The world is facing a big challenge with climate change. Moving towards sustainable energy is more important than ever. But what does the future hold for renewable energy? Are we on the verge of a new era where clean energy becomes the norm? Let’s dive into the top 5 renewable energy trends that will shape our future in 2025 and beyond.
Key Takeaways
- Renewable energy capacity is projected to expand by 50% between 2019 and 2024, driven by the rapid growth of solar energy.
- Solar, wind, and hydropower projects are being deployed at the fastest rate in four years, signaling a surge in clean energy adoption.
- Renewable energy is expected to account for 30% of the world’s electricity generation by 2024, surpassing coal as the primary source.
- Solar capacity is estimated to grow by 600 GW by 2024, doubling Japan’s total electricity capacity and equivalent to the US total electricity capacity.
- The cost of solar PV-based power is expected to decrease by 15% to 35% by 2024, making it an increasingly affordable and accessible energy solution.
Advancements in Solar Photovoltaic Technology
Looking ahead to 2025, the solar energy scene is set for big changes. The solar industry has grown fast, with wind and solar installations expected to hit one terawatt soon. This growth is fueled by a big increase in clean energy investments, set to rise by 15% in 2024 to almost $800 billion, with solar leading the charge.
Improved Energy Conversion Efficiency
New materials like perovskite are changing the solar game. They boost energy conversion efficiency, letting us get more power from less space. Solar companies are now fitting PV systems into our daily lives, using less land.
Integrated and Innovative Solar PV Systems
The trend is to mix solar power with other tech. We’re seeing more of integrated PV, floatovoltaics, and agrivoltaics. These methods put solar panels in buildings, water, and farms, making the most of what we have.
Emergence of Lightweight and Flexible Solar Cells
Startups are working on thin-film solar cells. These are flexible, cheap, light, and good for the planet. They open up new ways to use solar power, pushing us towards a greener future.
The solar industry is growing fast, set to be a key player in our sustainable future. As solar power adoption speeds up, we’re moving closer to a cleaner world.
Artificial Intelligence and Big Data Analytics
The renewable energy sector is using artificial intelligence (AI) and big data analytics to make big strides. These technologies are changing how we manage and improve renewable energy systems. They help with predictive maintenance and smart grid management.
Predictive Maintenance and Smart Grid Management
AI algorithms help make quick decisions and optimize the grid. They use big data to predict and prevent equipment failures. This cuts down on downtime and maintenance costs for renewable energy.
AI also boosts smart grid technologies. It makes it easier to mix different energy sources and balance loads.
Renewable Energy Forecasting and Optimization
AI and big data analytics are changing how we forecast and optimize renewable energy. Startups are using advanced data and machine learning to improve renewable energy models. This makes clean energy more efficient and reliable.
The combination of AI, big data, and renewable energy is opening up new possibilities. It’s leading to better predictive maintenance, smart grid management, and renewable energy forecasting. These advancements are making clean energy more resilient and efficient.
| Key Trends | Impact |
|---|---|
| AI-powered predictive maintenance | Reduced downtime and maintenance costs for renewable energy sources |
| Smart grid technologies driven by AI and big data | Improved integration of distributed energy resources and dynamic load balancing |
| Data analytics and machine learning for renewable energy modeling and optimization | Enhanced efficiency and reliability of clean energy integration into the grid |
“AI and big data analytics are transforming the renewable energy industry, unlocking new levels of efficiency, reliability, and sustainability.”
Distributed Energy Storage Systems
The energy world is changing fast, with distributed energy storage systems (DESS) leading the way. These systems store energy locally, helping to fix the ups and downs of renewable power. They make the grid more reliable and efficient.
Market research shows the global DESS market will grow a lot. It’s expected to jump from US$ 5.16 billion in 2024 to US$ 12.92 billion by 2034. This growth is mainly because more people are using renewable energy sources.
| Region | Market Value (2024) | Market Value (2034) | CAGR |
|---|---|---|---|
| North America | US$ 3.7 billion | US$ 3.7 billion | 9.5% |
| East Asia | US$ 1.89 billion | US$ 4.74 billion | 9.6% |
| South Korea | US$ 1.13 billion | US$ 1.13 billion | 9.6% |
| United States | US$ 1.13 billion | US$ 2.81 billion | 9.5% |
| China | US$ 914.1 million | US$ 2.27 billion | 9.6% |
Distributed energy storage systems use many technologies. They include flow batteries, solid-state batteries, and more. These systems meet different energy needs, from big energy bursts to steady, small amounts.
Startups are looking into new ways to store energy without batteries. They’re exploring pumped hydro, compressed air, and Power-to-X (P2X) technology. These innovations will be key in the future of renewable energy and the grid.
Top 5 Renewable Energy Trends for 2025: A Comprehensive Outlook
The world is moving towards a greener energy future fast. In the next few years, we’ll see big changes in renewable energy. Let’s explore the top 5 trends to watch in 2025.
Advanced Battery Technologies
Startups are working on new battery tech to solve solar and wind’s ups and downs. Flow batteries use steady energy, solid-state batteries are light and pack a punch, and capacitors and supercapacitors handle big energy needs quickly.
Batteryless Storage Solutions
New solutions like pumped hydro and compressed air are coming. They store energy in water or air, ready to make electricity when needed. This helps fix the problem of renewable energy being on and off.
Power-to-X (P2X) Energy Conversion
Power-to-X (P2X) technology turns extra renewable energy into heat or methane. It’s a smart way to store and use energy. P2X makes renewable energy work better with our power grid, helping our energy system grow green.
New energy storage 2025 and battery technology trends are making our energy future brighter. With renewable energy storage getting better, our energy grid solutions will be more reliable and green.
Hydropower Innovations
The renewable energy world is moving beyond old hydroelectric dams. Now, it’s looking at new ways to use water in oceans, rivers, and tidal basins. Startups are making new parts to grab energy from underwater flows and waves. This gives us a steady and green way to make electricity.
These new ideas work well with old hydro dams and other green energy. They help make our energy mix cleaner and more varied.
Tidal and Wave Energy Converters
Tidal and wave energy converters are leading the charge in new hydropower. They use ocean tides and waves to make electricity. Thanks to better designs and tech, these methods are getting cheaper and more effective.
Offshore Hydrokinetic Technologies
Offshore hydrokinetic tech, like underwater turbines and wave converters, is being used in coastal areas. They catch energy from water moving around. This adds a steady and green power source, working alongside other clean energy options.
| Key Hydropower Statistics | Value |
|---|---|
| Hydropower capacity increase by 2030 | 17% or 230 GW |
| Reservoir hydropower plants share of net additions | 50% |
| Pumped storage hydropower plants share of net additions | 30% |
| Run-of-river hydropower growth | Smallest segment due to focus on small-scale projects |
As we move forward in renewable energy, new hydropower ideas are key. They help us use tides, waves, and currents to make more green electricity. This is a big step towards a cleaner energy future.
Wind Energy Expansion
The wind energy industry is growing fast, with a big focus on offshore wind farms. These farms use floating wind turbines to harness wind in deeper waters. This opens up new areas for wind energy.
Companies big and small are working on new technologies for these floating systems. They aim to use wind in places where it was hard to before. This is key to reaching renewable energy goals set by governments.
Offshore Wind Farm Development
Wind farms on land are expected to grow by 70% in 2023 to 107 GW. This is the biggest increase ever. Offshore wind sites near the coast could produce almost 36,000 TWh of electricity yearly.
This matches the global electricity demand for 2040. Wind energy is set to beat nuclear power by 2025.
Floating Wind Turbine Installations
Wind and solar energy will grow more than double by 2028. By then, we’ll see 710 GW of combined capacity. To reach Net Zero Emissions by 2050, we need to add more wind capacity.
Wind energy has a big role in increasing renewable capacity worldwide.
“The growth of offshore wind, including floating turbines, is crucial to meet the long-term renewable energy targets set by governments around the world.”
Bioenergy and Biofuels
The world is moving towards cleaner energy, and bioenergy and biofuels are key players. In the last two years, Europe and Germany have seen a big boost in biogas production. This is because governments are now supporting the use of biogas for more than just heat and power.
They want to use it in industries and for transportation, especially in the form of biomethane. This change is helping to grow the biogas industry fast.
Thirteen countries have started new policies to support bioenergy since 2022. The International Energy Agency (IEA) says this will make biogas production grow even more by 2028. This will make renewable energy even more diverse.
Advanced Biofuel Production
Brazil, India, and Indonesia are leading in biofuel growth thanks to government support. These countries use biofuels mainly for cars and trucks. They have plenty of plant material to make biofuels.
Brazil is expected to be a big player in biofuel growth by 2028, making up 40% of the increase. But in the EU, US, Canada, and Japan, biofuels are not growing as much. This is because electric cars are becoming more popular and biofuels are more expensive.
However, there is still growth in renewable diesel and biojet fuel in these countries. Governments and companies are working to make transportation cleaner.
Biogas and Biomethane Utilization
- Modern bioenergy makes up over 55% of renewable energy globally and supplies over 6% of the world’s energy.
- Biofuel demand is expected to grow by 6% in 2022 compared to 2021, with a 9,100 million litres per year increase.
- Most of this growth will happen in countries like India, Brazil, and Indonesia.
The use of biomethane, a cleaner version of biogas, is becoming more important. Governments see biomethane as a key fuel for industries and cars. This move is helping to make renewable energy more diverse and clean up hard-to-clean sectors.
| Country | Biofuel Demand Growth | Biomethane Utilization |
|---|---|---|
| Brazil | 40% of global growth by 2028 | Biogas used for heat and power |
| India | Emerging economy with growing biofuel demand | Encouraging industrial and transportation uses of biomethane |
| Indonesia | Emerging economy with growing biofuel demand | Emerging biomethane market |
| EU, US, Canada, Japan | Limited biofuel expansion due to high costs and EV growth | Steady growth in renewable diesel and biojet fuel segments |
Bioenergy and biofuels are key to a cleaner energy future. They help make the energy mix more diverse and sustainable.
Geothermal Energy Advancements
The world is moving towards a greener energy future, and geothermal energy is leading the way. It uses the Earth’s heat to make electricity and provide heating and cooling. New technologies and more exploration could unlock its huge potential.
Enhanced Geothermal Systems (EGS)
Enhanced Geothermal Systems (EGS) are a big step forward. They use fluids to create paths for heat to flow, making electricity in areas without hot water. This makes geothermal energy available in more places.
Deep and Ultra-Deep Geothermal Exploration
Researchers are now exploring deeper geothermal resources. They aim to use the Earth’s heat at deeper levels for electricity and heating. This technology, like EGS, opens up new areas for geothermal energy. It’s expensive, but progress and support could make it more affordable.
| Metric | Value |
|---|---|
| Industry Growth Overview | The geothermal energy market grew by 18.78% last year with about 1570 companies. |
| Manpower & Employment Growth | It now employs 169.2K workers worldwide, up by 7.4K from last year. |
| Patents & Grants | There are over 2200 patents and 300 grants in the geothermal energy field, showing support and innovation. |
| Global Footprint | Key countries for geothermal energy are the US, Germany, Canada, France, and the UK. Major cities include Houston, Calgary, London, Jakarta, and Nairobi. |
| Investment Landscape | On average, USD 16.1 billion is invested in geothermal energy per round. Over 180 investors have participated in more than 300 rounds. |
| Top Investors | Big investors like GIC, Andera Partners, and Breakthrough Energy Ventures have put over USD 576 million into the field. |
| Startup Ecosystem | New geothermal startups like TerraNexum, GeoFlow Imaging, HammerDrum, GeoAirCon, and Umny are bringing fresh ideas to the industry. |
The geothermal energy sector is growing fast. It’s getting closer to providing clean, reliable, and sustainable power. With EGS, deep exploration, and more investment, its use is set to expand in the future.
Grid Integration and Energy Management
Renewable energy is growing fast, and new tech is key to keeping power grids stable. Smart grid technologies like real-time monitoring and advanced analytics help mix variable energy sources into the grid. These tools make grid operations better, improve reliability, and support virtual power plants and microgrids.
Smart Grid Technologies
Smart grid technologies are changing how we manage and share energy. They use data and automated systems to make grids more flexible and strong. This lets utilities handle energy supply and demand better, keeping power stable as renewables grow.
Virtual Power Plants and Microgrids
Virtual power plants (VPPs) and microgrids are new ways to help traditional power plants. VPPs use rooftop solar and energy storage to help the grid. Microgrids are local systems that work alone or with the main grid, making power more reliable. They’re key to a greener, more flexible energy system.
| Technology | Key Benefits |
|---|---|
| Smart Grid Technologies | Improved grid efficiency and reliability Enhanced integration of renewable energy sources Real-time monitoring and data-driven decision making |
| Virtual Power Plants | Aggregation and coordination of distributed energy resources Optimization of energy management and grid services Increased flexibility and resilience of the power system |
| Microgrids | Localized energy systems with independent operation capabilities Improved power supply resilience and reliability Integration with the main grid for enhanced energy management |
These new technologies are leading to a greener, more flexible energy future. They make it easy to mix renewable energy and local solutions, meeting our growing need for clean power.
Hydrogen Energy and Fuel Cells
Hydrogen is becoming key in renewable energy, especially green hydrogen made from renewable sources. The sector is working hard to improve how we store and move hydrogen. This includes finding safe ways to keep hydrogen in different forms for long periods.
This effort is vital for hydrogen to become a main energy source. It helps solve problems with renewable energy, like being available only when it’s needed. Building better hydrogen infrastructure is also important for its future use.
Green Hydrogen Production
Solar energy is leading the way in making green hydrogen. This hydrogen is crucial for reducing carbon emissions in many industries. Companies and startups are creating new ways to make green hydrogen cheaper and more efficient.
Hydrogen Storage and Distribution
Improving how we store and move hydrogen is another big focus. Startups are exploring ways to keep hydrogen safe and efficient, whether it’s compressed, liquid, or solid. This is key for hydrogen to be used widely, solving issues with renewable energy’s availability and transport.
| Hydrogen Trends | Key Insights |
|---|---|
| Green Hydrogen Production | Solar PV is the dominant source of energy for low-emissions hydrogen production, driving decarbonization in various industries. |
| Hydrogen Storage and Distribution | Startups are developing efficient and safe methods to store hydrogen in compressed, liquefied, or solid-state forms, addressing intermittency and distribution challenges. |
| Hydrogen Infrastructure | Developments in transportation and fueling networks are critical for the successful integration of hydrogen into the future energy system. |
The article looked at 1730 global startups and scaleups for hydrogen innovations. It highlighted the top 10 hydrogen trends and 20 promising startups. The Global Startup Heat Map showed most startups are in the US and Europe, with more in India.
As renewable energy evolves, hydrogen and fuel cells will play a big role. They are key to a more sustainable and low-carbon future.
Policy Drivers and Incentives
Governments worldwide are pushing for more renewable energy. The European Union’s Green Deal Industrial Plan, India’s Production Linked Incentives (PLI), and the US’s Inflation Reduction Act (IRA) are key policies. They aim to boost sustainable energy use.
These policies, along with new rules on corporate ESG, are driving demand for green energy. They encourage the private sector to grow and adopt renewable energy.
Renewable Energy Policies and Regulations
Governments are giving financial incentives and tax credits to the renewable energy sector. They offer net-metering programs, feed-in-tariffs, and auctions. These help renewable energy providers compete and win contracts.
These financial incentives make renewable energy projects more affordable. They help businesses and consumers invest in green technologies. The types and amounts of these incentives vary by region but are essential for renewable energy growth.
Financial Incentives and Tax Credits
Recent data shows global emissions could drop by 27% by 2050. This is thanks to a big push for renewable energy. Renewable energy capacity is expected to more than double by 2030 and quadruple by 2050.
These policy drivers and financial incentives are key to reaching these goals. They help us move towards a sustainable energy future.
“Global momentum for the energy transition was mentioned, with key steps recommended at COP28 in December 2023, including tripling renewable energy capacity globally by 2030 and doubling energy efficiency rates.”
The availability and structure of financial incentives and tax credits are crucial. They make renewable energy more accessible and affordable. As governments focus on renewable energy policies and regulations, we can expect more growth in the renewable energy sector.
Emerging Renewable Energy Technologies
The world of renewable energy is always changing. New technologies are coming up to use our natural resources better. Two big ones are ocean energy conversion and Concentrated Solar Power (CSP).
Ocean Energy Conversion
Ocean energy includes tidal and wave power. It’s a huge opportunity. Startups and research groups are making ocean energy converters to turn ocean movement into electricity. This adds to our renewable energy mix and gives us steady power.
- Tidal energy converters use the tide’s rise and fall to make electricity.
- Wave energy converters turn wave motion into power.
- New designs and materials are making ocean energy better and cheaper.
Concentrated Solar Power (CSP)
Concentrated Solar Power (CSP) uses mirrors or lenses to focus the sun’s energy for electricity. CSP systems store heat, making power more steady than solar panels. Companies and research groups are working to make CSP better, cheaper, and more efficient.
“As the renewable energy landscape continues to evolve, CSP and other emerging technologies will play an important role in diversifying the clean energy mix and advancing the transition to a sustainable future.”
The rise of ocean energy and CSP is key to meeting our growing need for clean power. By tapping into our oceans and improving solar energy, these new solutions will help make our energy future diverse, reliable, and green.
Renewable Energy and Sustainability
The world is moving towards renewable energy, and it’s key to see how important it is. These clean technologies help cut down carbon emissions and lessen the environmental harm from our energy use. Solar and wind power are growing fast, showing the industry’s dedication to being green.
Carbon Footprint Reduction
Solar and wind energy have much less carbon impact than old fossil fuels. By using more of these clean energies, we can all help lower our carbon footprint. This team effort is crucial in fighting climate change.
The quick growth of clean tech and investment in energy change shows our commitment to a greener future.
Environmental Impact Mitigation
Renewable energy does more than just cut carbon emissions. It also helps reduce the overall environmental harm from energy systems. Solar and wind need less space and resources than traditional energy.
Using renewable energy with green practices like recycling makes our energy system more circular and friendly to the planet. As we focus on sustainability, the renewable energy sector leads the way. It’s pushing us towards a cleaner, greener future.
FAQ
What are the top trends in renewable energy for 2025?
The International Energy Agency (IEA) says renewable energy is growing fast. By 2025, it will be the top source of electricity, beating coal. Wind and solar power will soon outdo nuclear energy.
By 2028, 68 countries will rely mainly on renewables. This is a big change.
How are advancements in solar photovoltaic technology driving growth?
Solar power made up most of the renewable growth in 2023. This growth came from big plants and homes using solar panels. Governments help by offering support like tax credits and auctions.
New solar panels are getting better and cheaper. This means we can make more power in the future.
How are artificial intelligence and big data analytics transforming the renewable energy sector?
Big data and AI help make quick decisions in the energy grid. They predict energy needs and keep the grid running smoothly. Startups use these tools to make the grid more efficient.
What are the key advancements in distributed energy storage systems?
Distributed energy storage systems store power locally. This solves the problem of uneven energy production. Startups offer different solutions, like batteries and new technologies.
Flow batteries and solid-state batteries are getting better. Capacitors and supercapacitors help with quick energy needs. New ideas like pumped hydro and Power-to-X are also being explored.
What are the emerging trends in hydropower and ocean energy technologies?
Hydropower and ocean energy are becoming more important. They offer a lot of energy and reduce our need for old energy sources. Startups are working on new ways to use the power of oceans.
How is the wind energy industry expanding globally?
Wind energy is growing, thanks to public policies. China is leading the way with big increases in wind power. But, Europe and North America are moving slower, especially with offshore wind.
The European Union has a new plan to help wind energy. The US is investing in floating wind farms, aiming for 15 GW by 2035.
What are the trends in bioenergy and biofuels?
Biofuels are growing, mainly in countries like Brazil, India, and Indonesia. These countries use biofuels a lot for cars and trucks. Brazil is expected to lead the growth by 2028.
In the US, EU, Canada, and Japan, biofuels are not as popular. But, there is growth in certain types of biofuels.
How are geothermal energy technologies evolving?
Geothermal energy is getting better, thanks to new technologies. Enhanced Geothermal Systems (EGS) can use hot water underground to make electricity. Projects are starting around the world.
But, geothermal energy is expensive. The IEA thinks only 1% of energy will come from geothermal by 2030.
What role is hydrogen playing in the renewable energy landscape?
Hydrogen is becoming important in renewable energy. Green hydrogen is made with solar power and can help clean industries. Startups are working on making green hydrogen cheaper and more efficient.
How are public policies driving the growth of renewable energy?
Governments are helping renewable energy grow with policies. The European Union, India, and the US have plans to support clean energy. These policies are making companies and people want to use more renewable energy.
What are the emerging trends in ocean energy technologies?
Ocean energy is a new area of focus. Startups and researchers are finding ways to use ocean currents, tides, and waves. This adds to our clean energy options and helps meet global energy needs.
How does the transition to renewable energy support climate change mitigation?
Switching to renewable energy is key to fighting climate change. Renewables like solar and wind have less carbon than old energy sources. By using more clean energy, we can all help reduce emissions and protect our planet.
Innovations in solar, wind, and energy storage are making energy cleaner. This supports our goal of a greener future.
Source Links
- What the Future of Renewable Energy Looks Like | Earth.Org – https://earth.org/the-growth-of-renewable-energy-what-does-the-future-hold/
- 2024 renewable energy industry outlook – https://www2.deloitte.com/us/en/insights/industry/renewable-energy/renewable-energy-industry-outlook.html
- TOP 10 Trends in Clean Energy Technology in 2024 – S&P Global Commodity Insights – https://press.spglobal.com/2024-01-22-TOP-10-Trends-in-Clean-Energy-Technology-in-2024-S-P-Global-Commodity-Insights
- Solar Industry Research Data – https://seia.org/research-resources/solar-industry-research-data/
- Top 10 Energy Industry Trends in 2025 | StartUs Insights – https://www.startus-insights.com/innovators-guide/top-10-energy-industry-trends-innovations-in-2021/
- The 5 Biggest Technology Trends For 2025 Everyone Must Be Ready For Now – https://www.forbes.com/sites/bernardmarr/2024/09/23/the-5-biggest-technology-trends-for-2025-everyone-must-be-ready-for-now/
- Big Data Trends for 2025 and Beyond – https://intelliarts.com/blog/big-data-trends-and-predictions/
- 5 Key Big Data Trends (2024 & 2025) – https://explodingtopics.com/blog/big-data-trends
- Distributed Energy Storage System Market Report | 2034 – https://www.factmr.com/report/distributed-energy-storage-system-market
- Energy storage – IEA – https://www.iea.org/energy-system/electricity/grid-scale-storage
- Massive expansion of renewable power opens door to achieving global tripling goal set at COP28 – News – IEA – https://www.iea.org/news/massive-expansion-of-renewable-power-opens-door-to-achieving-global-tripling-goal-set-at-cop28
- New Energy Outlook 2024 | BloombergNEF | Bloomberg Finance LP – https://about.bnef.com/new-energy-outlook/
- Hydropower – IEA – https://www.iea.org/energy-system/renewables/hydroelectricity
- World Energy Transitions Outlook 2023 – https://www.irena.org/Digital-Report/World-Energy-Transitions-Outlook-2023
- The Clean Energy Future Is Arriving Faster Than You Think (Published 2023) – https://www.nytimes.com/interactive/2023/08/12/climate/clean-energy-us-fossil-fuels.html
- Wind – IEA – https://www.iea.org/energy-system/renewables/wind
- Outlook For the Wind Energy Market in 2025-2030 – https://earth.org/wind-energy-market-in-2025-2030/
- Bioenergy – IEA – https://www.iea.org/energy-system/renewables/bioenergy
- Renewable Energy Market Update – June 2023 – https://iea.blob.core.windows.net/assets/63c14514-6833-4cd8-ac53-f9918c2e4cd9/RenewableEnergyMarketUpdate_June2023.pdf
- Geothermal Energy Outlook 2024 | StartUs Insights – https://www.startus-insights.com/innovators-guide/geothermal-energy-outlook/
- The energy world is set to change significantly by 2030, based on today’s policy settings alone – News – IEA – https://www.iea.org/news/the-energy-world-is-set-to-change-significantly-by-2030-based-on-today-s-policy-settings-alone
- TOP 10 Trends in Clean Energy Technology in 2024 – S&P Global Commodity Insights – https://www.spglobal.com/commodityinsights/en/about-commodityinsights/media-center/press-releases/2024/012224-top-10-trends-in-clean-energy-technology-in-2024-s-p-global-commodity-insights
- Top 10 Hydrogen Trends in 2025 | StartUs Insights – https://www.startus-insights.com/innovators-guide/top-10-hydrogen-economy-trends-innovations-in-2021/
- Global Energy Perspective 2023: Hydrogen outlook – https://www.mckinsey.com/industries/oil-and-gas/our-insights/global-energy-perspective-2023-hydrogen-outlook
- Global Energy Outlook 2024: Peaks or Plateaus? – https://www.rff.org/publications/reports/global-energy-outlook-2024/
- BNEF NEO 2024 – https://assets.bbhub.io/professional/sites/24/847353_NEO24_ExecSum.pdf
- Global Energy Perspective 2023: Energy value pools outlook – https://www.mckinsey.com/industries/oil-and-gas/our-insights/global-energy-perspective-2023-energy-value-pools-outlook
- Executive summary – Renewables 2023 – Analysis – IEA – https://www.iea.org/reports/renewables-2023/executive-summary
- McKinsey technology trends outlook 2024 – https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/the-top-trends-in-tech
- Energy Transition Investment Trends 2024 – https://assets.bbhub.io/professional/sites/24/Energy-Transition-Investment-Trends-2024.pdf
- 100% Clean Electricity by 2035 Study – https://www.nrel.gov/analysis/100-percent-clean-electricity-by-2035-study.html
