate crisis has seen extensive research undertaken and necessitates substantial future research to be conducted. This has made renewable energy a highly popular choice for dissertations, both with undergraduates and for postgraduate studies.

When selecting a dissertation topic that is focused on renewable energy it is important to choose a topic which presents a novel and engaging approach. There is an extensive body of published literature which the dissertation topic should enable critical engagement with. However, it is important to ensure that a selected dissertation topic does not simply rehash previous research, the development of renewable energy is constant and presents opportunities for numerous dissertations which examine key issues and debates including those related to sustainability, energy security, justice, equality and development.

Governing the Renewable Energy Transition

Renewable energy and energy security, emerging renewable energy technologies, renewable energy in developing countries, renewable energy within the circular economy.

Governance is and will be a highly important component of the regime shift to renewable energy. Government policies have the potential to support, guide and increase the rate of the energy transition, equally, there is the potential for ineffective policies to hamper the transition to renewables-based energy sectors. A successful transition will require a transformative governance which encourages the integration of knowledge across all aspects of the energy sector and enables the development of a sustainable and just renewable energy-based society. Under this purview falls some dissertation topics which are highly relevant to current events, namely the on-going global Covid-19 pandemic and how it and similar disruptive events may have a negative impact on renewable energy deployment if not appropriately managed. The role of governance remains an on-topic aspect of renewable energy which provides for a variety of dissertation examinations. Some examples of dissertation topics which examine renewable energy and governance are:

Is the urgency of energy sector reform reflected in government policies or is there a need for new economic incentives to facilitate the transition to a renewables-based energy sector?
How do disruptive events impact the transition to renewable energy generation?
Will renewable energy generation enable new forms of alternative governance structures?
Are governments effectively engaging citizens in the process of renewable energy generation and energy conservation?
Do grassroots innovations positively contribute to the renewable energy transition and what influence does government policy have on the success or failure of grassroots renewable energy systems?

Increasing the capacity of renewable energy provision within a nation has the potential to contribute significantly towards enhancing energy security through the development of national energy provision which does not rely on foreign energy imports. Renewables-based energy sectors have complex interactions with energy security due to the variation in energy generation potential which is observed for many renewables. Reconciling renewable energy generation with energy security is a highly important component of future energy sectors, if renewables-based energy sectors cannot provide energy security then they will not be successful. There are multiple perspectives which can be taken in dissertations investigating this aspect of renewable energy, ranging from the development of diverse renewable resources, through to energy storage and distribution. Here are a few topic suggestions which investigate this aspect of renewable energy:

Can we store enough: The future of batteries and energy storage.
Can renewable energy resources present a viable future: Are renewables sufficient?
Securing the future: Are Renewables the solution?
The justice of renewable energy in developing countries; All for one and one for all.
Energy storage: breaking the barriers to the future of energy solutions.
Batteries: Which is the most desirable option?
The future of energy supply, can we meet demand?

The status of development of renewable energy technologies differs between renewable resources. Some, such as solar PV and wind turbines are well-established and current research focuses on the refinement and improvement of these technologies and their associated infrastructure. However, the energy demands of society are diverse and there is a need to ensure that renewable energy generation can meet this diversity of needs. The replacement of traditional fossil fuels poses a greater challenge in some areas compared to others, for example, the replacement of aviation fuel with a renewable and low-carbon alternative. Dissertation topics examining emerging renewable energy technologies present an interesting option which looks to the future of renewable energy and identifies gaps in our current knowledge pool. Some examples of dissertation topics based on emerging renewable energy technologies are given below:

How ‘green’ is green hydrogen? Examining the potential for green hydrogen utilisation in a sustainable society.
Guilt free jet setting: Can biofuels make aviation fuels carbon neutral and sustainable?
Reconciling biofuels and food security can we achieve both?
Why is Geothermal renewable energy underutilised?
Are all biofuels the same: Quantifying the environmental impact of biofuel production.

The case of developing countries is highly relevant to the subject of renewable energy systems. This is due to the potential for developing countries to avoid the negative impacts of increasing energy demand with economic development if renewable energy resources are selected rather than traditional fossil fuels. This way the mistakes of developed nations and the resulting environmental degradation could potential be avoided. However, there comes into play issues regarding justice and equity, whereby it can be argued that developing countries should be afforded the same development opportunities as already developed countries and that to impose conditions on the energy sector development would be unjust. Dissertation topics in this area can be varied and the following titles are just some examples of areas you could potential explore:

How will an energy transition to a renewables-based energy sector impact energy poverty in developing countries?
Are decentralised, small-scale renewable energy generation systems the answer to supporting the development of rural communities?
What are the barriers to renewable energy based economic development pathways for developing countries?
Empowering rural communities: Renewable energy for the future.
Can renewable-based energy transitions be just?
Economic development and renewable futures can the two be reconciled?

The development of a sustainable future will be influenced by our approach to the use and consumption of resources. The nature of renewable energy is such that it will play a vital role in reducing the consumption of natural resources and limiting environmental degradation. The circular economy is being increasingly touted as the way forward for resource use and renewable energy resources are likely to be an integral aspect of the circular economy. However, the role of renewable energy within the circular economy is one which needs to be explored and developed, yes, the use of renewable energy has a lesser environmental impact that fossil fuels, but this does not mean that renewable energy does not have a degradative environmental impact. The sustainability of renewable energy, resource consumption and their role within the circular economy is an important area of research which is likely to receive considerable attention in the coming years and thus is a highly on-trend topic for a dissertation. Some example of dissertation titles which would fall within this area are:

Can the sustainability of renewable energy systems be increased through the development of end-of-life component recycling?
The place of renewable energy resources within the circular economy: Will it be possible to produce energy without consuming natural resources?
Which renewable resource presents the most sustainable option: A life-cycle approach to calculating the environmental impact of renewable energy.
Does the use of limited or rare natural resources in renewable energy systems mean that there is a finite lifespan of renewable energy systems?
Powering the circular economy, what role will renewable energy systems play?
The future of solar energy: Will it be possible to reduce resource consumption in solar energy systems?
Do we perceive renewable energy systems as ‘greener’ than they are: A case study of the environmental impact of solar photovoltaic panel production.

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Renewable Energy Dissertation Topics

Updated on
Jan 12, 2023

Renewable energy is one of the most popular research topics. Thousands of students used these topics for their MTech and PhD theses, but a few of them struggled to find the right topic and a good paper for their graduation. Now, all thesis on renewable energy resources problems can be solved with a single phone call, which means that our Leverage Edu experts can help MTech and PhD students who are having problems with their thesis on renewable energy resources. As a master’s student, you may choose renewable energy as your thesis topic . If you decide to write a thesis on renewable energy, you may be unsure of how to begin or even what you are required to do. Don’t worry, we have you covered. In this blog, you’ll find renewable energy dissertation topics to help you write your thesis.

This Blog Includes:

Why is renewable energy important, best renewable energy research topics 2023, topic 1 .

Renewable energy is one of the fastest-growing systems in developing countries. It is widely used for “self-service” purposes. It is quite popular due to some unique advantages in its application. PhD research topics in Renewable Energy provide a distinguished platform for PhD/ MS scholars. We assist our serving hands in developing the best profile for their career.

Renewable Energy’s Untapped Potential

Ecofriendly
Reasonable Price
Lower Maintenance
Health Advantages
Unending and also Reliable Resource

It is the “core portion of the modern power system” all at once. It aids in the regulation of low, high, and variable power generation. As a result, we are also current in all of these recent areas. As a result, we guide you in every nook and cranny of your area with the help of our expert advice.

Topic 1: Renewable Energy: Prospects and Challenges Today

Topic 2: Renewable energy for Africa ‘s long-term development

Topic 3: The Impact of COVID – 19 on the Biofuel Market

Topic 4: Geothermal energy is an untapped abundant energy resource.

Topic 5: Wind Energy’s Future

Topic 6: How valuable is home wind energy?

Topic 7: Renewable Energy’s Economic and Environmental Benefits

Topic 8: Why is it more important than ever to prioritise renewable energy?

Topic 9: Is it expensive to finance renewable energy?

Topic 10: Climate change mitigation; can renewable energy help?

Topic 11: Living Green: How many people have access to renewable energy?

Topic 12: Understanding the distinctions between renewable and alternative energy technology

Topic 13: Is solar energy the way to go?

Topic 14: 2030 Approach to Renewable Energy

Topic 15: The cost of solar energy versus other renewable energy sources

Renewable Energy Dissertation Examples

Here are some dissertation topics for you to cover under the renewable energy topic. The examples are personalised for the UK, but you can mend them according to the country that you choose to write about.

Topic Name: Investigating the economic benefits of increasing biomass conversion – a case study of the renewable energy industry in the United Kingdom .

Aim of the Study: The current study aims to investigate the economic benefits of increasing biomass conversion using the UK renewable energy industry as a case study.

Objectives:

To present an initial concept of biomass conversion and its benefits.
In the context of the UK renewable energy industry, describe the economic benefits of increasing biomass conversion.
Identifying challenges in biomass conversion and devising strategies to overcome these challenges.

Topic Name: Examining the benefits of using solar energy and its role in addressing the global threat of climate change .

Aim of the study: The current study aims to investigate the benefits of using solar energy and how it is addressing the issue of climate change.

To explain the advantages of using solar energy and its increasing use in various sectors.
To demonstrate how solar energy can be used to address a global threat such as climate change.
To provide a stringent set of recommendations for the most effective use of solar energy in combating climate change.

Topic Name: Investigating UK retail organisations’ use of renewable energy to meet environmental sustainability goals.

Aim of the Study: The purpose of this research is to assess the strategy of using renewable energy in the UK retail sector to achieve environmental sustainability goals.

To express the importance of renewable energy sources in the UK retail industry.
To investigate how retail organisations in the United Kingdom use renewable energy to achieve environmental sustainability goals.
To share effective ideas on how UK retail organisations can use renewable energy sources effectively to achieve environmental sustainability goals.

Topic Name: A critical assessment of the growing concern for sustainability in the UK construction industry, which is driving the use of renewable energy.

Aim of the Study: The purpose of this research is to evaluate the growing concern for sustainability in the UK construction industry, which drives overall renewable energy consumption.

To explain why the UK construction industry is becoming increasingly concerned about sustainability.
To investigate how renewable energy consumption in the UK construction industry is increasing in tandem with the growing concern for sustainability.
To encourage organisations in the UK construction industry to increase their use of renewable energy sources in order to meet sustainability goals.

Topic Name: Assessing the impact of solar energy on agricultural sustainability practices in the United Kingdom.

Aim of the Study: The current study aims to assess the effects of using solar energy in sustainability practises in the UK agriculture industry.

To demonstrate the concept of solar energy consumption and its implications for environmental practices.
To place the use of solar energy in the UK agriculture industry within the context of sustainability practices.
To make recommendations for improving the use of solar energy and reaping its benefits in the UK agriculture industry.

How renewable energy affects the future of our planet. Use of biomass as a renewable energy source. The limitations of fossil fuels: the significance of renewable energy and its economic benefits. Methods for extracting power from flow-structure interactions.

A thesis statement example: Solar power is an excellent alternative energy source because it is renewable, cost-effective, and does not pollute the environment.

Three obstacles to renewable energy are: Putting energy storage in place. Traditional fossil-fuel plants operate at a reduced level, producing a consistent and predictable amount of electricity Bringing together distributed systems Renewable energy reporting

This was all about Renewable energy Dissertation Topics. For more information, subscribe to Leverage Edu and if you wish to study abroad, connect with our counsellors at 1800 57 2000 and book a 30-minute free session.

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Graduated with English as a major, I’m a writing enthusiast. Writing helps me blend my passion and profession to achieve creative satisfaction. I am an opinionated person, but always open to change. Try to keep my work surroundings creative and fun, with space for constructive feedback.

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Student thesis topics

Legend: BA = Bachelor thesis, MA = Master thesis, IDP = Interdisciplinary project (Department of Informatics, further information ), Int = Internship, FP = Forschungspraxis

In case there is no suitable topic, you can also try to contact a researcher with suitable research interests .

Theses at the mse coses lab.

As part of the research at the CoSES Lab of the MSE theses are also available. These can be found on the CoSES homepage .

116 Renewable Energy Essay Topics

🏆 best essay topics on renewable energy, 🌶️ hot renewable energy essay topics, 👍 good renewable energy research topics & essay examples, 💡 simple renewable energy essay ideas, ❓ renewable energy research questions.

Solving the Climate Change Crisis by Using Renewable Energy Sources
How Wind Turbines Convert Wind Energy into Electrical Energy?
Siemens Energy: Renewable Energy System
Renewable Energy Technology in Egypt
Discussion of Renewable Energy Resources
Wind Energy as an Alternative Source
Renewable Energy: Why Do We Need It?
The Use of Renewable Energy: Advantages and Disadvantages Today’s world is dependent on electricity, which is supplied from many different sources such as fossils fuels which emit harmful gases that pollute the environment.
Full Renewable Energy Plan Feasibility: 2030-2040 The paper argues that green energy in its current state will struggle to meet the humanity’s demand and the development of better hybrid, integrated grids is required.
Solar Energy: Advantages and Disadvantages Renewable energy sources are being supported and invested in by governments to instigate a new environment-friendly technology.
Solar Energy and Its Impact on Environment The purpose of this paper is to determine the impact of solar energy on the environment. The major positive impact is the minimal emission of greenhouse gases.
Sunburst Renewable Energy Corporation: Business Structuring The proposed Sunburst Renewable Energy Corporation will function on a captivating value statement in product strategy and customer relationships as the core instruments of sustainable operations.
Renewable Energy Sources: Popularity and Benefits Renewable fuels are not as pollutive as fossil fuels; they can be reproduced quickly from domestic resources. They became popular because of the decreasing amount of fossil fuels.
Renewable Energy Usage: Advantages and Disadvantages This treatise attempts to support the statement that there are both advantages and disadvantages to the use of renewable energy with focus on hydroelectric power.
Discussion of Realization of Solar Energy Company ABC is interested in creating a “solar” project which will fully install and staff solar panels to ensure the safe transformation of solar energy into electricity.
Utilization of Solar Energy for Thermal Desalination The following research is set to outline the prospects of utilization of solar energy for thermal desalination technologies.
Solar Power as the Best Source of Energy The concepts of environmental conservation and sustainability have forced many countries and organizations to consider the best strategies or processes for generating electricity.
Renewable Energy Sources for Saudi Arabia This paper will provide background information on the Kingdom of Saudi Arabia, its energy resources, and how it may become more modern and efficient.
The G20 Countries’ Competitiveness in Renewable Energy Resources “Assessing national renewable energy competitiveness of the G20” by Fang et al. presents an assessment of competitiveness in renewable energy resources among G20 countries.
Environmental Degradation and Renewable Energy The global community relies on the surrounding environment for food production, transport, and economic development.
Renewable Energy in Japan: Clean Energy Transition Renewable energy in Japan became significantly important after the Fukushima Daiichi tsunami that struck Japan in 2011.
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Published: 08 May 2024

Is renewable energy sustainable? Potential relationships between renewable energy production and the Sustainable Development Goals

Jing Tian ORCID: orcid.org/0000-0002-5223-7494 1 ,
Sam Anthony Culley 1 ,
Holger Robert Maier ORCID: orcid.org/0000-0002-0277-6887 1 &
Aaron Carlo Zecchin ORCID: orcid.org/0000-0001-8908-7023 1

npj Climate Action volume 3 , Article number: 35 ( 2024 ) Cite this article

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Climate-change mitigation
Sustainability

Given the key role renewable energy plays in averting the impending climate crisis, assessments of the sustainability of renewable energy systems (RESs) are often heavily skewed towards their environmental benefits, such as reductions in carbon emissions. However, RES projects also have the potential to actively harm progress towards other aspects of sustainability, particularly when hidden within the energy generation process. Given the growing understanding of the ’dark side‘ of renewables, we must ask the question: Is renewable energy sustainable? To gain a better understanding of this issue, we analyzed the degree of alignment of seven aspects of the renewable energy production process with the Sustainable Development Goals (SDGs) and their targets for six renewable energy types categorizing the relationships as either enablers or inhibitors. This information makes it possible for decision- and policy- makers to move beyond carbon tunnel vision to consider the wider impacts of RESs on sustainable development.

Mainstreaming systematic climate action in energy infrastructure to support the sustainable development goals

Metrics for the sustainable development goals: renewable energy and transportation

Modelling six sustainable development transformations in Australia and their accelerators, impediments, enablers, and interlinkages

Introduction.

Achieving net zero carbon emissions is the holy grail of climate change policies, with the transition to renewable energy sources often considered the hero in this quest. While the need to transition to renewables is unquestioned, the myopic pursuit of achieving net zero emissions has resulted in ’carbon tunnel vision 1 ‘ (i.e., a focus on the ability of renewables to reduce carbon emissions at the expense of the consideration of wider impacts), as a consequence of which the broader environmental, social and economic impacts (both positive and negative) of the transition are generally ignored. This means that we are now in treacherous territory, as the switch to renewables to address the current climate crisis could unwittingly create a cascade of other problems for future generations. Consequently, there is a need to better understand the potential positive and negative impacts of renewable energy systems so that we can ensure that the transition to renewables can occur in a sustainable manner.

In order to meet this need, we present a high-level overview of the potential enabling (positive) and inhibiting (negative) relationships between renewable energy systems (RESs) and the United Nation’s Sustainable Development Goals (SDGs) 2 , based on a review of the literature (see Fig. 1 caption for details and definitions). We pay particular attention to how these relationships vary for different types of renewable energy systems (biomass, hydropower, solar, geothermal, wind, wave & tidal 3 ) and how the various aspects of the renewable energy production process affect the environmental, social and economic elements of sustainability as characterized by the SDGs 4 . This enables us to obtain a better understanding of (i) the degree of sustainability of renewable energy systems, (ii) the impacts of adopting carbon tunnel vision, and (iii) what we need to do to broaden our vision to achieve more sustainable outcomes.

SDGs are grouped according to the categories of social, environmental and economic factors based on the Wedding Cake Model 52 . Specific targets recognized in the 2030 Agenda for Sustainable Development 2 (excluding government implementation targets) are grouped under each associated SDG and ordered clockwise. As was done in previous papers 53 , connections shown in green in ( a ) indicate a renewable energy project can potentially enable achieving a SDG target (this is equivalent to the concepts of reinforcing 54 providing synergies 55 and accomplishing 53 SDG targets). Connections shown in orange in ( b ) indicate a renewable energy project can potentially inhibit progress towards a SDG target (this is equivalent to the concepts of undermining 54 , providing trade-offs 55 and inhibiting 53 progress). Full results of the assessment for each target can be found in the Supplementary Information . Note that SDGs 4, 5, and 10 are excluded from this study since no direct relationships with quantitative indicators could be identified in literature. Given that SDG 16 and SDG 17 are at the heart of the SDG synergies, serving as fundamental interconnections to all other goals 56 , they are also excluded from our study. This is an original figure that was produced by the authors using AutoCAD.

How sustainable are renewable energy systems?

While the transition from fossil fuels to renewable energy sources is strongly associated with positive impacts on climate action (SDG 13), there can also be a number of inhibiting relationships with this SDG (Fig. 1b ). Such cases primarily involve the flaring (i.e., burning) of greenhouse gas, leading to emissions during certain types of renewable energy production (e.g., the generation of carbon emissions 5 and the leakage of methane during transportation and storage 6 for biomass production; the release of greenhouse gases when drilling for geothermal energy 7 ; and disturbing deep underwater sediments (e.g., particles settled at the bottom of water bodies) during the operation of hydropower plants 8 ). More importantly, renewable energy systems can also have potential enabling and inhibiting relationships with a number of other SDGs within the environmental category, including life below water (SDG 14), life on land (SDG 15) and clean water and sanitation (SDG 6).

Impacts related to life below water (SDG 14) are primarily associated with the production of wave and tidal power, with potential enabling relationships including enhancing the protection of coastal areas, as the installation of barriers and turbines can contribute to nutrient accumulation for coral protection 1 , 9 , and potential inhibiting relationships including threats to marine life, such as the harming of bird populations by offshore wind farms 10 , 11 . For life on land (SDG 15), potential enabling relationships include the repurposing of natural land, such as establishing wind and solar farms on degraded land 12 , whereas potential inhibiting relationships include the degradation of land quality when biomass contributes to soil erosion and degradation through the use of energy crops and the collection of crop residuals 13 . Regarding clean water and sanitation (SDG 6), potential enabling relationships include improved water-use efficiency 14 , 15 and potential inhibiting relationships relate to the reduced availability of drinking water, such as the contamination of underground aquifers from geothermal exploration, the tainting of potable surface water as a result of the leakage of biomass feedstock, and the allocation of significant water resources for hydropower infrastucture 16 , 17 .

In addition to their impact on the production of affordable and clean energy (SDG 7), renewable energy systems can also affect a range of other SDGs in the social category, including no poverty (SDG 1), zero hunger (SDG 2), good health and well-being (SDG 3), and sustainable cities and communities (SDG 11). However, in contrast to SDG 7, where renewable energy systems solely act as enablers, for these other SDGs, they can act as both inhibitors and enablers. For example, in relation to no poverty (SDG 1), potential inhibiting relationships stem from the intermittency of wind and solar energy sources 18 , while enablers could relate to the improvement of living standards through the provision of usable energy 19 . As far as zero hunger (SDG 2) is concerned, potential inhibiting relationships include the reduction of land availability for food production due to renewable energy installations 13 , with potential enabling relationships pertaining to the integration of RESs into agricultural farms (e.g., shading crops with solar panels) 20 , which has the potential to enhance resilience and productivity within the agriculture sector. Regarding good health and well-being (SDG 3), inhibiting relationships could include illnesses caused by harmful chemicals inadvertently released into the air and water, such as hazardous wastewater from geothermal energy production 21 , while potential enabling relationships include the prevention of respiratory infections and disease related to carbon pollution 22 . Finally, in relation to sustainable cities and communities (SDG 11), inhibiting relationships could arise from the environmental impact of RESs on modern cities, such as foul odours from biomass conversion, alterations in the microclimate caused by wind turbines and hydropower dams 23 and light pollution from solar panels 24 . In contrast, potential enabling relationships might relate to reduced damage to heritage land compared with that caused by the exploitation of conventional energy sources 12 , 25 .

RESs also have potential enabling and inhibiting relationships with various economic SDGs, including decent work and economic growth (SDG 8), industry, innovation and infrastructure (SDG 9) and responsible consumption and production (SDG 12). In relation to decent work (SDG 8), potential enabling relationships include the provision of decent work opportunities within emerging RES projects 26 , while inhibiting relationships relate to the likely reduction in job availability in the fossil fuel industry 27 , 28 . As far as industry, innovation and infrastructure (SDG 9) is concerned, potential enabling relationships include decreased carbon intensity through soil carbon sequestration and CO 2 recycling, while inhibiting relationships could relate to bioenergy and hydropower, for which energy sources require transportation, potentially increasing carbon intensity 29 . With regard to responsible consumption and production (SDG 12), enabling relationships could include improved management of natural resources, where waste and recyclable materials as waste can be utilized as a bioenergy source 30 , whereas potential inhibiting relationships include encroachment on natural resources and the generation of hazardous waste 15 , 21 .

What is the impact of carbon tunnel vision?

In order to obtain a more holistic and comprehensive understanding of the impact carbon tunnel vision has on broader aspects of sustainability, the relationships in Fig. 1 are decomposed by renewable energy type and aspect of the energy production process (Fig. 2 ). The different types of renewables considered include biomass, hydropower, solar, geothermal, wind, and wave & tidal, as these are the most commonly used sources, given current technologies. The aspects of the renewable energy production process considered include source selection, conversion and associated operational requirements, re-use, waste production, storage and transmission & distribution (Fig. 3 ), as these can differ for different types of RESs and include lesser-known elements of the renewable energy supply chain that often receive diminished attention. In the absence of this more nuanced understanding, it is easy to underestimate both the negative and positive sustainability impacts of renewable energy production on SDGs, making it more difficult to escape the currently adopted carbon tunnel vision, as detailed in subsequent sections.

SDG targets are presented by a single value and are divided into three principal spheres—social, economic, and environmental—which are depicted on the vertical axis. The horizontal axis categorizes the six renewable energy types. Within each type, the seven aspects of the energy production process (see Fig. 3 ) are presented in two rows, where connections are shown between a SDG, renewable energy type and aspect of the renewable energy production process. A green index color represents ‘enablers,’ while the orange index color signifies ‘inhibitors’. A lack of highlighting indicates the absence of identified evidence from literature, although it is important to note that this does not necessarily imply the absence of a relationship per se, just that this was outside of the boundary of consideration used here (more details are provided in the Supplementary Information ). This is an original figure that was produced by the authors using the Microsoft Excel Spreadsheet Software.

These aspects are presented within the context of the operational input-process-output concept. Source selection is considered as the first aspect, noting that the storing of potential energy is where impacts emerge—there are no direct impacts from renewable energy types with kinetic energy sources. The process of converting the source into energy can influence SDGs, both through the conversion process itself (i.e., plant location) and the associated operational requirements. After the completion of the renewable energy production process step and before the generation of the output, by-products can either be re-used elsewhere or go to waste. The production outputs can be divided into two parts: storage for local use and operational support, and transmission and distribution for grid connection or delivery. This is an original figure that was produced by the authors using Microsoft PowerPoint.

Underestimation of negative sustainability impacts

As can be seen from Fig. 2 , one of the major impacts of adopting carbon tunnel vision is that, by solely focusing on climate action (SDG 13) and the production of affordable and clean energy (SDG 7), the vast majority of inhibiting relationships between renewable energy production and the SDGs (i.e., the orange cells in Fig. 2 ) are ignored, which is likely to result in a distorted view of the sustainability of RESs. However, it should be noted that the focus on net zero emissions might not be the only reason for the lack of consideration of the potentially negative impacts of renewables on sustainability. This is because inhibiting relationships are primarily associated with the less well-known and understood aspects of the renewable energy production process (such as conversion and associated operational requirements, re-use and the generation of waste), rather than the more well-known and better understood processes (such as those associated with source selection, storage and transmission & distribution).

These potentially negative impacts affect a range of SDGs (Fig. 2 ). For example, operational requirements of renewable energy projects can have a negative impact on SDG 2 (zero hunger) because the development of RESs competes with the agricultural sector for natural resources such as water and minerals, along with land use 15 . This is particularly the case for bioenergy, as energy farming may occupy agriculturally viable land 13 , 16 . The conversion process and storage of energy can have a negative impact on SDG 11 (sustainable cities and communities), as renewable energy plants and storage facilities can unintentionally encroach on cultural and heritage lands, especially sacred lands of First Nations people (i.e., for indigenous peoples who are the earliest known inhabitants of an area), posing a potential infringement on indigenous rights 25 , 31 . Similarly, the conversion process can have a negative impact on SDG 15 (life on land), as renewable energy facilities are likely to cause damage to the biodiversity of surrounding areas (i.e. natural wildlife) 32 , 33 .

In most cases, the inhibiting relationships between the aspects of the renewable energy production process and the SDGs are specific to a particular renewable energy type. For example, the storage component of the source selection step (Fig. 3 ) can negatively impact SDG 12 (responsible consumption and production) in the case of biomass and hydropower. For the former, this is because the feedstock required for bioenergy production necessitates the use of storage facilities, like warehouses or hubs for biomass storage and pre-processing 34 , thereby increasing material resource use and land occupation. For the latter, this is because the storage of water required for hydropower production necessitates the use of dams or reservoirs for storage and collection, potentially altering and using surrounding natural resources 21 , 35 . In contrast, this is not the case for solar, wind and wave & tidal energy (Fig. 3 ).

Similarly, the conversion process (Fig. 3 ) can result in an inhibitive relationship with SDG 14 (life below water) for hydropower, wind and wave & tidal. For hydropower, this is due to the potential to artificially alter aquatic ecosystems and redirect the flow of rivers 21 , 35 . For wind power, this is because of the potential contribution of offshore wind farms to biofouling and the generation of underwater noise 36 , whereas for wave & tidal power, tidal barriers can modify the flow of water and wave patterns 1 , 9 . However, the same does not apply to biomass, solar, or geothermal. This demonstrates that particular care must be taken to understand the inhibiting factors for different renewable energy types in order to obtain a comprehensive understanding of their impact on sustainability.

Underestimation of positive sustainability impacts

Figure 2 also highlights that another significant impact of adopting carbon tunnel vision by only considering SDG 13 (climate action) is the lack of consideration of a large number of the other positive SDG impacts of renewable energy production, which is also likely to result in a distorted assessment of the sustainability of RESs. As can be seen in Fig. 2 , all types of RESs exhibit potentially enabling relationships with all of the social (i.e., SDGs 1 - 3, 7, 11) and economic (i.e., SDGs 8, 9, 12) aspects of sustainability. In addition, the components of the renewable energy production process where these occur are generally the same. For example, for SDG 1 (Target 1.5: build resilience to environmental, economic and social disasters), there is a potentially enabling relationship with source selection, transmission & distribution, and storage. This is because renewable energy can directly assist individuals in impoverished conditions by providing them access to electricity, thereby reducing their risk of suffering from local disasters 37 . For SDG 2 (zero hunger), there is a potentially enabling relationship with transmission and storage, attributable to the efficiency and advanced integrated farming techniques that can be enhanced when food production is paired with RESs 38 . Similarly, for SDG 3 (good health and well-being), there is a potential enabling relationship from using renewable energy (conversion, transmission & distribution and storage), as this can reduce the risk of cardiovascular diseases caused by air pollution (PM2.5, PM10) 22 , as well as chronic respiratory disease resulting from the burning of traditional energy sources like coal and fuel 39 . For SDG 15 (life on land), there is a potentially enabling relationship with the conversion process, as renewable energy plants do not require further deforestation for installation and can repurpose degraded land, such as deserts or areas suffering from soil erosion 12 .

However, some of these enabling relationships only apply to specific combinations of renewable energy type and aspects of the energy production process. For example, biomass and hydropower can have a positive impact on SDG 6 (clean water and sanitation) and SDG 11 (sustainable cities and communities) because they are able to use municipal wastewater as one of their energy sources 30 , 40 , thereby purifying water and reusing it as a product or by-product 41 . Additionally, bioenergy, geothermal energy and hydropower can have a positive impact on SDG 12 (responsible consumption and production), as bioenergy production can result in the generation of fertilizer as a by-product, thereby reducing material usage and promoting recycling 42 , 43 , hydropower can supply clean water to downstream areas 44 , and geothermal energy can provide heating/irrigation water for direct applications such as greenhouse farming 45 .

How do we broaden our vision?

As highlighted in the previous sections, while renewable energy sources are a strong enabler of climate action, as well as a number of other SDGs, they can also have a range of negative social, environmental and economic impacts. Consequently, there are several significant conclusions to draw that affect how we should think about climate policy:

Ignoring the potential negative impacts of RESs in the singular pursuit of net zero carbon emissions has the potential to result in disastrous consequences and the perverse outcome that solutions intended to increase the sustainability of humankind actually have the opposite effect. We need to heed the lessons of history to avoid another “hole in the ozone layer” by trying to “fix” a specific issue without considering all potential consequences in an integrated fashion. For policy makers, this can be combated by more cross-agency participation in the management of renewable energy zones and planning, so that trade-offs of a proposed solution can be more apparent.

RESs have enabling relationships with a much broader range of SDGs, not just climate action (SDG 13) and affordable and clean energy (SDG 7), which, if ignored, can significantly underestimate their positive impact on sustainability. This includes the potential to improve the living conditions of communities through the creation of employment opportunities, improved access to resources or reduced health risks, as well as through supporting the biodiversity of the surrounding environment. While there is mounting political pressure to deliver on decarbonization targets, these synergies are at risk of not being capitalized on, and the multiple benefits of implementing renewable energy projects need to be framed in a more holistic way.

By identifying the potential inhibiting and enabling relationships between RESs and the SDGs, this paper provides a blueprint for sustainability assessments that will enable us to broaden our vision beyond considering the impacts of renewables on net-zero emissions to considering the full range of sustainability impacts, allowing for more structured conversations to occur within project management and policy development. This includes an awareness of all potential negative and positive impacts of different types of renewables on different elements of sustainability, as well as for which aspect(s) of the renewable energy production process they occur. Such awareness is especially important for the aspects for which management decisions determine whether sustainability impacts are enabling or inhibiting. For example, the conversion process can have both positive and negative impacts on SDG 11 (sustainable cities and communities), depending on how the government and local society manage their strategy for the preservation, protection, and conservation of all cultural and natural heritage. Similarly, operation and transmission & distribution can have both positive and negative impacts on SDG 8 (decent work and economic growth), depending on the degree to which renewable energy sources are able to promote GDP growth 46 and create more job opportunities with fair pay 47 . To further the ability for renewable energy projects to be more sustainable, future work on this topic should focus on ways to quantity the impact renewable energy projects can have on the SDGs identified, to allow for more direct comparisons for decision makers 48 , 49 , and policy makers alike 50 , 51 .

The enabling and inhibiting relationships between renewable energy sources and the SDGs identified in this paper provide a step toward the information needed to develop climate policy and associated action plans that ensure that we can achieve net zero emissions by implementing RESs in a sustainable manner. This will enable us to address the climate crisis in a manner that avoids mistakes of the past and creates a positive future for our planet.

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Acknowledgements

The authors would like to thank the Future Fuels Cooperative Research Centre for providing funding for this work through project RP1.2-04. The authors would also like to thank the anonymous reviewers of this paper, whose comments have improved its quality significantly.

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Tian, J., Anthony Culley, S., Maier, H.R. et al. Is renewable energy sustainable? Potential relationships between renewable energy production and the Sustainable Development Goals. npj Clim. Action 3 , 35 (2024). https://doi.org/10.1038/s44168-024-00120-6

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Renewable Energy Library Dissertation Research: Welcome

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How renewable energy serves as a catalyst to broader social change

A farmhouse in India with solar panels on its roof generating renewable energy

Renewable energy boosts livelihoods worldwide Image: Unsplash/VD Photography

.chakra .wef-1c7l3mo{-webkit-transition:all 0.15s ease-out;transition:all 0.15s ease-out;cursor:pointer;-webkit-text-decoration:none;text-decoration:none;outline:none;color:inherit;}.chakra .wef-1c7l3mo:hover,.chakra .wef-1c7l3mo[data-hover]{-webkit-text-decoration:underline;text-decoration:underline;}.chakra .wef-1c7l3mo:focus,.chakra .wef-1c7l3mo[data-focus]{box-shadow:0 0 0 3px rgba(168,203,251,0.5);} Jennifer Rosen

A hand holding a looking glass by a lake

.chakra .wef-1nk5u5d{margin-top:16px;margin-bottom:16px;line-height:1.388;color:#2846F8;font-size:1.25rem;}@media screen and (min-width:56.5rem){.chakra .wef-1nk5u5d{font-size:1.125rem;}} Get involved .chakra .wef-9dduvl{margin-top:16px;margin-bottom:16px;line-height:1.388;font-size:1.25rem;}@media screen and (min-width:56.5rem){.chakra .wef-9dduvl{font-size:1.125rem;}} with our crowdsourced digital platform to deliver impact at scale

From fostering innovation to job creation, renewable energy solutions drive progress towards a more equitable and sustainable world.
Many renewable energy solutions create opportunities for economic development while reducing greenhouse gas emissions.
Here are some examples of how renewable energy solutions are changing lives all over the world.

Renewable energy solutions mitigate climate change and promote a healthier environment and they often serve as catalysts for broader social change. From fostering innovation and job creation to promoting gender equality or making civic participation more accessible, renewable energy solutions drive progress towards a more equitable and sustainable world.

With support from the Skoll Foundation, the Solutions Insights Lab (SIL), a new initiative of the Solutions Journalism Network (SJN), created What’s Working . This is a searchable portal that combines published solutions journalism and interviews with a wide array of leaders whose work has been supported by the Skoll Foundation over the past 20 years to uncover insights that can help address social problems worldwide.

Have you read?

A new study reveals how renewables could power africa by 2040.

The SIL is a targeted research and analysis service focused on identifying and interrogating what’s working and what’s not in a particular sector or field. It employs interviewing techniques drawn from the solutions journalism approach but is not a work of journalism and is appropriately separated with a firewall from SJN’s core journalism work.

The interviews are not works of journalism themselves. The interviewing approach was standardized and the over 200 individuals interviewed were specifically selected as part of a project supported by the Skoll Foundation. They do not represent any form of endorsement by SJN, which is an independent, non-partisan organization that does not advocate for any particular approach to social change.

The interviews follow a solutions framework to explore how successful approaches work. They look at evidence of impact and replicable insights and their limitations. We analyzed these interviews, in combination with relevant stories within SJN’s Solutions Story Tracker , to distil the lessons learned by those doing this work on the ground and surface insights related to the role renewable energy solutions play in mitigating climate change and making progress on several other Sustainable Development Goals, from eradicating poverty to achieving gender equality.

Solutions for multiple problems

We’ve consistently seen that changemakers can and do successfully design solutions to address more than one issue. This is perhaps most evident among renewable energy solutions that seek to create opportunities for economic development while reducing greenhouse gas emissions. Bringing affordable and clean renewable energy to rural and underdeveloped communities benefits the health of their environment and their economy, creating jobs and providing resources that foster innovation and entrepreneurship.

Lifeline Energy , for example, designs, manufactures and distributes solar-powered and wind-up media players across sub-Saharan Africa to connect communities to important information. Classrooms can listen to school lessons, farmers can listen to agricultural radio broadcasts about pesticides, frontline health workers can listen to pre-recorded health content and villagers can access information that allows them to participate in their communities in more informed ways.

Moving to clean energy is key to combating climate change, yet in the past five years, the energy transition has stagnated.

Energy consumption and production contribute to two-thirds of global emissions, and 81% of the global energy system is still based on fossil fuels, the same percentage as 30 years ago. Plus, improvements in the energy intensity of the global economy (the amount of energy used per unit of economic activity) are slowing. In 2018 energy intensity improved by 1.2%, the slowest rate since 2010.

Effective policies, private-sector action and public-private cooperation are needed to create a more inclusive, sustainable, affordable and secure global energy system.

Benchmarking progress is essential to a successful transition. The World Economic Forum’s Energy Transition Index , which ranks 115 economies on how well they balance energy security and access with environmental sustainability and affordability, shows that the biggest challenge facing energy transition is the lack of readiness among the world’s largest emitters, including US, China, India and Russia. The 10 countries that score the highest in terms of readiness account for only 2.6% of global annual emissions.

To future-proof the global energy system, the Forum’s Centre for Energy & Materials is working on initiatives including Clean Power and Electrification , Energy and Industry Transition Intelligence, Industrial Ecosystems Transformation , and Transition Enablers to encourage and enable innovative energy investments, technologies and solutions.

Additionally, the Mission Possible Partnership (MPP) is working to assemble public and private partners to further the industry transition to set heavy industry and mobility sectors on the pathway towards net-zero emissions. MPP is an initiative created by the World Economic Forum and the Energy Transitions Commission.

Is your organisation interested in working with the World Economic Forum? Find out more here .

The more of these solutions I looked at, the more I saw that their benefits often have third and fourth layers. They are improving women’s lives and reducing gender inequalities, for example, or making it easier for communities to access information and services, like healthcare. Solutions that address multiple needs are the most powerful and cost-effective. They also bridge the silos that so many solutions exist in.

How to finance the transition to climate-smart agriculture

Earth day: we are almost certainly all eating plastics, says report, and other nature and climate stories you need to read this week, powering up gender equality.

Barefoot College International , for example, uses clean energy to promote socio-economic development, protect the environment and improve women’s lives. Its theory of change places women at the centre as key changemakers. CEO Rodrigo París told us that putting resources towards women is key because “Women have roots in the communities, they have the knowledge... They have a good understanding about the past, about family and the roots, but they have a clear vision on how to solve problems.”

The organization trains mostly older women with little to no formal education in over 90 countries to install, repair and maintain solar lighting units in their villages. Women like Jullietta, a 69-year-old mother of seven and grandmother of 30 in Guatemala, receive the skills and resources they need to electrify homes and schools with solar energy. In doing so, they earn an income for themselves, better the environment and expand economic development opportunities for their entire village.

As one of the 20 trained 'solar mamas' in Guatemala (there are over 3,500 across the world), Jullietta brought power to 35 families in her village and is helping increase the status of women more broadly. The women’s new skills and financial independence puts them at the centre of important community-wide changes too and give them more agency to impact decision-making.

Global Gender Gap Report 2023

Transforming agriculture.

Almost 10,000 miles away, a group of women farmers in Harpur, India purchased and installed solar pumps that use affordable and clean energy to irrigate their crops. The pumps have increased their yields and enabled more diverse crops, which has led to greater profits. They also make a profit by selling irrigation services to others.

Despite facing discrimination, their increased financial independence and greater self-reliance has challenged gender norms in the traditionally male-dominated village. The women report deciding how to use the money they’ve earned and having more control over their economic well-being. The state government in Bihar has also used solar-operated pump projects as a means to improve livelihoods among rural women and is looking to replicate the model in other districts.

Solar lights, in particular, have expanded opportunities for women to improve their livelihoods. From women in Kenya leaving the sex trade once they had lights to fish at night to women in a rural Pakistani village being able to earn money making pottery after the sun goes down and women in Mali creating cooking solutions that don’t produce harmful indoor pollutants , renewable energy solutions have expanded choices and resources for women across the world.

Improving access to healthcare

Other renewable energy solutions seek to alleviate poverty by increasing access to information and services, like healthcare, which also impact women. To reduce high maternal mortality rates among women in rural Zimbabwe, Mobility for Africa uses Hambas , electric three-wheel tricycles that run on rechargeable batteries. Hambas transport pregnant women and new mothers to health facilities for pre- and post-natal care. The clean and renewable energy source mitigates harm to the environment.

Many solutions use renewable energy to expand health services, which is a foundational step in reducing poverty. From the Selco Foundation using solar panels to increase treatment capacities of rural health facilities to using mini solar grids for lighting homes to avoid venomous snake bites , these creative solutions address multiple issues in a single package.

An important aspect of the solutions framework is acknowledging the limitations of a solution. While renewable energy solutions have the potential to provide benefits across three or more areas of people’s lives, they are not without challenges. The biggest hurdle is the upfront costs of purchasing and installing the infrastructure, as well as ensuring there is a system in place to maintain it.

Renewable energy sources, such as solar, can also be less reliable than traditional energy sources, so the power may be more intermittent. But solutions that combine renewable energy with other important issues clearly play important roles in achieving several Sustainable Development Goals, from climate action to eradicating poverty to achieving gender equality. Clean, affordable and renewable energy stands as a pivotal solution with the potential to create a more equitable and healthy future for all.

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Stryten Energy to Showcase Lead Battery Energy Storage System Technology at Battcon 2024

Lead BESS offers a safe, proven and reliable solution for microgrids and EV-charging applications

Stryten Energy LLC, a U.S.-based energy storage solutions provider, will highlight the benefits of its lead battery energy storage systems (BESS) at Battcon 2024 in Miami.

This press release features multimedia. View the full release here: https://www.businesswire.com/news/home/20240513512871/en/

Stryten Energy's Lead BESS offers a safe, proven and reliable solution for microgrids and EV-charging applications. (Photo: Business Wire)

Stryten Energy’s Lead BESS technology is designed to safeguard against power outages, ensuring continuous operation of critical infrastructure and applications when traditional power sources fail. It can also act as a critical grid support tool, providing rapid response capabilities to mitigate fluctuations, stabilize voltage and enhance overall grid resilience.

Stryten Energy’s Lead BESS technology can be sized to meet a wide range of applications today – from commercial and industrial to utility scale – and easily support future expansion to meet evolving power and energy storage requirements.

“We often refer to lead batteries as 'silent workhorses' and for good reason – they’re dependable for keeping the lights on, even when other power sources are offline,” said Scott Childers, Vice President, Essential Power at Stryten Energy. “The technology already has an established domestic supply chain and a complete circular economy, providing a sustainable and cost-effective energy storage solution for businesses requiring energy resiliency for their operations.”

Visitors to Booth #133 will see the key product powering Stryten Energy’s Lead BESS systems:

E-Series Absolyte® AGP: 2-volt valve-regulated lead-acid (VRLA) battery cells proven for telecommunications, UPS, electric utility, railroad and renewable energy applications. Absolyte AGP cells are designed and optimized for standby float or cycling applications and are available with an ampere-hour capacity of 104-4800Ah. The Absolyte AGP provides superior float life (20 years at 25ºC) and cycling capabilities (1200 cycles to 80% depth of discharge).

To learn more about Stryten Energy’s essential power solutions ahead of Battcon, visit https://www.stryten.com/essential-power/ .

About Stryten Energy

Stryten Energy helps solve the world’s most pressing energy challenges with a broad range of energy storage solutions across the Essential Power, Motive Power, Transportation, Military and Government sectors. Headquartered in Alpharetta, Georgia, we partner with some of the world’s most recognized companies to meet the growing demand for reliable and sustainable energy storage capacity. Stryten powers everything from submarines to subcompacts, microgrids, warehouses, distribution centers, cars, trains and trucks. Our stored energy technologies include advanced lead, lithium and vanadium redox flow batteries, intelligent chargers and energy performance management software that keep people on the move and supply chains running. An industry leader backed by more than a century of expertise, Stryten has The Energy to Challenge the status quo and deliver top-performing energy solutions for today and tomorrow. Learn more at www.stryten.com .

Melissa Floyd Vice President, Corporate Communications & Digital Marketing 678.599.9887 [email protected]

View source version on businesswire.com: https://www.businesswire.com/news/home/20240513512871/en/

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