フライホイールエネルギー貯蔵市場レポート : 2025-2033年

フライホイールエネルギー貯蔵市場レポート : 用途（無停電電源装置（UPS）、分散型エネルギー生成、輸送、データセンターなど）、および地域 2025-2033年

フライホイールエネルギー貯蔵市場は、2024年に3億4,330万米ドルに達しました。今後、市場規模は2033年までに6億2,640万米ドルに達し、2025年から2033年にかけて6.9%の年平均成長率（CAGR）で成長すると予測されています。再生可能エネルギーの導入拡大、無停電電源供給への需要の高まり、そしてフライホイールによるエネルギー貯蔵・放出の効率化を可能にする複合材料の進歩に牽引され、市場は着実な成長を遂げています。

風力や太陽光発電といった再生可能エネルギー源の普及が、市場の成長を牽引しています。世界的な炭素排出量削減と持続可能なエネルギーへの移行が焦点となっている中、再生可能エネルギーの不安定な性質は、特有の課題となっています。フライホイール蓄電システムは、この移行において重要な推進力として浮上しています。再生可能エネルギーの発電量は、気象条件や日照時間などの要因によって本質的に変動します。フライホイール蓄電システムは、利用可能な時に余剰エネルギーを効率的に捕捉し、需要がピークに達した時や再生可能エネルギー源が一時的に停止した時に放出することで、この変動性に対応します。迅速な応答時間と高いエネルギー密度は、再生可能エネルギーの出力変動を平滑化するのに最適です。各国が野心的なクリーンエネルギー目標の達成を目指す中、再生可能エネルギーの統合を促進する上でのフライホイール蓄電の役割は、強調しすぎることはありません。エネルギーの発電と消費の間のバッファーとして機能することで、これらのシステムは電力系統の安定性を高め、余剰の再生可能エネルギー電力の出力抑制を減らし、より信頼性が高く持続可能なエネルギーインフラの構築に貢献します。

Report Overview

The global flywheel energy storage market size reached USD 343.3 Million in 2024. Looking forward, the market is expected to reach USD 626.4 Million by 2033, exhibiting a growth rate (CAGR) of 6.9% during 2025-2033. The market is experiencing steady growth driven by the increasing integration of renewable energy, the escalating demand for uninterrupted power supply and rising advancements in composite materials that enable flywheels to store and release energy more efficiently.

Flywheel Energy Storage Market Trends:

Increasing renewable energy integration

The proliferation of renewable energy sources like wind and solar power is propelling the growth of the market. With the global focus on lowering carbon emissions and transitioning to sustainable energy, the intermittent nature of renewables presents a unique challenge. Flywheel energy storage systems are emerging as a crucial enabler in this transition. Renewable energy generation is inherently variable, depending on factors like weather conditions and daylight hours. Flywheel energy storage systems address this variability by capturing excess energy efficiently when it is available and releasing it when demand peaks or when renewable sources are momentarily inactive. Their rapid response times and high energy density make them ideal for smoothing out fluctuations in renewable energy output. As nations strive to meet ambitious clean energy targets, the role of flywheel energy storage in facilitating the integration of renewables cannot be overstated. By acting as a buffer between energy generation and consumption, these systems enhance grid stability, reduce curtailment of excess renewable power, and contribute to a more reliable and sustainable energy infrastructure.

Grid modernization initiatives

Grid modernization initiatives are gaining traction around the world as governments and utilities aim to enhance the reliability, efficiency, and resilience of power distribution systems. Within this transformation, flywheel energy storage systems are assuming a pivotal role. Grid modernization encompasses the deployment of advanced technologies to monitor and control electricity flow more effectively. Flywheels are instrumental in stabilizing the grid by regulating voltage and frequency, ensuring a consistent and dependable power supply. Their ability to respond within milliseconds to grid disturbances, such as abrupt load changes or voltage fluctuations, plays a vital role in maintaining the stability of modernized grids. This responsiveness prevents disruptions and power quality issues, contributing to a more robust and efficient electrical infrastructure.

Rising demand for uninterrupted power supply (UPS)

In an increasingly digitalized world where uninterrupted power supply (UPS) is paramount, the demand for reliable energy storage solutions is on a rise. Industries, such as data centers, healthcare facilities, telecommunications, and manufacturing, depend on seamless power continuity to prevent costly downtime and data loss. Flywheel energy storage systems are gaining prominence in UPS applications due to their exceptional reliability and performance.

Flywheels store kinetic energy in a rapidly spinning rotor, which can be instantaneously converted into electrical power in the event of grid interruptions. Unlike traditional battery-based UPS systems, flywheels have a longer operational lifespan, require minimal maintenance, and are more environment friendly. These advantages make flywheel-based UPS solutions the preferred choice for businesses and organizations that cannot tolerate even momentary power disruptions or data integrity risks.

Advancements in energy storage technology

The continual advancements of energy storage technology are propelling the growth of the market. Flywheel systems are experiencing notable improvements on account of the development of high-performance materials, enhanced energy conversion efficiency, and increased energy storage capacity. These technological innovations are making flywheel energy storage systems more efficient and cost-effective. Advancements in composite materials are enabling flywheels to store and release energy more efficiently. This is expanding the range of applications, ranging from uninterruptible power supply (UPS) to grid stabilization, where flywheels can be deployed effectively. Furthermore, ongoing research and development (R&D) efforts are focused on reducing the size and weight of flywheel systems, making them more compact and easier to integrate into various environments. These advancements are helping in making flywheel energy storage a more attractive choice for a broader range of industries and applications.

Environmental sustainability and regulatory policies

The growing concerns about environmental sustainability and stringent regulatory policies and regulations aimed at lowering greenhouse gas emissions are driving the adoption of flywheel energy storage solutions. Flywheels are inherently eco-friendly compared to traditional energy storage technologies. Unlike batteries that contain hazardous materials, flywheel systems are environmentally benign and produce zero emissions during operation. This complements the global push towards cleaner energy solutions and sustainability. As governments and industries strive to meet carbon reduction targets, flywheel energy storage is gaining favor for its green credentials. Furthermore, many regions are implementing regulations that encourage or require the integration of energy storage systems, such as flywheels, into the power grid. These policies aim to enhance grid reliability, reduce transmission losses, and support the addition of renewable energy sources. Incentives and subsidies are often provided to promote the deployment of energy storage technologies, further driving the market for flywheels.

Flywheel Energy Storage Market Report Scope:

Flywheel Energy Storage Industry Segmentation:

IMARC Group provides an analysis of the key trends in each segment of the market, along with forecasts at the global, regional, and country levels for 2025-2033. Our report has categorized the market based on application.

Breakup by Application:

• Uninterruptible Power Supply (UPS)
• Distributed Energy Generation
• Transport
• Data Centers
• Others

Uninterruptible power supply (UPS) accounts for the majority of the market share

The report has provided a detailed breakup and analysis of the market based on the application. This includes uninterruptible power supply (UPS), distributed energy generation, transport, data centers, and others. According to the report, uninterruptible power supply (UPS) represented the largest segment.

The uninterruptible power supply (UPS) plays a pivotal role in flywheel systems and provide instantaneous backup power to industries where uninterrupted operations are imperative. UPS applications are prevalent in data centers, healthcare facilities, telecommunications, and financial institutions. Flywheel-based UPS solutions offer advantages, such as rapid response times, longer operational lifespan, reduced maintenance costs, and environmental sustainability, making them the appropriate choice to safeguard against power interruptions and ensure uninterrupted workflow.

The distributed energy generation segment is a significant and growing application area for flywheel energy storage. As the world moves towards decentralized energy solutions, flywheels play a crucial role in supporting distributed energy resources like solar panels and wind turbines. These systems help store excess energy generated locally and release it when need exceeds supply or during intermittent generation periods. Flywheels enhance energy reliability in microgrids, residential solar installations, and remote off-grid locations, contributing to grid stability and reducing reliance on centralized power sources.

The transport sector is another emerging application for flywheel energy storage. Flywheels are being incorporated into various transportation modes, including buses and trains, to capture and store energy during braking and deceleration, which can then be used to assist in acceleration or power onboard systems. This regenerative braking technology helps reduce energy consumption and emissions in the transportation industry, making it a promising segment for flywheel adoption, especially in urban transit systems.

Data centers represent a niche but critical application for flywheel energy storage. These facilities require extremely reliable power to ensure continuous data processing and prevent data loss. Flywheel-based UPS systems provide a seamless transition to backup power during grid disturbances, bridging the gap until backup generators kick in. Data center operators value flywheels for their rapid response, high energy density, and reduced maintenance requirements, as they help maintain uninterrupted operations in this technology-dependent sector.

Breakup by Region:

• North America

o               United States

o               Canada

• Asia-Pacific

o               China

o               Japan

o               India

o               South Korea

o               Australia

o               Indonesia

o               Others

• Europe

o               Germany

o               France

o               United Kingdom

o               Italy

o               Spain

o               Russia

o               Others

• Latin America

o               Brazil

o               Mexico

o               Others

• Middle East and Africa

North America leads the market, accounting for the largest flywheel energy storage market share

The market research report has also provided a comprehensive analysis of all the major regional markets, which include North America (the United States and Canada); Asia Pacific (China, Japan, India, South Korea, Australia, Indonesia, and others); Europe (Germany, France, the United Kingdom, Italy, Spain, Russia, and others); Latin America (Brazil, Mexico, and others); and the Middle East and Africa. According to the report, North America accounted for the largest market share.

The North America flywheel energy storage market is driven by improving grid reliability and integrating renewable energy sources. Flywheel energy storage systems play a vital role in these initiatives, helping to stabilize the grid and enhance its resilience.

Asia Pacific maintains a strong presence driven by the demand for reliable power. Flywheels are employed to stabilize microgrids and support critical infrastructure in growing urban areas.

Europe stands as another key region in the market, driven by the increasing focus on improving energy efficiency in electric transport.

Latin America exhibits growing potential in the flywheel energy storage market, fueled by the increasing demand for cost-effective solutions for reliable energy access, addressing electricity gaps.

The Middle East and Africa region show a developing market for flywheel energy storage, driven by the increasing focus on producing uninterrupted freshwater.

Leading Key Players in the Flywheel Energy Storage Industry:

Key players in the flywheel energy storage market are actively engaged in several strategic initiatives to capitalize on the growing demand and drive technological advancements. These initiatives include research and development (R&D) efforts to improve energy density, reduce system costs, and enhance overall efficiency. They are also expanding their global reach by forming partnerships and collaborations to access new markets and customer segments. Moreover, many players are focusing on sustainability by developing eco-friendly flywheel systems and emphasizing their environmental benefits. Additionally, marketing efforts are aimed at educating potential customers about the advantages of flywheel energy storage, especially in applications, such as uninterruptible power supply (UPS), renewable energy integration, and grid stabilization, to further expand their market presence and influence.

The market research report has provided a comprehensive analysis of the competitive landscape. Detailed profiles of all major companies have also been provided. Some of the key players in the market include:

• ABB Ltd.
• Adaptive Balancing Power GmbH
• Amber Kinetics Inc.
• Beacon Power LLC
• Calnetix Technologies LLC
• Energiestro
• Langley Holdings plc
• Oxto Energy
• Phillips Service Industries Inc.
• Schwungrad Energie Limited
• Siemens Aktiengesellschaft
• Stornetic GmbH
• Teraloop Oy

Key Questions Answered in This Report

1.How big is the global flywheel energy storage market?

2.What is the expected growth rate of the global flywheel energy storage market during 2025-2033?

3.What are the key factors driving the global flywheel energy storage market?

4.What has been the impact of COVID-19 on the global flywheel energy storage market?

5.What is the breakup of the global flywheel energy storage market based on the application?

6.What are the key regions in the global flywheel energy storage market?

7.Who are the key players/companies in the global flywheel energy storage market?

Table of Contents

1   Preface

2   Scope and Methodology

2.1    Objectives of the Study

2.2    Stakeholders

2.3    Data Sources

2.3.1    Primary Sources

2.3.2    Secondary Sources

2.4    Market Estimation

2.4.1    Bottom-Up Approach

2.4.2    Top-Down Approach

2.5    Forecasting Methodology

3   Executive Summary

4   Introduction

4.1    Overview

4.2    Key Industry Trends

5   Global Flywheel Energy Storage Market

5.1    Market Overview

5.2    Market Performance

5.3    Impact of COVID-19

5.4    Market Forecast

6   Market Breakup by Application

6.1    Uninterruptible Power Supply (UPS)

6.1.1 Market Trends

6.1.2 Market Forecast

6.2    Distributed Energy Generation

6.2.1 Market Trends

6.2.2 Market Forecast

6.3    Transport

6.3.1 Market Trends

6.3.2 Market Forecast

6.4    Data Centers

6.4.1 Market Trends

6.4.2 Market Forecast

6.5    Others

6.5.1 Market Trends

6.5.2 Market Forecast

7   Market Breakup by Region

7.1    North America

7.1.1 United States

7.1.1.1 Market Trends

7.1.1.2 Market Forecast

7.1.2 Canada

7.1.2.1 Market Trends

7.1.2.2 Market Forecast

7.2    Asia-Pacific

7.2.1 China

7.2.1.1 Market Trends

7.2.1.2 Market Forecast

7.2.2 Japan

7.2.2.1 Market Trends

7.2.2.2 Market Forecast

7.2.3 India

7.2.3.1 Market Trends

7.2.3.2 Market Forecast

7.2.4 South Korea

7.2.4.1 Market Trends

7.2.4.2 Market Forecast

7.2.5 Australia

7.2.5.1 Market Trends

7.2.5.2 Market Forecast

7.2.6 Indonesia

7.2.6.1 Market Trends

7.2.6.2 Market Forecast

7.2.7 Others

7.2.7.1 Market Trends

7.2.7.2 Market Forecast

7.3    Europe

7.3.1 Germany

7.3.1.1 Market Trends

7.3.1.2 Market Forecast

7.3.2 France

7.3.2.1 Market Trends

7.3.2.2 Market Forecast

7.3.3 United Kingdom

7.3.3.1 Market Trends

7.3.3.2 Market Forecast

7.3.4 Italy

7.3.4.1 Market Trends

7.3.4.2 Market Forecast

7.3.5 Spain

7.3.5.1 Market Trends

7.3.5.2 Market Forecast

7.3.6 Russia

7.3.6.1 Market Trends

7.3.6.2 Market Forecast

7.3.7 Others

7.3.7.1 Market Trends

7.3.7.2 Market Forecast

7.4    Latin America

7.4.1 Brazil

7.4.1.1 Market Trends

7.4.1.2 Market Forecast

7.4.2 Mexico

7.4.2.1 Market Trends

7.4.2.2 Market Forecast

7.4.3 Others

7.4.3.1 Market Trends

7.4.3.2 Market Forecast

7.5    Middle East and Africa

7.5.1 Market Trends

7.5.2 Market Breakup by Country

7.5.3 Market Forecast

8   SWOT Analysis

8.1    Overview

8.2    Strengths

8.3    Weaknesses

8.4    Opportunities

8.5    Threats

9   Value Chain Analysis

10  Porters Five Forces Analysis

10.1    Overview

10.2    Bargaining Power of Buyers

10.3    Bargaining Power of Suppliers

10.4    Degree of Competition

10.5    Threat of New Entrants

10.6    Threat of Substitutes

11  Price Analysis

12  Competitive Landscape

12.1    Market Structure

12.2    Key Players

12.3    Profiles of Key Players

12.3.1    ABB Ltd

12.3.1.1 Company Overview

12.3.1.2 Product Portfolio

12.3.1.3 Financials

12.3.1.4 SWOT Analysis

12.3.2    Adaptive Balancing Power GmbH

12.3.2.1 Company Overview

12.3.2.2 Product Portfolio

12.3.2.3 Financials

12.3.3    Amber Kinetics Inc.

12.3.3.1 Company Overview

12.3.3.2 Product Portfolio

12.3.4    Beacon Power LLC

12.3.4.1 Company Overview

12.3.4.2 Product Portfolio

12.3.5    Calnetix Technologies LLC

12.3.5.1 Company Overview

12.3.5.2 Product Portfolio

12.3.6    Energiestro

12.3.6.1 Company Overview

12.3.6.2 Product Portfolio

12.3.7    Langley Holdings plc

12.3.7.1 Company Overview

12.3.7.2 Product Portfolio

12.3.7.3 Financials

12.3.8    Oxto Energy

12.3.8.1 Company Overview

12.3.8.2 Product Portfolio

12.3.9    Phillips Service Industries Inc.

12.3.9.1 Company Overview

12.3.9.2 Product Portfolio

12.3.10    Schwungrad Energie Limited

12.3.10.1 Company Overview

12.3.10.2 Product Portfolio

12.3.11    Siemens Aktiengesellschaft

12.3.11.1 Company Overview

12.3.11.2 Product Portfolio

12.3.11.3 Financials

12.3.11.4 SWOT Analysis

12.3.12    Stornetic GmbH

12.3.12.1 Company Overview

12.3.12.2 Product Portfolio

12.3.13    Teraloop Oy

12.3.13.1 Company Overview

12.3.13.2 Product Portfolio

List of Tables

Table 1: Global: Flywheel Energy Storage Market: Key Industry Highlights, 2024 and 2033

Table 2: Global: Flywheel Energy Storage Market Forecast: Breakup by Application (in Million USD​​​), 2025-2033

Table 3: Global: Flywheel Energy Storage Market Forecast: Breakup by Region (in Million USD​​​), 2025-2033

Table 4: Global: Flywheel Energy Storage Market: Competitive Structure

Table 5: Global: Flywheel Energy Storage Market: Key Players

List of Figures

Figure 1: Global: Flywheel Energy Storage Market: Major Drivers and Challenges

Figure 2: Global: Flywheel Energy Storage Market: Sales Value (in Million USD​​​), 2019-2024

Figure 3: Global: Flywheel Energy Storage Market Forecast: Sales Value (in Million USD​​​), 2025-2033

Figure 4: Global: Flywheel Energy Storage Market: Breakup by Application (in %), 2024

Figure 5: Global: Flywheel Energy Storage Market: Breakup by Region (in %), 2024

Figure 6: Global: Flywheel Energy Storage (Uninterruptible Power Supply) Market: Sales Value (in Million USD​​​), 2019 & 2024

Figure 7: Global: Flywheel Energy Storage (Uninterruptible Power Supply) Market Forecast: Sales Value (in Million USD​​​), 2025-2033

Figure 8: Global: Flywheel Energy Storage (Distributed Energy Generation) Market: Sales Value (in Million USD​​​), 2019 & 2024

Figure 9: Global: Flywheel Energy Storage (Distributed Energy Generation) Market Forecast: Sales Value (in Million USD​​​), 2025-2033

Figure 10: Global: Flywheel Energy Storage (Transport) Market: Sales Value (in Million USD​​​), 2019 & 2024

Figure 11: Global: Flywheel Energy Storage (Transport) Market Forecast: Sales Value (in Million USD​​​), 2025-2033

Figure 12: Global: Flywheel Energy Storage (Data Centers) Market: Sales Value (in Million USD​​​), 2019 & 2024

Figure 13: Global: Flywheel Energy Storage (Data Centers) Market Forecast: Sales Value (in Million USD​​​), 2025-2033

Figure 14: Global: Flywheel Energy Storage (Other Applications) Market: Sales Value (in Million USD​​​), 2019 & 2024

Figure 15: Global: Flywheel Energy Storage (Other Applications) Market Forecast: Sales Value (in Million USD​​​), 2025-2033

Figure 16: North America: Flywheel Energy Storage Market: Sales Value (in Million USD​​​), 2019 & 2024

Figure 17: North America: Flywheel Energy Storage Market Forecast: Sales Value (in Million USD​​​), 2025-2033

Figure 18: United States: Flywheel Energy Storage Market: Sales Value (in Million USD​​​), 2019 & 2024

Figure 19: United States: Flywheel Energy Storage Market Forecast: Sales Value (in Million USD​​​), 2025-2033

Figure 20: Canada: Flywheel Energy Storage Market: Sales Value (in Million USD​​​), 2019 & 2024

Figure 21: Canada: Flywheel Energy Storage Market Forecast: Sales Value (in Million USD​​​), 2025-2033

Figure 22: Asia-Pacific: Flywheel Energy Storage Market: Sales Value (in Million USD​​​), 2019 & 2024

Figure 23: Asia-Pacific: Flywheel Energy Storage Market Forecast: Sales Value (in Million USD​​​), 2025-2033

Figure 24: China: Flywheel Energy Storage Market: Sales Value (in Million USD​​​), 2019 & 2024

Figure 25: China: Flywheel Energy Storage Market Forecast: Sales Value (in Million USD​​​), 2025-2033

Figure 26: Japan: Flywheel Energy Storage Market: Sales Value (in Million USD​​​), 2019 & 2024

Figure 27: Japan: Flywheel Energy Storage Market Forecast: Sales Value (in Million USD​​​), 2025-2033

Figure 28: India: Flywheel Energy Storage Market: Sales Value (in Million USD​​​), 2019 & 2024

Figure 29: India: Flywheel Energy Storage Market Forecast: Sales Value (in Million USD​​​), 2025-2033

Figure 30: South Korea: Flywheel Energy Storage Market: Sales Value (in Million USD​​​), 2019 & 2024

Figure 31: South Korea: Flywheel Energy Storage Market Forecast: Sales Value (in Million USD​​​), 2025-2033

Figure 32: Australia: Flywheel Energy Storage Market: Sales Value (in Million USD​​​), 2019 & 2024

Figure 33: Australia: Flywheel Energy Storage Market Forecast: Sales Value (in Million USD​​​), 2025-2033

Figure 34: Indonesia: Flywheel Energy Storage Market: Sales Value (in Million USD​​​), 2019 & 2024

Figure 35: Indonesia: Flywheel Energy Storage Market Forecast: Sales Value (in Million USD​​​), 2025-2033

Figure 36: Others: Flywheel Energy Storage Market: Sales Value (in Million USD​​​), 2019 & 2024

Figure 37: Others: Flywheel Energy Storage Market Forecast: Sales Value (in Million USD​​​), 2025-2033

Figure 38: Europe: Flywheel Energy Storage Market: Sales Value (in Million USD​​​), 2019 & 2024

Figure 39: Europe: Flywheel Energy Storage Market Forecast: Sales Value (in Million USD​​​), 2025-2033

Figure 40: Germany: Flywheel Energy Storage Market: Sales Value (in Million USD​​​), 2019 & 2024

Figure 41: Germany: Flywheel Energy Storage Market Forecast: Sales Value (in Million USD​​​), 2025-2033

Figure 42: France: Flywheel Energy Storage Market: Sales Value (in Million USD​​​), 2019 & 2024

Figure 43: France: Flywheel Energy Storage Market Forecast: Sales Value (in Million USD​​​), 2025-2033

Figure 44: United Kingdom: Flywheel Energy Storage Market: Sales Value (in Million USD​​​), 2019 & 2024

Figure 45: United Kingdom: Flywheel Energy Storage Market Forecast: Sales Value (in Million USD​​​), 2025-2033

Figure 46: Italy: Flywheel Energy Storage Market: Sales Value (in Million USD​​​), 2019 & 2024

Figure 47: Italy: Flywheel Energy Storage Market Forecast: Sales Value (in Million USD​​​), 2025-2033

Figure 48: Spain: Flywheel Energy Storage Market: Sales Value (in Million USD​​​), 2019 & 2024

Figure 49: Spain: Flywheel Energy Storage Market Forecast: Sales Value (in Million USD​​​), 2025-2033

Figure 50: Russia: Flywheel Energy Storage Market: Sales Value (in Million USD​​​), 2019 & 2024

Figure 51: Russia: Flywheel Energy Storage Market Forecast: Sales Value (in Million USD​​​), 2025-2033

Figure 52: Others: Flywheel Energy Storage Market: Sales Value (in Million USD​​​), 2019 & 2024

Figure 53: Others: Flywheel Energy Storage Market Forecast: Sales Value (in Million USD​​​), 2025-2033

Figure 54: Latin America: Flywheel Energy Storage Market: Sales Value (in Million USD​​​), 2019 & 2024

Figure 55: Latin America: Flywheel Energy Storage Market Forecast: Sales Value (in Million USD​​​), 2025-2033

Figure 56: Brazil: Flywheel Energy Storage Market: Sales Value (in Million USD​​​), 2019 & 2024

Figure 57: Brazil: Flywheel Energy Storage Market Forecast: Sales Value (in Million USD​​​), 2025-2033

Figure 58: Mexico: Flywheel Energy Storage Market: Sales Value (in Million USD​​​), 2019 & 2024

Figure 59: Mexico: Flywheel Energy Storage Market Forecast: Sales Value (in Million USD​​​), 2025-2033

Figure 60: Others: Flywheel Energy Storage Market: Sales Value (in Million USD​​​), 2019 & 2024

Figure 61: Others: Flywheel Energy Storage Market Forecast: Sales Value (in Million USD​​​), 2025-2033

Figure 62: Middle East and Africa: Flywheel Energy Storage Market: Sales Value (in Million USD​​​), 2019 & 2024

Figure 63: Middle East and Africa: Flywheel Energy Storage Market: Breakup by Country (in %), 2024

Figure 64: Middle East and Africa: Flywheel Energy Storage Market Forecast: Sales Value (in Million USD​​​), 2025-2033

Figure 65: Global: Flywheel Energy Storage Industry: SWOT Analysis

Figure 66: Global: Flywheel Energy Storage Industry: Value Chain Analysis

Figure 67: Global: Flywheel Energy Storage Industry: Porter’s Five Forces Analysis

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