Wind energy has become an important component of the worldwide renewable energy landscape, and its reliance is expected to grow in the near future. Wind turbines are currently the most widely utilized machinery for converting wind energy into electrical energy, with the movement of the blades powering an electricity generator.
The worldwide wind sector had its second-best year in 2021, adding about 94 GW of capacity globally, following the record increase of 2020 by 1.8 percent.
The wind auction activities bounced back in 2021 with more than 88 GW of wind capacity awarded globally, 153% higher than in 2020.
Although Europe, Latin America, Africa and the Middle East enjoyed record years for new onshore installations, total onshore wind installations in 2021 were still 18% lower than the previous year. The reduction was mostly caused by the slowing of onshore wind growth in the world's two largest wind power markets, China and the United States.
According to the global wind energy council, 557 GW of new capacity is planned to be added during the next five years. That translates to more than 110 GW of new installations per year through 2026, under present policies.
Wind turbines kill a lot of birds and bats. Birds, for example, frequently collide with wind turbine blades. Some bats also perish in this manner. Other bats perish as a result of barotrauma. Barotrauma occurs when a shift in air pressure causes tissue damage. When the blades of a conventional turbine move, they generate a drop in adjacent air pressure. This reduction in air pressure can harm a bat's lungs if it flies too close to a turbine.
Wind energy, like all energy sources, has negative environmental consequences, which includes the ability to diminish, fragment, or damage habitat for wildlife, fish, and plants. Furthermore, rotating turbine blades might endanger flying fauna such as birds and bats.
Wind turbines are expensive to install and maintain, and the break-even point stretches over a very long period of time.
Due to the impact of conventional wind turbines on wildlife, and the potential for these difficulties to delay or obstruct wind construction in high-quality wind resource areas, tackling impact minimization, siting, and permitting issues are one of the wind industry's top goals.
Even though the cost of wind power has decreased dramatically in the past several decades, wind projects must be able to compete economically with the lowest-cost source of electricity, and some locations may not be windy enough to be cost-competitive.
The demand for sustainable energy and the world government’s commitment to cut emissions are some of the other factors expected to drive the deployment of large-scale bladeless wind turbine systems.
Bladeless wind turbines are of different types and each type of bladeless wind turbine employs a different mechanism to use the kinetic energy of the wind for power generation.
EWICON: EWICON stands for Electrostatic Wind Energy Converter which is based on the ion wind generator concept. It provides significantly lower maintenance costs, less wear and tear, and no noise issues.
PowerPod: The PowerPod does include a blade system, but it is entirely contained within the stationary shell, making it safe for children, pets, and wildlife due to the lack of external moving parts.
SWET: The Solid State Wind Energy Transformer, it employs coronal discharge to generate negative air ions that are carried away by the wind from the SWET. The SWET converts wind-induced currents and voltages into electrical power.
The publisher's global bladeless wind turbine market Outlook report consolidates the developments and builds a perspective on growth from the point of view of the bladeless wind power sector in its current and future role.
The report provides a comprehensive analysis of the historical development, the current state of the bladeless wind turbine installation scenario, and its outlook.
The majority of data in the report have been derived from multiple bottom-up and top-down analyses, as well as proprietary models, databases, and offerings - Wind Intelligence Hub and Global Project Tracker Service built from public and exclusive sources over the years.
The insights include but are not limited to the market data, bladeless wind turbine installation data and capacity additions data and forecast, government policies and regulations, project data (upcoming bladeless wind turbine projects, under-construction projects, and operating/commissioned projects), company profiles of major players, and competitive landscape analysis.
The market research report covers market dynamics, growth potential of the bladeless wind turbine markets, economic trends, and investment & financing scenarios.
Further, the report looks at the current state and assesses the potential of the new technological developments in the industry.
Special attention is given to depicting the impact of the ongoing COVID-19 pandemic and changes in the government policies and regulatory landscape.
The new report from the publisher on the global bladeless wind turbines market comprehensively analyses the global bladeless wind turbine market and provides deep insight into the current and future state of the industry. The study examines the drivers, restraints, and regional trends influencing global bladeless wind turbine market demand and growth.
Effective market segmentation enables you to identify emerging trends and opportunities for long-term growth. Contact us for bespoke market segmentation to better align the research report with your requirements.
This product will be delivered within 5-7 business days.
Global Wind Energy Scenario
By the end of 2021, the total global wind power (both onshore and offshore wind power) installation stood at 824874 MW.The worldwide wind sector had its second-best year in 2021, adding about 94 GW of capacity globally, following the record increase of 2020 by 1.8 percent.
The wind auction activities bounced back in 2021 with more than 88 GW of wind capacity awarded globally, 153% higher than in 2020.
Although Europe, Latin America, Africa and the Middle East enjoyed record years for new onshore installations, total onshore wind installations in 2021 were still 18% lower than the previous year. The reduction was mostly caused by the slowing of onshore wind growth in the world's two largest wind power markets, China and the United States.
According to the global wind energy council, 557 GW of new capacity is planned to be added during the next five years. That translates to more than 110 GW of new installations per year through 2026, under present policies.
Drivers
Disadvantages of Conventional Wind Turbine System
Even though wind energy is considered a clean energy source in terms of renewability and carbon emissions, there are important environmental and social impacts. To be completely sustainable, wind power needs to address these impacts.Wind turbines kill a lot of birds and bats. Birds, for example, frequently collide with wind turbine blades. Some bats also perish in this manner. Other bats perish as a result of barotrauma. Barotrauma occurs when a shift in air pressure causes tissue damage. When the blades of a conventional turbine move, they generate a drop in adjacent air pressure. This reduction in air pressure can harm a bat's lungs if it flies too close to a turbine.
Wind energy, like all energy sources, has negative environmental consequences, which includes the ability to diminish, fragment, or damage habitat for wildlife, fish, and plants. Furthermore, rotating turbine blades might endanger flying fauna such as birds and bats.
Wind turbines are expensive to install and maintain, and the break-even point stretches over a very long period of time.
Due to the impact of conventional wind turbines on wildlife, and the potential for these difficulties to delay or obstruct wind construction in high-quality wind resource areas, tackling impact minimization, siting, and permitting issues are one of the wind industry's top goals.
Even though the cost of wind power has decreased dramatically in the past several decades, wind projects must be able to compete economically with the lowest-cost source of electricity, and some locations may not be windy enough to be cost-competitive.
The demand for sustainable energy and the world government’s commitment to cut emissions are some of the other factors expected to drive the deployment of large-scale bladeless wind turbine systems.
Bladeless Wind Turbine
The concept of bladeless turbines is gaining acceptance for converting the wind energy into electricity. The bladeless wind turbine has the ability to solve the majority of the issues which arise with traditional wind turbines with blades.Bladeless wind turbines are of different types and each type of bladeless wind turbine employs a different mechanism to use the kinetic energy of the wind for power generation.
Types of Bladeless Wind Turbines Technologies
Vortex Bladeless Wind turbine: Vortex turbine is a bladeless wind turbine that is vertical, slender, and cylinder-shaped. It is made up of a fixed part where the device is fastened to a basement and a flexible part that interacts freely with the fluid in an oscillation movement, acting as a cantilever. The mechanical energy from vortex induced vibration is converted into electric power.EWICON: EWICON stands for Electrostatic Wind Energy Converter which is based on the ion wind generator concept. It provides significantly lower maintenance costs, less wear and tear, and no noise issues.
PowerPod: The PowerPod does include a blade system, but it is entirely contained within the stationary shell, making it safe for children, pets, and wildlife due to the lack of external moving parts.
SWET: The Solid State Wind Energy Transformer, it employs coronal discharge to generate negative air ions that are carried away by the wind from the SWET. The SWET converts wind-induced currents and voltages into electrical power.
The publisher's global bladeless wind turbine market Outlook report consolidates the developments and builds a perspective on growth from the point of view of the bladeless wind power sector in its current and future role.
The report provides a comprehensive analysis of the historical development, the current state of the bladeless wind turbine installation scenario, and its outlook.
The majority of data in the report have been derived from multiple bottom-up and top-down analyses, as well as proprietary models, databases, and offerings - Wind Intelligence Hub and Global Project Tracker Service built from public and exclusive sources over the years.
The insights include but are not limited to the market data, bladeless wind turbine installation data and capacity additions data and forecast, government policies and regulations, project data (upcoming bladeless wind turbine projects, under-construction projects, and operating/commissioned projects), company profiles of major players, and competitive landscape analysis.
The market research report covers market dynamics, growth potential of the bladeless wind turbine markets, economic trends, and investment & financing scenarios.
Further, the report looks at the current state and assesses the potential of the new technological developments in the industry.
Special attention is given to depicting the impact of the ongoing COVID-19 pandemic and changes in the government policies and regulatory landscape.
The new report from the publisher on the global bladeless wind turbines market comprehensively analyses the global bladeless wind turbine market and provides deep insight into the current and future state of the industry. The study examines the drivers, restraints, and regional trends influencing global bladeless wind turbine market demand and growth.
What is covered in the Report?
Global Bladeless Wind Turbine Market Drivers & Restraints
The study covers all the major underlying forces that help the market develop and grow and the factors that constrain the growth. The report includes a meticulous analysis of each factor, explaining the relevant, qualitative information with supporting data. Each factor's respective impact in the near, medium and long term will be covered using Harvey balls for visual communication of qualitative information and functions as a guide for you to analyze the degree of impact.Global Bladeless Wind Turbine Market Analysis
This report discusses the overview of the market, latest updates, important commercial developments and structural trends, and government policies and regulations. This section provides an assessment of COVID 19 impact on global bladeless wind turbine market demand.Global Bladeless Wind Turbine Installed Capacity and Demand Forecast
The report provides global bladeless wind turbine installed capacity and demand forecast until 2028, including year-on-year (YoY) growth rates and CAGR.Global Bladeless Wind Turbine Industry Analysis
The report examines the critical elements of the bladeless wind turbine industry supply chain, its structure, and participants using Porter's five forces framework and PESTEL analysis. The report covers the assessment of the global bladeless wind turbine industry's state of competition and profitability.Global Bladeless Wind Turbine Market Segmentation & Forecast
The report dissects the global bladeless wind turbine market into segments by end-use sector and by technology type. A detailed summary of the current scenario, recent developments, and market outlook will be provided for each segment. Further, market size and demand forecasts will be presented, along with various drivers and barriers for individual market segments.Effective market segmentation enables you to identify emerging trends and opportunities for long-term growth. Contact us for bespoke market segmentation to better align the research report with your requirements.
Key Company Profiles
This report presents detailed profiles of Key companies in the global bladeless wind turbine industry. In general, each company profile includes - an overview of the company, relevant products and services, a financial overview, and recent developments.Competitive Landscape
The report provides a comprehensive list of notable companies in the market, including mergers and acquisitions (M&As), joint ventures (JVs), partnerships, collaborations, and other business agreements. The study also discusses the strategies adopted by leading players in the industry.Executive Summary
The Executive Summary will be jam-packed with charts, infographics, and forecasts. This chapter summarizes the findings of the report crisply and clearly. The report begins with an Executive Summary chapter and ends with Conclusions and Recommendations.This product will be delivered within 5-7 business days.
Table of Contents
1. Executive Summary2. Research Scope and Methodology5. PESTLE Analysis8. Key Company Profiles9. Conclusions and RecommendationsAbbreviationsAdditional NotesDisclaimer
3. Market Analysis
4. Market Outlook
6. Market Segmentation & Analysis
7. Competitive Landscape
Companies Mentioned (Partial List)
A selection of companies mentioned in this report includes, but is not limited to:
- Vortex Bladeless S.L
- Halcium Oy
- SheerWind Inc.