Global Renewable Energy Market By Size, Share, Trends, Opportunity and Forecast, 2018-2028, Segmented By Type, By End Use Industry, By Region, By Competition Forecast and Opportunities

The Industrial Energy Data Book (IEDB) aggregates and synthesizes information on the trends in industrial energy use, energy prices, economic activity, and water use. The IEDB also estimates county-level industrial energy use and combustion energy use of large energy-using facilities (i.e., facilities required to report greenhouse gas emissions under the EPA's Greenhouse Gas Reporting Program). These estimates are derived from publicly available sources from EPA, Energy Information Administration, Census Bureau, USDA, and USGS. The estimation methodology is meant to be improved over time with input from the energy analysis and developer communities. Please refer to https://github.com/NREL/Industry-energy-data-book.

Dataset

This dataset was created by Vishal Sharma

Contents

📝 Description

The Global Energy Consumption Dataset provides comprehensive insights into energy usage across different countries and sectors over the past two decades. The dataset aims to help researchers, data analysts, and policymakers understand consumption patterns, identify high-consumption regions, and analyze the impact of renewable energy adoption and carbon emissions.

This dataset allows you to:

Visualize global energy trends. Predict future consumption patterns. Analyze the impact of renewable energy and fossil fuels. Correlate energy usage with economic growth and carbon emissions. Build machine learning models for energy price forecasting and efficiency analysis.

Dataset Description Title: Electricity Market Dataset for Long-Term Forecasting (2018–2024)

Overview: This dataset provides a comprehensive collection of electricity market data, focusing on long-term forecasting and strategic planning in the energy sector. The data is derived from real-world electricity market records and policy reports from Germany, specifically the Frankfurt region, a major European energy hub. It includes hourly observations spanning from January 1, 2018, to December 31, 2024, covering key economic, environmental, and operational factors that influence electricity market dynamics. This dataset is ideal for predictive modeling tasks such as electricity price forecasting, renewable energy integration planning, and market risk assessment.

Features Description Feature Name Description Type Timestamp The timestamp for each hourly observation. Datetime Historical_Electricity_Prices Hourly historical electricity prices in the Frankfurt market. Continuous (Float) Projected_Electricity_Prices Forecasted electricity prices (short, medium, long term). Continuous (Float) Inflation_Rates Hourly inflation rate trends impacting energy markets. Continuous (Float) GDP_Growth_Rate Hourly GDP growth rate trends for Germany. Continuous (Float) Energy_Market_Demand Hourly electricity demand across all sectors. Continuous (Float) Renewable_Investment_Costs Investment costs (capital and operational) for renewable energy projects. Continuous (Float) Fossil_Fuel_Costs Costs for fossil fuels like coal, oil, and natural gas. Continuous (Float) Electricity_Export_Prices Prices for electricity exports from Germany to neighboring regions. Continuous (Float) Market_Elasticity Sensitivity of electricity demand to price changes. Continuous (Float) Energy_Production_By_Solar Hourly solar energy production. Continuous (Float) Energy_Production_By_Wind Hourly wind energy production. Continuous (Float) Energy_Production_By_Coal Hourly coal-based energy production. Continuous (Float) Energy_Storage_Capacity Available storage capacity (e.g., batteries, pumped hydro). Continuous (Float) GHG_Emissions Hourly greenhouse gas emissions from energy production. Continuous (Float) Renewable_Penetration_Rate Percentage of renewable energy in total energy production. Continuous (Float) Regulatory_Policies Categorical representation of regulatory impact on electricity markets (e.g., Low, Medium, High). Categorical Energy_Access_Data Categorization of energy accessibility (Urban or Rural). Categorical LCOE Levelized Cost of Energy by source. Continuous (Float) ROI Return on investment for energy projects. Continuous (Float) Net_Present_Value Net present value of proposed energy projects. Continuous (Float) Population_Growth Population growth rate trends impacting energy demand. Continuous (Float) Optimal_Energy_Mix Suggested optimal mix of renewable, non-renewable, and nuclear energy. Continuous (Float) Electricity_Price_Forecast Predicted electricity prices based on various factors. Continuous (Float) Project_Risk_Analysis Categorical analysis of project risks (Low, Medium, High). Categorical Investment_Feasibility Indicator of the feasibility of energy investments. Continuous (Float) Use Cases Electricity Price Forecasting: Utilize historical and projected price trends to predict future electricity prices. Project Risk Classification: Categorize projects into risk levels for better decision-making. Optimal Energy Mix Analysis: Analyze the balance between renewable, non-renewable, and nuclear energy sources. Policy Impact Assessment: Study the effect of regulatory and market policies on energy planning. Long-Term Strategic Planning: Provide insights into investment feasibility, GHG emission reduction, and energy market dynamics. Acknowledgment This dataset is based on publicly available records and market data specific to the Frankfurt region, Germany. The dataset is designed for research and educational purposes in energy informatics, computational intelligence, and long-term forecasting.

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Distributed Energy Generation Market Size 2024-2028

The distributed energy generation market size is forecast to increase by USD 252.1 billion at a CAGR of 13.63% between 2023 and 2028.

Distributed Energy Generation (DEG) is a significant segment of the global energy market, encompassing various technologies such as solar panels, wind turbines, fuel cells, and energy storage systems. Key drivers propelling the DEG market include the transition towards electric vehicles (EVs) and the increasing penetration of renewable energy sources, like solar PV and wind energy. However, challenges persist, including high equipment and installation costs, which necessitate the use of advanced semiconductor materials and digital technologies to optimize performance and reduce costs. Furthermore, the integration of DEG systems with microgrids, transformers, inverters, and batteries is crucial for ensuring grid stability and reliability. The adoption of natural gas and bioenergy as alternative fuels for electric generators is another emerging trend. Overall, the DEG market is poised for growth, driven by advancements in technology and the pressing need for sustainable and cost-effective energy solutions.

What will be the Size of the Distributed Energy Generation Market During the Forecast Period?

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The market encompasses various technologies, including renewable energy sources such as wind, sun, and biomass, as well as reciprocating engines, turbines, and fuel cell technology. This market is driven by increasing electricity demand and the shift towards cleaner, more efficient energy sources. Renewable energy, particularly solar panel installation and wind turbines, is a significant contributor to this market's growth.
Moreover, microgrids and batteries play crucial roles in energy storage and grid expansion, ensuring energy availability and reliability. Environmental concerns continue to influence market dynamics, with a focus on energy efficiency standards and the adoption of green transformers and microgrid infrastructure. Technological advancements in solar panels, wind turbines, combustion engines, micro turbines, combustion turbines, and micro hydropower further propel market growth. Overall, the market is poised for continued expansion as the world seeks sustainable and efficient energy solutions.

How is this Distributed Energy Generation Industry segmented and which is the largest segment?

The distributed energy generation industry research report provides comprehensive data (region-wise segment analysis), with forecasts and estimates in 'USD billion' for the period 2024-2028, as well as historical data from 2018-2022 for the following segments.

End-user

  Residential
  Commercial
  Industrial


Technology

  Solar PV
  Hydro power
  Fuel cells
  Wind turbine
  Others


Geography

  APAC

    China
    India


  Europe

    Germany
    UK


  North America

    US


  South America



  Middle East and Africa

By End-user Insights

The residential segment is estimated to witness significant growth during the forecast period.

Distributed energy generation in residential settings refers to the production of electricity or heat through small-scale energy systems installed in homes. This approach enables homeowners to generate their own power on-site, reducing dependence on traditional power grids and promoting the use of renewable energy sources such as wind, sun, and biomass. The increasing environmental consciousness and the desire for sustainable living have fueled the demand for distributed energy generation. Homeowners can benefit from reduced electricity bills, energy independence, lower carbon emissions, and improved resilience during power outages. Solar panel installation, microgrids, batteries, and fuel cell technology are key components of distributed energy generation systems.

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The residential segment was valued at USD 72.30 billion in 2018 and showed a gradual increase during the forecast period.

Regional Analysis

APAC is estimated to contribute 34% to the growth of the global market during the forecast period.

Technavio's analysts have elaborately explained the regional trends and drivers that shape the market during the forecast period.

For more insights on the market share of various regions, Request Free Sample

Distributed energy generation is a growing trend In the Asia-Pacific (APAC) region as countries prioritize energy security, reduce carbon emissions, and foster sustainable development. Renewable energy sources, particularly solar and wind, are increasingly preferred over traditional fossil fuel-based electricity generation due to their cleaner and more sustainable nature. This shift allows homeowners to decrease their carbon footprint and contr

The offshore wind energy market is projected to grow to $50,450.9 million by 2023. This market report focuses on components (turbine, electrical infrastructure, and substrate) & on location (shallow, transitional, and deep water) by revenue ($million) and by regional installed capacity (mw)

This dataset tracks annual graduation rate from 2018 to 2023 for Energy Tech High School vs. New York and New York City Geographic District #30

This data book provides certain data behind figures and tables found in the NREL presentation Status and Trends in the U.S. Voluntary Green Power Market 2018 Data. These data reflect estimates based on the best available data.

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Smart Energy Market Size 2024-2028

The smart energy market size is forecast to increase by USD 7.26 billion at a CAGR of 19.1% between 2023 and 2028.

The market is experiencing significant growth, driven by the increasing adoption of smart grid technologies and the rising investment in smart cities and smart homes. These trends are transforming the energy sector by enabling more efficient energy management and consumption. However, the intermittency in solar energy remains a challenge, as renewable energy sources become an increasingly larger part of the energy mix. To capitalize on market opportunities and navigate challenges effectively, companies must stay abreast of technological advancements and regulatory developments.
Strategic partnerships and collaborations can also help organizations expand their reach and enhance their offerings. By focusing on innovation and flexibility, companies can position themselves to thrive in this dynamic market.

What will be the Size of the Smart Energy Market during the forecast period?

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The market encompasses a range of technologies and services aimed at optimizing energy production and consumption, reducing carbon footprints, and integrating renewable energy sources into the grid. Key components include smart meters, distribution automation systems, and advanced metering devices for homes, offices, and industrial plants. Capital expenditures in this sector are driven by the adoption of smart grid technologies, such as solar energy, wind energy, and smart thermal grids. Consulting services play a crucial role in the development and implementation of these solutions, ensuring regulatory compliance and work management efficiency. The market's growth is fueled by the increasing importance of energy efficiency, the rise of renewable energy sources, and the integration of smart electricity grids.
Hardware, including smart sensors and communication networks, are essential for enabling real-time monitoring and control of energy usage. Overall, the market is experiencing significant growth as businesses and consumers seek to minimize their carbon footprints and improve energy management.

How is this Smart Energy Industry segmented?

The smart energy industry research report provides comprehensive data (region-wise segment analysis), with forecasts and estimates in 'USD billion' for the period 2024-2028, as well as historical data from 2018-2022 for the following segments.

Application

  Smart grid
  Digital oilfield
  Smart solar systems
  HEMS


End-user

  Industrial
  Commercial
  Residential


Component

  Solution
  Services


Geography

  North America

    US
    Canada


  Europe

    France
    Germany
    Italy
    UK


  APAC

    China
    India
    Japan


  South America

    Argentina
    Brazil


  Middle East and Africa

    Egypt
    KSA
    Oman
    UAE


  Rest of World (ROW)

By Application Insights

The smart grid segment is estimated to witness significant growth during the forecast period. The market encompasses the deployment of intelligent electricity meters, solar energy, and renewable energy sources in homes, offices, and industrial plants. Smart grids, a significant segment of this market, leverage advanced metering devices, network infrastructure, and system integration services to optimize energy supply security. The US is a pioneer in this field, with substantial investments in smart grid technology. In 2022, the US allocated USD 84 billion for grid investments, making it the global leader. China follows with USD 75 billion, and other countries invest USD 63 billion. The smart grid market consists of electric grid equipment and services, including distribution automation systems, network management software, and hardware.

This technology integration aids in the efficient management of renewable power sources, such as solar and wind, and reduces carbon footprints while adhering to regulatory standards. Smart thermal grids and work management systems further enhance industrial processes, ensuring energy efficiency and cost savings. Smart gas and steam turbines are also integral components of the market, contributing to the overall growth and development of renewable energy sources.

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The Smart grid segment was valued at USD 1.92 billion in 2018 and showed a gradual increase during the forecast period.

Regional Analysis

North America is estimated to contribute 34% to the growth of the global market during the forecast period. Technavio's analysts have elaborately explained the regional trends and drivers that shape the market during the forecast period.

For more insights on the market size of various regions, Request Free Sample

In North America, the growing emphasis on smart electricity and the expansion of intelligent electricity meters in

🇮🇳 Renewable Energy Dataset: India (State-wise, Yearly)

This open-source dataset provides comprehensive, state-wise data on renewable energy installations across India over multiple years. It includes capacity data (in megawatts) for various energy sources along with economic and demographic indicators like GSDP and population, enabling rich analysis of India’s clean energy landscape.

Some missing values in the dataset have been predicted using the XGBoost (XGB) Regression model, ensuring greater continuity and enabling robust time-series or ML-based analysis.

📦 Dataset Overview

📊 Potential Use Cases

• Analyze trends in renewable energy deployment across states
• Study the relationship between renewable energy and economic indicators like GSDP
• Benchmark per capita and per-GSDP clean energy growth
• Develop ML models for forecasting or policy analysis
• Create data visualizations for advocacy or awareness

📂 Repository Structure

renewable-india-dataset/
├── data/
│  └── renewable_energy_india.csv
├── notebooks/
│  └── explore_dataset.ipynb
├── LICENSE
└── README.md

🌐 Data Sources

• Ministry of New and Renewable Energy (MNRE)
• State Government Economic Surveys
• Census of India
• RBI & Planning Commission (GSDP data)

🔖 License

This dataset is released under the MIT License. You are free to use, share, and modify it, with attribution.

🤝 Contributing

Contributions are welcome! Feel free to fork the repo, open issues, or submit pull requests to improve the dataset, add notebooks, or fix bugs.

If you're working on a project using this dataset and would like help, feel free to reach out via LinkedIn.

🚀 About

Created and maintained by Chris Jaimy Antony with the aim of democratizing access to clean energy data and enabling better analysis for sustainability research and policy.

⚠️ Disclaimer

This dataset is a curated collection of public data sources and contains some values predicted using XGBoost regression. GSDP values are nominal and not inflation-adjusted, so this dataset is not yet suitable for formal economic research without further processing.

If you're planning to use this in an academic project, I'd appreciate a mention or GitHub citation — and feel free to reach out!

This statistic shows the results of a survey on the trend of investments in energy efficiency among companies in Italy from 2016 to 2018. The share of enterprises increasing the level of investments in energy efficiency increased from ** percent to ** percent between 2016 and 2017. On the other hand, the percentage of companies decreasing their investments declined, going from ** percent to **** percent. In 2018, however, the majority of companies did not foresee any change in their level of investment in energy efficiency.

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The powerships market share is expected to increase by 7.38 GW from 2020 to 2025, and the market’s growth momentum will accelerate at a CAGR of 23%.

This powerships market research report provides valuable insights on the post COVID-19 impact on the market, which will help companies evaluate their business approaches. Furthermore, this report extensively covers market segmentations by type (Oil-fired and Gas-fired) and geography (MEA and ROW). The powerships market report also offers information on several market vendors, including ABB Ltd., Power Barge Corp., GAS Entec Co. Ltd., General Electric Co., Karadeniz Holding, Mitsui O.S.K. Lines Ltd., Volkswagen AG, Waller Marine Inc., Wartsila Corp., and Burmeister & Wain Scandinavian Contractor AS among others.

What will the Powerships Market Size be During the Forecast Period?

Download the Free Report Sample to Unlock the Powerships Market Size for the Forecast Period and Other Important Statistics

Powerships Market: Key Drivers and Trends

Based on our research output, there has been a negative impact on the market growth during and post COVID-19 era. The rising global energy demand is notably driving the powerships market growth, although factors such as competition from renewable energy sources may impede market growth. Our research analysts have studied the historical data and deduced the key market drivers and the COVID-19 pandemic impact on the powerships industry. The holistic analysis of the drivers will help in deducing end goals and refining marketing strategies to gain a competitive edge.

Key Driver for the Powerships Market

Rising global energy demand is one of the key drivers for the market in focus. The robust economic growth has increased the demand for energy across the globe. The global energy demand growth was driven by countries such as China and the US, which together accounted for more than 70% of the global energy demand growth in 2018. The global electricity demand is expected to increase twofold compared with global energy demand, thus registering a significant growth rate. The growth in global electricity demand is driven by emerging economies such as China and India, which will drive the market in focus during the forecast period.

Key Challenge for the Powerships Market

Competition from renewable energy sources is one of the key challenges for the market in focus. The power sector accounted for nearly two-thirds of the growth in emissions in 2018. As a result, there has been a rising focus on the adoption of clean energy sources such as renewables. The increasing carbon emissions due to power generation has been propelling the adoption of clean energy sources such as renewables. Thus, the rising adoption of renewables for electricity production limits the use of fossil fuels such as natural gas and oil, thereby hindering the growth of the market in focus.

This powerships market analysis report also provides detailed information on other upcoming trends and challenges that will have a far-reaching effect on the market growth. The actionable insights on the trends and challenges will help companies evaluate and develop growth strategies for 2021-2025.

Who are the Major Powerships Market Vendors?

The report analyzes the market’s competitive landscape and offers information on several market vendors, including:

ABB Ltd.
Power Barge Corp.
GAS Entec Co. Ltd.
General Electric Co.
Karadeniz Holding
Mitsui O.S.K. Lines Ltd.
Volkswagen AG
Waller Marine Inc.
Wartsila Corp.
Burmeister & Wain Scandinavian Contractor AS

This statistical study of the powerships market encompasses successful business strategies deployed by the key vendors. The powerships market is concentrated and the vendors are deploying various organic and inorganic growth strategies to compete in the market.

To make the most of the opportunities and recover from post COVID-19 impact, market vendors should focus more on the growth prospects in the fast-growing segments, while maintaining their positions in the slow-growing segments.

The powerships market forecast report offers in-depth insights into key vendor profiles. The profiles include information on the production, sustainability, and prospects of the leading companies.

Which are the Key Regions for Powerships Market?

For more insights on the market share of various regions Request for a FREE sample now!

57% of the market’s growth will originate from MEA during the forecast period. Indonesia, Ghana, Lebanon, Iraq, and Sudan are the key markets for powerships market in MEA. Market growth in this region will be slower than the growth of the market in ROW.

Rising global energy demand and the presence of huge oil reserves will facilitate the powerships market growth in MEA over the forecast period. This market research report entails detailed information on the competitive intelligence, marketing gaps, and regional opportunities in s

This statistic displays the annual electricity generation from waste-to-energy plants* in Spain from 2009 to 2018. During the period under consideration, the electricity generation experienced an upward trend reaching its highest value in 2017 with a generation of more than *** thousand gigawatts per hour.

Finland Renewable Energy Market Outlook 2031

The Finland Renewable Energy Market size was USD XX Billion in 2022 and is likely to reach USD XX Billion by 2031, expanding at a CAGR of 8% during 2023–2031. The growth of the market is attributed to the government regulations that emphasize decreasing greenhouse gas emissions via the use of renewable energy.



Finland's emphasis on renewable energy makes the country self-sufficient while also helping to boost jobs. However, obstacles such as the inconstancy of accessible solar energy in the nation, as well as high installation prices, are likely to stymie the market's expansion.

Finland has approved the National Energy and Climate Strategy for 2030 intending to boost its renewable energy contribution in the energy mix. The plan lays out specific measures and goals for achieving the goal of increasing renewable energy's share in the energy mix to more than 50% by 2030. Furthermore, the strategy specifies actions to reduce greenhouse gas emissions to about 80-90 per cent by 2050. As a result, the effort is likely to provide the market with a boost shortly.



Wind power is a renewable energy source. After hydropower, Finland is the second-largest source of renewable energy. In terms of power generation, it increased by about 55 percent in 2018. Finland plans to build seven new wind energy projects to meet its 2050 greenhouse emission reduction objective and lessen its reliance on neighboring nations for electricity. The wind project's first installation is expected to be operational in 2020.



The seven wind energy projects are expected to generate 1.36 terawatt-hours (TWh) of electricity annually, reducing the country's dependency on power imports from Sweden and Russia. Furthermore, Finland has a small number of other wind projects in the works, with approximately 13000 MW onshore and 2700 MW offshore projects. The execution of these projects is intended to propel Finland's future renewable energy industry.



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The Poland renewable energy market size was USD XX Billion in 2022 and is likely to reach USD XX Billion by 2031, expanding at a CAGR of 14.51% during 2023–2031. The growth of the market is attributed to the several government initiatives that emphasize transitioning its power output from coal to renewable fuels.



The renewable energy market in Poland is fragmented. Renewable energy sources assist to diversify energy sources and fulfil the country's growing energy demand from greener sources. To reach its objective of 15% renewable energy in its energy mix by 2020, the government plans to expand its solar PV contribution.

Poland has extended its plans until 2030 in order to increase its renewable energy share in the energy mix. Furthermore, Poland has a large industrial potential for developing the offshore wind energy sector. As a result, market expansion in the offshore wind industry, as well as further efforts to reach the 2030 objective, is likely to offer an opportunity in the near future.



During the year 2018, Poland has three wind farms under development, with a total capacity of about 97.2 MW. By the middle of 2020, the projects are expected to be completed. In addition, Poland has three wind farm projects under development, each with a capacity of about 132 MW.



The projects are expected to increase Poland's onshore wind energy capacity. Poland, Europe's largest coal exporter and second-largest coal consumer, is gradually but steadily converting to renewables in order to increase energy security and reach the European Union's objective of 15% renewable energy by 2020.

Market Trends, Drivers, Restraints, and Opportunities

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This dataset tracks annual total students amount from 2016 to 2023 for Ohio Valley Energy Technology Academy

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Wave And Tidal Energy Market Size 2024-2028

The wave and tidal energy market size is forecast to increase by USD 1.25 billion, at a CAGR of 27.47% between 2023 and 2028.

The market is experiencing significant growth due to the rising global energy demand and the increasing popularity of clean energy technologies. However, high capital costs associated with wave and tidal energy projects remain a major challenge. The market is expected to witness steady growth as governments and private entities continue to invest in renewable energy sources. The adoption of advanced technologies, such as underwater turbines and energy storage solutions, is also driving market growth. Despite these opportunities, the high initial investment required for wave and tidal energy projects may hinder market expansion. To mitigate this challenge, collaborations between governments, private entities, and technology providers are essential to reduce costs and increase efficiency. Overall, the market holds immense potential for growth and is poised to make a significant contribution to the global energy landscape.

What will be the Size of the Wave And Tidal Energy Market During the Forecast Period?

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The market encompasses the generation of electricity and other applications, such as desalination and pumping of water, utilizing Earth's surface waves and tidal movements. This sector is a significant contributor to the renewable energy landscape, offering sustainable power solutions. Ocean surface waves, driven by wind, and tidal movements, caused by gravitational forces, are harnessed through various technologies, including oscillating water columns, tidal barrages, tidal stream generators, and wave energy converters. These technologies convert the kinetic energy of the ocean into electricity, contributing to the ocean energy generation segment. Tidal energy, specifically, leverages the rise and fall of tidal movements to generate power, while wave energy focuses on converting the energy of ocean waves. The market is experiencing significant growth due to increasing global focus on green technologies and the need for sustainable power generation.

How is this Wave And Tidal Energy Industry segmented and which is the largest segment?

The wave and tidal energy industry research report provides comprehensive data (region-wise segment analysis), with forecasts and estimates in 'USD billion' for the period 2024-2028, as well as historical data from 2018-2022 for the following segments.

Type

  Tidal energy
  Wave energy


Application

  Power generation
  Desalination


Geography

  Europe

    UK
    France
    Italy


  APAC

    China
    South Korea


  North America



  South America



  Middle East and Africa

By Type Insights

The tidal energy segment is estimated to witness significant growth during the forecast period.

Tidal and wave energy represent promising segments of renewable power generation, harnessing the natural movements of the Earth's oceans. Tidal energy is derived from the gravitational pull of the moon and sun, causing a rise and fall of ocean levels. This results in tidal currents, which can be utilized to generate electricity through specialized turbines or barrages. Wave energy, on the other hand, is derived from wind-driven ocean surface waves. Both tidal and wave energy offer significant potential for sustainable power generation, contributing to economic positioning, employment, and energy security. Moreover, these green technologies can be employed in various applications, including desalination, pumping of water, and electricity generation.

Tidal and wave energy projects can be integrated with water engineering and management development, creating opportunities for water infrastructure and water management solutions. Key technologies for tidal energy include oscillating water columns, tidal barrages, tidal stream generators, and tidal fences. Wave energy converters are used for ocean energy generation. Tidal and wave energy are crucial renewable energy sources, contributing to the reduction of greenhouse gas emissions. As governments and organizations invest in sustainable projects, the market for tidal and wave energy is expected to grow. The technology segment is witnessing significant advancements, with companies focusing on improving efficiency and reducing costs.

Get a glance at the Wave And Tidal Energy Industry report of share of various segments Request Free Sample

The tidal energy segment was valued at USD 143.80 million in 2018 and showed a gradual increase during the forecast period.

Regional Analysis

Europe is estimated to contribute 58% to the growth of the global market during the forecast period.

Technavio’s analysts have elaborately explained the regional trends and drivers that shape the market during the forecast period.

For more insights on the m