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空中風力タービンの世界市場

Air-Borne Wind Turbines

出版日
ページ情報
英文 171 Pages
納期
即日から翌営業日
適宜更新あり
価格
価格表記: USDを日本円(税抜)に換算
本日の銀行送金レート: 1USD=147.92円
空中風力タービンの世界市場
出版日: 2025年08月27日
発行: Global Industry Analysts, Inc.
ページ情報: 英文 171 Pages
納期: 即日から翌営業日
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  • 概要
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概要

空中風力タービンの世界市場は2030年までに2億7,990万米ドルに達する見込み

2024年に1億8,280万米ドルと推定される空中風力タービンの世界市場は、2024年から2030年にかけてCAGR 7.4%で成長し、2030年には2億7,990万米ドルに達すると予測されます。本レポートで分析したセグメントの1つである陸上タービンは、CAGR 5.8%を記録し、分析期間終了時には1億6,060万米ドルに達すると予測されます。オフショアタービン分野の成長率は、分析期間中CAGR 9.7%と推定されます。

米国市場は推定4,800万米ドル、中国はCAGR7.2%で成長予測

米国の空中風力タービン市場は、2024年に4,800万米ドルと推定されます。世界第2位の経済大国である中国は、2030年までに4,510万米ドルの市場規模に達すると予測され、分析期間2024-2030年のCAGRは7.2%です。その他の注目すべき地域別市場としては、日本とカナダがあり、分析期間中のCAGRはそれぞれ6.6%と6.4%と予測されています。欧州では、ドイツがCAGR約6.1%で成長すると予測されています。

世界の空中風力タービン市場- 主要動向と促進要因まとめ

高高度風の利用は再生可能エネルギー発電に革命をもたらすか?

再生可能エネルギー発電の革新的なアプローチとして、空中風力タービンのコンセプトが急速に注目を集めています。地上に固定された従来の風力タービンとは異なり、空中風力発電システムは、風速が著しく強く安定した地上200~2,000メートルの高高度で稼働します。この高高度の優位性により、空中タービンはより小さな設備面積とより少ない材料使用量でより多くの電力を発電することができます。テザーカイト、ドローン、エアロスタット搭載タービンなどの技術が、この分野の技術革新をリードしています。これらのシステムは、従来の風力発電所の設置が地形の制限、インフラの制約、環境の敏感さなどの理由で現実的でない地域で特に有利です。オフショアや遠隔地、島国、災害の多い地域は、移動可能で迅速に展開できる空中ソリューションから利益を得ることができます。さらに、エアボーン・システムは必要に応じて昇降させることができるため、運用の柔軟性が向上し、異常気象時には格納することもできます。この機動性により、メンテナンス・リスクが軽減され、システムの回復力が向上します。もうひとつの大きなメリットは、巨大な基礎やタワーの必要性が減り、資本コストと物流コストの両方が大幅に削減されることです。さらに、軽量素材、自律飛行制御ソフトウェア、導電性テザーによるエネルギー伝送の開発により、初期の理論的設計が実行可能な商用製品へと変わりつつあります。世界のエネルギー政策が脱炭素化を優先し続ける中、空中風力タービンは、陸上風力発電所が直面する物理的・規制的課題を回避しつつ、クリーンエネルギー目標を達成するための魅力的なソリューションを提示しています。

技術革新は空中風力タービンを市場対応型にしているか?

航空宇宙工学、AIベースの飛行制御、先進材料科学の飛躍的進歩により、空中風力タービンシステムはますます高度化しています。自律航行および制御システムは、変化する風況、気流、環境変数に継続的に適応する必要があるため、これらのタービンの機能性の中心となっています。機械学習アルゴリズムは現在、飛行経路とエネルギー取得効率をリアルタイムで最適化するために導入されています。さらに、GPS追跡、ジャイロスコープ、搭載センサーを統合することで、高高度でも安全で安定した運用が可能になります。素材の革新も重要な分野で、開発者は炭素繊維複合材や高張力ポリマーを使用して軽量かつ耐久性のある構造を構築しています。これらの強化により、より長い飛行時間と安定したエネルギー生産が可能になります。また、テザー技術の革新により、地上の発電機で変換した機械的エネルギーや、特殊なケーブルによる直接的な導電性伝送を使用して、空中デバイスから地上ステーションへの効率的なエネルギー伝送が促進されています。信頼性を高めるため、機械的および電気的伝送の両方を組み合わせたハイブリッドシステムも研究されています。さらに、モジュール式の設計原理により、遠隔地のマイクログリッド用の小型ユニットから、系統連系ユーティリティ用途に適した大型アレイまで、空中タービンのスケーラブルな展開が可能になっています。エネルギー企業も新興企業も、パイロット・プロジェクトや実証実験に投資しており、いくつかのシステムは現在、商業化前段階や早期導入段階に入っています。技術的な準備が整うにつれて、空中風力タービンは実験的なコンセプトから、再生可能エネルギー・ポートフォリオ、特に分散型やオフグリッド・アプリケーションにおいて実行可能な選択肢へと移行しつつあります。

使用事例と地理的ニーズは、空中風力タービンの採用をどのように形成するか?

空中風力タービンの採用は、地域特有のニーズや従来のエネルギーインフラの運用上の制約に大きく影響されます。送電網を拡張することが経済的に不可能な遠隔地や到達困難な場所では、空中風力発電システムはコンパクトで迅速な配備が可能なソリューションを提供します。例えば、島嶼コミュニティ、軍事基地、極地における調査ステーション、災害救助地域などが、実証プロジェクトの対象としてますます注目されています。これらの風力タービンは、最小限の設置時間と環境負荷で安定した電力を供給できるため、一時的または季節的な運用に最適です。さらに、日本や欧州の一部のように、利用可能な土地が限られていたり、土地の取得コストが高かったりする国々では、空中風力発電技術は地上の自然エネルギーに代わる魅力的な選択肢となります。電化が依然として課題となっているアフリカや南アジアの新興国市場では、移動式の空中システムが村落、学校、中小企業にオフグリッド電力を供給し、地域開拓の目標に貢献する可能性があります。さらに、固定式タービンの建設がコスト的に困難なオフショア環境では、浮体式プラットフォームにつながれた空中システムが、大規模な海洋工事を行うことなく高高度の風を利用することができます。農業地域でも、貴重な農地を占有することなく発電できるため、こうしたシステムの恩恵を受けることができます。空中タービンは可搬性に優れているため、エネルギーニーズや環境条件の変化に対応できます。季節的な風のパターンや気候の変動に脆弱な地域では、展開と回収の柔軟性により、レジリエンスがさらに高まる。地域政府や国際開発機関が分散型エネルギーモデルを模索する中、空中風力タービンの状況適合性は、その成長軌道においてますます重要な要素となっています。

何が空中風力エネルギーソリューションの勢いを加速させているのか?

空中風力タービン市場の成長は、技術の成熟度、エネルギー戦略の転換、市場の需要の進化に直接結びつくいくつかの要因によってもたらされます。主な成長要因は、パリ協定のような協定に基づく気候変動目標を達成するため、よりクリーンで多様なエネルギー源を求める世界の動きです。空中風力発電システムは、未開拓の高高度風力資源へのアクセスを提供し、環境フットプリントを低減することで、脱炭素化イニシアティブに合致しています。土地利用を削減し、農業や野生生物の生息地との衝突を回避できる可能性があるため、環境プランナーやエネルギー規制当局にとっては特に魅力的です。AI、軽量素材、パワーエレクトロニクスの技術的進歩により、これらのシステムはより効率的で、拡張可能で、商業的に実行可能なものとなっています。もうひとつの重要な原動力は、従来のエネルギー・インフラが不十分、あるいは存在しない遠隔地や災害被災地において、モバイル型の分散型エネルギー・ソリューションに対する需要が高まっていることです。研究助成金、パイロット・プロジェクト資金、再生可能エネルギー奨励金といった形での政府支援は、新規参入企業の市場参入と製品開発サイクルの加速に役立っています。民間部門では、ベンチャーキャピタルが空中風力技術に取り組む新興企業に流入しており、これは長期的な可能性に対する投資家の強い信頼を反映しています。さらに、鉱業やデータ処理などエネルギー集約度の高い産業では、操業時の排出量を削減するためのバックアップまたは補助エネルギー源として、空中風力システムを模索しています。エネルギー・アクセスの不平等に対する意識の高まりも、オフグリッド人口に対応できる柔軟な再生可能エネルギー・ソリューションへの関心を高めています。世界のエネルギーシステムがよりモジュール化、分散化、デジタル化される中、空中風力タービンは、進化する持続可能エネルギーの中で有望なソリューションとして浮上しています。

セグメント

タービンタイプ(陸上タービン、洋上タービン)、用途(風力発電用途、輸送用途、揚水用途、その他用途)

調査対象企業の例

  • Ampyx Power
  • Altaeros
  • Airborne Wind Energy
  • Blackbirds
  • Climeworks
  • Cranfield University
  • Eon-Next
  • Enercon
  • Kite Power Systems
  • Kitekraft
  • Lilium
  • Makani
  • Magenn Power
  • NREL(National Renewable Energy Lab)
  • Nordex
  • SkySails
  • TwingTec
  • Windlift
  • Windpulsion
  • X-Opoli

AIインテグレーション

Global Industry Analystsは、有効な専門家コンテンツとAIツールによって、市場情報と競合情報を変革しています。

Global Industry Analystsは、LLMや業界固有のSLMを照会する一般的な規範に従う代わりに、ビデオ記録、ブログ、検索エンジン調査、膨大な量の企業、製品/サービス、市場データなど、世界中の専門家から収集したコンテンツのリポジトリを構築しました。

関税影響係数

Global Industry Analystsは、本社の国、製造拠点、輸出入(完成品とOEM)に基づく企業の競争力の変化を予測しています。この複雑で多面的な市場力学は、売上原価(COGS)の増加、収益性の低下、サプライチェーンの再構築など、ミクロおよびマクロの市場力学の中でも特に競合他社に影響を与える見込みです。

目次

第1章 調査手法

第2章 エグゼクティブサマリー

  • 市場概要
  • 主要企業
  • 市場動向と促進要因
  • 世界市場の見通し

第3章 市場分析

  • 米国
  • カナダ
  • 日本
  • 中国
  • 欧州
  • フランス
  • ドイツ
  • イタリア
  • 英国
  • その他欧州
  • アジア太平洋
  • その他の地域

第4章 競合

目次
Product Code: MCP38456

Global Air-Borne Wind Turbines Market to Reach US$279.9 Million by 2030

The global market for Air-Borne Wind Turbines estimated at US$182.8 Million in the year 2024, is expected to reach US$279.9 Million by 2030, growing at a CAGR of 7.4% over the analysis period 2024-2030. Onshore Turbine, one of the segments analyzed in the report, is expected to record a 5.8% CAGR and reach US$160.6 Million by the end of the analysis period. Growth in the Offshore Turbine segment is estimated at 9.7% CAGR over the analysis period.

The U.S. Market is Estimated at US$48.0 Million While China is Forecast to Grow at 7.2% CAGR

The Air-Borne Wind Turbines market in the U.S. is estimated at US$48.0 Million in the year 2024. China, the world's second largest economy, is forecast to reach a projected market size of US$45.1 Million by the year 2030 trailing a CAGR of 7.2% over the analysis period 2024-2030. Among the other noteworthy geographic markets are Japan and Canada, each forecast to grow at a CAGR of 6.6% and 6.4% respectively over the analysis period. Within Europe, Germany is forecast to grow at approximately 6.1% CAGR.

Global Air-Borne Wind Turbines Market - Key Trends & Drivers Summarized

Can Harnessing High-Altitude Winds Revolutionize Renewable Energy Generation?

The concept of airborne wind turbines is rapidly gaining attention as a transformative approach to renewable energy generation. Unlike conventional wind turbines fixed to the ground, airborne systems operate at higher altitudes, typically between 200 and 2,000 meters above ground level, where wind speeds are significantly stronger and more consistent. This high-altitude advantage allows airborne turbines to generate more electricity with smaller equipment footprints and less material usage. Technologies such as tethered kites, drones, and aerostat-mounted turbines are leading the innovation curve in this segment. These systems are particularly advantageous in regions where installing traditional wind farms is impractical due to terrain limitations, infrastructure constraints, or environmental sensitivities. Offshore and remote locations, island nations, and disaster-prone areas stand to benefit from mobile and quickly deployable airborne solutions. Additionally, because airborne systems can be elevated or lowered as needed, they offer increased operational flexibility and can be retracted during extreme weather conditions. This mobility reduces maintenance risks and improves system resilience. Another major benefit is the reduced need for massive foundations and towers, significantly lowering both capital and logistical costs. Furthermore, developments in lightweight materials, autonomous flight control software, and energy transmission through conductive tethers are turning earlier theoretical designs into viable commercial products. As global energy policies continue to prioritize decarbonization, airborne wind turbines present an attractive solution to meeting clean energy goals while circumventing the physical and regulatory challenges faced by land-based wind farms.

Are Technological Innovations Making Air-Borne Wind Turbines Market-Ready?

Airborne wind turbine systems are becoming increasingly sophisticated thanks to breakthroughs in aerospace engineering, AI-based flight control, and advanced materials science. Autonomous navigation and control systems are central to the functionality of these turbines, as they must continuously adjust to changing wind conditions, air currents, and environmental variables. Machine learning algorithms are now being deployed to optimize flight paths and energy capture efficiency in real-time. In addition, the integration of GPS tracking, gyroscopes, and onboard sensors ensures safe and stable operations, even at high altitudes. Material innovation is another critical area, with developers using carbon fiber composites and high-tensile-strength polymers to construct lightweight but durable structures. These enhancements allow for longer flight durations and more consistent energy production. Innovations in tether technology are also facilitating efficient energy transfer from the airborne device to the ground station, using either mechanical energy converted via ground-based generators or direct conductive transmission through specialized cables. Hybrid systems that combine both mechanical and electrical transmission are also being explored to enhance reliability. Furthermore, modular design principles are enabling scalable deployment of airborne turbines, ranging from small-scale units for remote microgrids to larger arrays suitable for grid-connected utility applications. Energy companies and startups alike are investing in pilot projects and demonstrations, with several systems now entering the pre-commercial and early adoption phases. As technology readiness levels improve, airborne wind turbines are shifting from experimental concepts to viable alternatives in the renewable energy portfolio, particularly for decentralized and off-grid applications.

How Do Use-Case Scenarios and Geographic Needs Shape the Adoption of Air-Borne Wind Turbines?

The adoption of airborne wind turbines is heavily influenced by region-specific needs and the operational constraints of conventional energy infrastructure. In remote and hard-to-reach locations where extending the electrical grid is not economically feasible, airborne wind systems offer a compact and rapidly deployable solution. For example, island communities, military bases, research stations in polar regions, and disaster-relief zones are increasingly being targeted for demonstration projects. These turbines can provide stable power with minimal installation time and environmental impact, making them ideal for temporary or seasonal operations. Moreover, in countries with limited land availability or high land acquisition costs, such as Japan and parts of Europe, airborne wind technology offers a compelling alternative to ground-based renewables. In emerging markets across Africa and South Asia, where electrification remains a challenge, mobile airborne systems could provide off-grid power to villages, schools, and small businesses, contributing to local development goals. Additionally, in offshore settings where building fixed turbines is cost-prohibitive, airborne systems tethered to floating platforms can exploit high-altitude winds without extensive marine construction. Agricultural regions may also benefit from these systems by generating power without occupying valuable cropland. The portability of airborne turbines makes them uniquely adaptable to changing energy needs and environmental conditions. In areas vulnerable to seasonal wind patterns or climate volatility, their flexibility in deployment and retrieval adds another layer of resilience. As regional governments and international development agencies explore decentralized energy models, the contextual fit of airborne wind turbines becomes an increasingly important factor in their growth trajectory.

What Is Fueling the Rising Momentum Behind Air-Borne Wind Energy Solutions?

The growth in the airborne wind turbines market is driven by several factors directly tied to technological maturity, shifting energy strategies, and evolving market demands. A primary growth driver is the global push for cleaner and more diversified energy sources to meet climate targets under agreements like the Paris Accord. Airborne wind systems align well with decarbonization initiatives by offering access to untapped high-altitude wind resources with lower environmental footprints. Their potential to reduce land use and avoid conflicts with agriculture or wildlife habitats makes them especially appealing to environmental planners and energy regulators. Technological advancements in AI, lightweight materials, and power electronics have made these systems more efficient, scalable, and commercially viable. Another critical driver is the growing demand for mobile, decentralized energy solutions in remote or disaster-affected areas where traditional energy infrastructure is either insufficient or non-existent. Governmental support, in the form of research grants, pilot project funding, and renewable energy incentives, is helping bring new entrants into the market and accelerate product development cycles. In the private sector, venture capital is flowing into startups working on airborne wind technologies, reflecting strong investor confidence in their long-term potential. Additionally, industries with high energy intensity, such as mining and data processing, are exploring airborne wind systems as backup or supplementary energy sources to reduce operational emissions. Growing awareness of energy access inequalities is also driving interest in flexible renewable solutions that can serve off-grid populations. As energy systems worldwide become more modular, decentralized, and digital, airborne wind turbines are emerging as a promising solution within the evolving landscape of sustainable energy.

SCOPE OF STUDY:

The report analyzes the Air-Borne Wind Turbines market in terms of units by the following Segments, and Geographic Regions/Countries:

Segments:

Turbine Type (Onshore Turbine, Offshore Turbine); Application (Generate Wind Power Application, Transportation Application, Pumping Water Application, Other Applications)

Geographic Regions/Countries:

World; United States; Canada; Japan; China; Europe (France; Germany; Italy; United Kingdom; and Rest of Europe); Asia-Pacific; Rest of World.

Select Competitors (Total 36 Featured) -

  • Ampyx Power
  • Altaeros
  • Airborne Wind Energy
  • Blackbirds
  • Climeworks
  • Cranfield University
  • Eon-Next
  • Enercon
  • Kite Power Systems
  • Kitekraft
  • Lilium
  • Makani
  • Magenn Power
  • NREL (National Renewable Energy Lab)
  • Nordex
  • SkySails
  • TwingTec
  • Windlift
  • Windpulsion
  • X-Opoli

AI INTEGRATIONS

We're transforming market and competitive intelligence with validated expert content and AI tools.

Instead of following the general norm of querying LLMs and Industry-specific SLMs, we built repositories of content curated from domain experts worldwide including video transcripts, blogs, search engines research, and massive amounts of enterprise, product/service, and market data.

TARIFF IMPACT FACTOR

Our new release incorporates impact of tariffs on geographical markets as we predict a shift in competitiveness of companies based on HQ country, manufacturing base, exports and imports (finished goods and OEM). This intricate and multifaceted market reality will impact competitors by increasing the Cost of Goods Sold (COGS), reducing profitability, reconfiguring supply chains, amongst other micro and macro market dynamics.

TABLE OF CONTENTS

I. METHODOLOGY

II. EXECUTIVE SUMMARY

  • 1. MARKET OVERVIEW
    • Influencer Market Insights
    • World Market Trajectories
    • Tariff Impact on Global Supply Chain Patterns
    • Air-Borne Wind Turbines - Global Key Competitors Percentage Market Share in 2025 (E)
    • Competitive Market Presence - Strong/Active/Niche/Trivial for Players Worldwide in 2025 (E)
  • 2. FOCUS ON SELECT PLAYERS
  • 3. MARKET TRENDS & DRIVERS
    • High-Altitude Wind Access Propels Demand for Air-Borne Wind Turbine Solutions in Low-Wind Regions
    • Grid Decentralization and Microgrid Expansion Throw the Spotlight on Mobile and Scalable AWT Systems
    • Here's How Offshore and Remote Applications Expand the Addressable Market for Air-Borne Wind Technologies
    • Lightweight Material Innovations Strengthen the Business Case for Efficient and Cost-Effective AWT Designs
    • Global Push for Renewable Energy Diversification Spurs Growth in Non-Conventional Wind Solutions
    • Rising Land-Use Pressures Generate Opportunities for Compact and Tethered Flying Wind Systems
    • Integration with Energy Storage Systems Drives Adoption in Intermittent Power Environments
    • Military and Disaster Relief Applications Accelerate Demand for Rapid-Deployment Wind Power Solutions
    • Advances in Autonomous Flight and Control Systems Propel Technological Maturity and Market Readiness
    • Decarbonization Goals of Oil & Gas Majors Drive Interest in Clean Power for Offshore Platforms
    • Aviation Safety and Airspace Regulations Present Challenges, But Also Push Innovation in Flight Management Systems
    • Here's How Innovation in Airborne Kites and Drones Reinvents the Business Model for Distributed Wind Power
  • 4. GLOBAL MARKET PERSPECTIVE
    • TABLE 1: World Air-Borne Wind Turbines Market Analysis of Annual Sales in US$ for Years 2014 through 2030
    • TABLE 2: World Recent Past, Current & Future Analysis for Air-Borne Wind Turbines by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ for Years 2024 through 2030 and % CAGR
    • TABLE 3: World Historic Review for Air-Borne Wind Turbines by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ for Years 2014 through 2023 and % CAGR
    • TABLE 4: World 16-Year Perspective for Air-Borne Wind Turbines by Geographic Region - Percentage Breakdown of Value Sales for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets for Years 2014, 2025 & 2030
    • TABLE 5: World Recent Past, Current & Future Analysis for Onshore Turbine by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ for Years 2024 through 2030 and % CAGR
    • TABLE 6: World Historic Review for Onshore Turbine by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ for Years 2014 through 2023 and % CAGR
    • TABLE 7: World 16-Year Perspective for Onshore Turbine by Geographic Region - Percentage Breakdown of Value Sales for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2014, 2025 & 2030
    • TABLE 8: World Recent Past, Current & Future Analysis for Offshore Turbine by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ for Years 2024 through 2030 and % CAGR
    • TABLE 9: World Historic Review for Offshore Turbine by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ for Years 2014 through 2023 and % CAGR
    • TABLE 10: World 16-Year Perspective for Offshore Turbine by Geographic Region - Percentage Breakdown of Value Sales for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2014, 2025 & 2030
    • TABLE 11: World Recent Past, Current & Future Analysis for Generate Wind Power Application by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ for Years 2024 through 2030 and % CAGR
    • TABLE 12: World Historic Review for Generate Wind Power Application by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ for Years 2014 through 2023 and % CAGR
    • TABLE 13: World 16-Year Perspective for Generate Wind Power Application by Geographic Region - Percentage Breakdown of Value Sales for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2014, 2025 & 2030
    • TABLE 14: World Recent Past, Current & Future Analysis for Transportation Application by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ for Years 2024 through 2030 and % CAGR
    • TABLE 15: World Historic Review for Transportation Application by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ for Years 2014 through 2023 and % CAGR
    • TABLE 16: World 16-Year Perspective for Transportation Application by Geographic Region - Percentage Breakdown of Value Sales for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2014, 2025 & 2030
    • TABLE 17: World Recent Past, Current & Future Analysis for Pumping Water Application by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ for Years 2024 through 2030 and % CAGR
    • TABLE 18: World Historic Review for Pumping Water Application by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ for Years 2014 through 2023 and % CAGR
    • TABLE 19: World 16-Year Perspective for Pumping Water Application by Geographic Region - Percentage Breakdown of Value Sales for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2014, 2025 & 2030
    • TABLE 20: World Recent Past, Current & Future Analysis for Other Applications by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ for Years 2024 through 2030 and % CAGR
    • TABLE 21: World Historic Review for Other Applications by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ for Years 2014 through 2023 and % CAGR
    • TABLE 22: World 16-Year Perspective for Other Applications by Geographic Region - Percentage Breakdown of Value Sales for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2014, 2025 & 2030

III. MARKET ANALYSIS

  • UNITED STATES
    • Air-Borne Wind Turbines Market Presence - Strong/Active/Niche/Trivial - Key Competitors in the United States for 2025 (E)
    • TABLE 23: USA Recent Past, Current & Future Analysis for Air-Borne Wind Turbines by Turbine Type - Onshore Turbine and Offshore Turbine - Independent Analysis of Annual Sales in US$ for the Years 2024 through 2030 and % CAGR
    • TABLE 24: USA Historic Review for Air-Borne Wind Turbines by Turbine Type - Onshore Turbine and Offshore Turbine Markets - Independent Analysis of Annual Sales in US$ for Years 2014 through 2023 and % CAGR
    • TABLE 25: USA 16-Year Perspective for Air-Borne Wind Turbines by Turbine Type - Percentage Breakdown of Value Sales for Onshore Turbine and Offshore Turbine for the Years 2014, 2025 & 2030
    • TABLE 26: USA Recent Past, Current & Future Analysis for Air-Borne Wind Turbines by Application - Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications - Independent Analysis of Annual Sales in US$ for the Years 2024 through 2030 and % CAGR
    • TABLE 27: USA Historic Review for Air-Borne Wind Turbines by Application - Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications Markets - Independent Analysis of Annual Sales in US$ for Years 2014 through 2023 and % CAGR
    • TABLE 28: USA 16-Year Perspective for Air-Borne Wind Turbines by Application - Percentage Breakdown of Value Sales for Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications for the Years 2014, 2025 & 2030
  • CANADA
    • TABLE 29: Canada Recent Past, Current & Future Analysis for Air-Borne Wind Turbines by Turbine Type - Onshore Turbine and Offshore Turbine - Independent Analysis of Annual Sales in US$ for the Years 2024 through 2030 and % CAGR
    • TABLE 30: Canada Historic Review for Air-Borne Wind Turbines by Turbine Type - Onshore Turbine and Offshore Turbine Markets - Independent Analysis of Annual Sales in US$ for Years 2014 through 2023 and % CAGR
    • TABLE 31: Canada 16-Year Perspective for Air-Borne Wind Turbines by Turbine Type - Percentage Breakdown of Value Sales for Onshore Turbine and Offshore Turbine for the Years 2014, 2025 & 2030
    • TABLE 32: Canada Recent Past, Current & Future Analysis for Air-Borne Wind Turbines by Application - Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications - Independent Analysis of Annual Sales in US$ for the Years 2024 through 2030 and % CAGR
    • TABLE 33: Canada Historic Review for Air-Borne Wind Turbines by Application - Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications Markets - Independent Analysis of Annual Sales in US$ for Years 2014 through 2023 and % CAGR
    • TABLE 34: Canada 16-Year Perspective for Air-Borne Wind Turbines by Application - Percentage Breakdown of Value Sales for Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications for the Years 2014, 2025 & 2030
  • JAPAN
    • Air-Borne Wind Turbines Market Presence - Strong/Active/Niche/Trivial - Key Competitors in Japan for 2025 (E)
    • TABLE 35: Japan Recent Past, Current & Future Analysis for Air-Borne Wind Turbines by Turbine Type - Onshore Turbine and Offshore Turbine - Independent Analysis of Annual Sales in US$ for the Years 2024 through 2030 and % CAGR
    • TABLE 36: Japan Historic Review for Air-Borne Wind Turbines by Turbine Type - Onshore Turbine and Offshore Turbine Markets - Independent Analysis of Annual Sales in US$ for Years 2014 through 2023 and % CAGR
    • TABLE 37: Japan 16-Year Perspective for Air-Borne Wind Turbines by Turbine Type - Percentage Breakdown of Value Sales for Onshore Turbine and Offshore Turbine for the Years 2014, 2025 & 2030
    • TABLE 38: Japan Recent Past, Current & Future Analysis for Air-Borne Wind Turbines by Application - Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications - Independent Analysis of Annual Sales in US$ for the Years 2024 through 2030 and % CAGR
    • TABLE 39: Japan Historic Review for Air-Borne Wind Turbines by Application - Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications Markets - Independent Analysis of Annual Sales in US$ for Years 2014 through 2023 and % CAGR
    • TABLE 40: Japan 16-Year Perspective for Air-Borne Wind Turbines by Application - Percentage Breakdown of Value Sales for Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications for the Years 2014, 2025 & 2030
  • CHINA
    • Air-Borne Wind Turbines Market Presence - Strong/Active/Niche/Trivial - Key Competitors in China for 2025 (E)
    • TABLE 41: China Recent Past, Current & Future Analysis for Air-Borne Wind Turbines by Turbine Type - Onshore Turbine and Offshore Turbine - Independent Analysis of Annual Sales in US$ for the Years 2024 through 2030 and % CAGR
    • TABLE 42: China Historic Review for Air-Borne Wind Turbines by Turbine Type - Onshore Turbine and Offshore Turbine Markets - Independent Analysis of Annual Sales in US$ for Years 2014 through 2023 and % CAGR
    • TABLE 43: China 16-Year Perspective for Air-Borne Wind Turbines by Turbine Type - Percentage Breakdown of Value Sales for Onshore Turbine and Offshore Turbine for the Years 2014, 2025 & 2030
    • TABLE 44: China Recent Past, Current & Future Analysis for Air-Borne Wind Turbines by Application - Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications - Independent Analysis of Annual Sales in US$ for the Years 2024 through 2030 and % CAGR
    • TABLE 45: China Historic Review for Air-Borne Wind Turbines by Application - Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications Markets - Independent Analysis of Annual Sales in US$ for Years 2014 through 2023 and % CAGR
    • TABLE 46: China 16-Year Perspective for Air-Borne Wind Turbines by Application - Percentage Breakdown of Value Sales for Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications for the Years 2014, 2025 & 2030
  • EUROPE
    • Air-Borne Wind Turbines Market Presence - Strong/Active/Niche/Trivial - Key Competitors in Europe for 2025 (E)
    • TABLE 47: Europe Recent Past, Current & Future Analysis for Air-Borne Wind Turbines by Geographic Region - France, Germany, Italy, UK and Rest of Europe Markets - Independent Analysis of Annual Sales in US$ for Years 2024 through 2030 and % CAGR
    • TABLE 48: Europe Historic Review for Air-Borne Wind Turbines by Geographic Region - France, Germany, Italy, UK and Rest of Europe Markets - Independent Analysis of Annual Sales in US$ for Years 2014 through 2023 and % CAGR
    • TABLE 49: Europe 16-Year Perspective for Air-Borne Wind Turbines by Geographic Region - Percentage Breakdown of Value Sales for France, Germany, Italy, UK and Rest of Europe Markets for Years 2014, 2025 & 2030
    • TABLE 50: Europe Recent Past, Current & Future Analysis for Air-Borne Wind Turbines by Turbine Type - Onshore Turbine and Offshore Turbine - Independent Analysis of Annual Sales in US$ for the Years 2024 through 2030 and % CAGR
    • TABLE 51: Europe Historic Review for Air-Borne Wind Turbines by Turbine Type - Onshore Turbine and Offshore Turbine Markets - Independent Analysis of Annual Sales in US$ for Years 2014 through 2023 and % CAGR
    • TABLE 52: Europe 16-Year Perspective for Air-Borne Wind Turbines by Turbine Type - Percentage Breakdown of Value Sales for Onshore Turbine and Offshore Turbine for the Years 2014, 2025 & 2030
    • TABLE 53: Europe Recent Past, Current & Future Analysis for Air-Borne Wind Turbines by Application - Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications - Independent Analysis of Annual Sales in US$ for the Years 2024 through 2030 and % CAGR
    • TABLE 54: Europe Historic Review for Air-Borne Wind Turbines by Application - Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications Markets - Independent Analysis of Annual Sales in US$ for Years 2014 through 2023 and % CAGR
    • TABLE 55: Europe 16-Year Perspective for Air-Borne Wind Turbines by Application - Percentage Breakdown of Value Sales for Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications for the Years 2014, 2025 & 2030
  • FRANCE
    • Air-Borne Wind Turbines Market Presence - Strong/Active/Niche/Trivial - Key Competitors in France for 2025 (E)
    • TABLE 56: France Recent Past, Current & Future Analysis for Air-Borne Wind Turbines by Turbine Type - Onshore Turbine and Offshore Turbine - Independent Analysis of Annual Sales in US$ for the Years 2024 through 2030 and % CAGR
    • TABLE 57: France Historic Review for Air-Borne Wind Turbines by Turbine Type - Onshore Turbine and Offshore Turbine Markets - Independent Analysis of Annual Sales in US$ for Years 2014 through 2023 and % CAGR
    • TABLE 58: France 16-Year Perspective for Air-Borne Wind Turbines by Turbine Type - Percentage Breakdown of Value Sales for Onshore Turbine and Offshore Turbine for the Years 2014, 2025 & 2030
    • TABLE 59: France Recent Past, Current & Future Analysis for Air-Borne Wind Turbines by Application - Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications - Independent Analysis of Annual Sales in US$ for the Years 2024 through 2030 and % CAGR
    • TABLE 60: France Historic Review for Air-Borne Wind Turbines by Application - Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications Markets - Independent Analysis of Annual Sales in US$ for Years 2014 through 2023 and % CAGR
    • TABLE 61: France 16-Year Perspective for Air-Borne Wind Turbines by Application - Percentage Breakdown of Value Sales for Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications for the Years 2014, 2025 & 2030
  • GERMANY
    • Air-Borne Wind Turbines Market Presence - Strong/Active/Niche/Trivial - Key Competitors in Germany for 2025 (E)
    • TABLE 62: Germany Recent Past, Current & Future Analysis for Air-Borne Wind Turbines by Turbine Type - Onshore Turbine and Offshore Turbine - Independent Analysis of Annual Sales in US$ for the Years 2024 through 2030 and % CAGR
    • TABLE 63: Germany Historic Review for Air-Borne Wind Turbines by Turbine Type - Onshore Turbine and Offshore Turbine Markets - Independent Analysis of Annual Sales in US$ for Years 2014 through 2023 and % CAGR
    • TABLE 64: Germany 16-Year Perspective for Air-Borne Wind Turbines by Turbine Type - Percentage Breakdown of Value Sales for Onshore Turbine and Offshore Turbine for the Years 2014, 2025 & 2030
    • TABLE 65: Germany Recent Past, Current & Future Analysis for Air-Borne Wind Turbines by Application - Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications - Independent Analysis of Annual Sales in US$ for the Years 2024 through 2030 and % CAGR
    • TABLE 66: Germany Historic Review for Air-Borne Wind Turbines by Application - Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications Markets - Independent Analysis of Annual Sales in US$ for Years 2014 through 2023 and % CAGR
    • TABLE 67: Germany 16-Year Perspective for Air-Borne Wind Turbines by Application - Percentage Breakdown of Value Sales for Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications for the Years 2014, 2025 & 2030
  • ITALY
    • TABLE 68: Italy Recent Past, Current & Future Analysis for Air-Borne Wind Turbines by Turbine Type - Onshore Turbine and Offshore Turbine - Independent Analysis of Annual Sales in US$ for the Years 2024 through 2030 and % CAGR
    • TABLE 69: Italy Historic Review for Air-Borne Wind Turbines by Turbine Type - Onshore Turbine and Offshore Turbine Markets - Independent Analysis of Annual Sales in US$ for Years 2014 through 2023 and % CAGR
    • TABLE 70: Italy 16-Year Perspective for Air-Borne Wind Turbines by Turbine Type - Percentage Breakdown of Value Sales for Onshore Turbine and Offshore Turbine for the Years 2014, 2025 & 2030
    • TABLE 71: Italy Recent Past, Current & Future Analysis for Air-Borne Wind Turbines by Application - Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications - Independent Analysis of Annual Sales in US$ for the Years 2024 through 2030 and % CAGR
    • TABLE 72: Italy Historic Review for Air-Borne Wind Turbines by Application - Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications Markets - Independent Analysis of Annual Sales in US$ for Years 2014 through 2023 and % CAGR
    • TABLE 73: Italy 16-Year Perspective for Air-Borne Wind Turbines by Application - Percentage Breakdown of Value Sales for Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications for the Years 2014, 2025 & 2030
  • UNITED KINGDOM
    • Air-Borne Wind Turbines Market Presence - Strong/Active/Niche/Trivial - Key Competitors in the United Kingdom for 2025 (E)
    • TABLE 74: UK Recent Past, Current & Future Analysis for Air-Borne Wind Turbines by Turbine Type - Onshore Turbine and Offshore Turbine - Independent Analysis of Annual Sales in US$ for the Years 2024 through 2030 and % CAGR
    • TABLE 75: UK Historic Review for Air-Borne Wind Turbines by Turbine Type - Onshore Turbine and Offshore Turbine Markets - Independent Analysis of Annual Sales in US$ for Years 2014 through 2023 and % CAGR
    • TABLE 76: UK 16-Year Perspective for Air-Borne Wind Turbines by Turbine Type - Percentage Breakdown of Value Sales for Onshore Turbine and Offshore Turbine for the Years 2014, 2025 & 2030
    • TABLE 77: UK Recent Past, Current & Future Analysis for Air-Borne Wind Turbines by Application - Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications - Independent Analysis of Annual Sales in US$ for the Years 2024 through 2030 and % CAGR
    • TABLE 78: UK Historic Review for Air-Borne Wind Turbines by Application - Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications Markets - Independent Analysis of Annual Sales in US$ for Years 2014 through 2023 and % CAGR
    • TABLE 79: UK 16-Year Perspective for Air-Borne Wind Turbines by Application - Percentage Breakdown of Value Sales for Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications for the Years 2014, 2025 & 2030
  • REST OF EUROPE
    • TABLE 80: Rest of Europe Recent Past, Current & Future Analysis for Air-Borne Wind Turbines by Turbine Type - Onshore Turbine and Offshore Turbine - Independent Analysis of Annual Sales in US$ for the Years 2024 through 2030 and % CAGR
    • TABLE 81: Rest of Europe Historic Review for Air-Borne Wind Turbines by Turbine Type - Onshore Turbine and Offshore Turbine Markets - Independent Analysis of Annual Sales in US$ for Years 2014 through 2023 and % CAGR
    • TABLE 82: Rest of Europe 16-Year Perspective for Air-Borne Wind Turbines by Turbine Type - Percentage Breakdown of Value Sales for Onshore Turbine and Offshore Turbine for the Years 2014, 2025 & 2030
    • TABLE 83: Rest of Europe Recent Past, Current & Future Analysis for Air-Borne Wind Turbines by Application - Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications - Independent Analysis of Annual Sales in US$ for the Years 2024 through 2030 and % CAGR
    • TABLE 84: Rest of Europe Historic Review for Air-Borne Wind Turbines by Application - Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications Markets - Independent Analysis of Annual Sales in US$ for Years 2014 through 2023 and % CAGR
    • TABLE 85: Rest of Europe 16-Year Perspective for Air-Borne Wind Turbines by Application - Percentage Breakdown of Value Sales for Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications for the Years 2014, 2025 & 2030
  • ASIA-PACIFIC
    • Air-Borne Wind Turbines Market Presence - Strong/Active/Niche/Trivial - Key Competitors in Asia-Pacific for 2025 (E)
    • TABLE 86: Asia-Pacific Recent Past, Current & Future Analysis for Air-Borne Wind Turbines by Turbine Type - Onshore Turbine and Offshore Turbine - Independent Analysis of Annual Sales in US$ for the Years 2024 through 2030 and % CAGR
    • TABLE 87: Asia-Pacific Historic Review for Air-Borne Wind Turbines by Turbine Type - Onshore Turbine and Offshore Turbine Markets - Independent Analysis of Annual Sales in US$ for Years 2014 through 2023 and % CAGR
    • TABLE 88: Asia-Pacific 16-Year Perspective for Air-Borne Wind Turbines by Turbine Type - Percentage Breakdown of Value Sales for Onshore Turbine and Offshore Turbine for the Years 2014, 2025 & 2030
    • TABLE 89: Asia-Pacific Recent Past, Current & Future Analysis for Air-Borne Wind Turbines by Application - Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications - Independent Analysis of Annual Sales in US$ for the Years 2024 through 2030 and % CAGR
    • TABLE 90: Asia-Pacific Historic Review for Air-Borne Wind Turbines by Application - Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications Markets - Independent Analysis of Annual Sales in US$ for Years 2014 through 2023 and % CAGR
    • TABLE 91: Asia-Pacific 16-Year Perspective for Air-Borne Wind Turbines by Application - Percentage Breakdown of Value Sales for Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications for the Years 2014, 2025 & 2030
  • REST OF WORLD
    • TABLE 92: Rest of World Recent Past, Current & Future Analysis for Air-Borne Wind Turbines by Turbine Type - Onshore Turbine and Offshore Turbine - Independent Analysis of Annual Sales in US$ for the Years 2024 through 2030 and % CAGR
    • TABLE 93: Rest of World Historic Review for Air-Borne Wind Turbines by Turbine Type - Onshore Turbine and Offshore Turbine Markets - Independent Analysis of Annual Sales in US$ for Years 2014 through 2023 and % CAGR
    • TABLE 94: Rest of World 16-Year Perspective for Air-Borne Wind Turbines by Turbine Type - Percentage Breakdown of Value Sales for Onshore Turbine and Offshore Turbine for the Years 2014, 2025 & 2030
    • TABLE 95: Rest of World Recent Past, Current & Future Analysis for Air-Borne Wind Turbines by Application - Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications - Independent Analysis of Annual Sales in US$ for the Years 2024 through 2030 and % CAGR
    • TABLE 96: Rest of World Historic Review for Air-Borne Wind Turbines by Application - Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications Markets - Independent Analysis of Annual Sales in US$ for Years 2014 through 2023 and % CAGR
    • TABLE 97: Rest of World 16-Year Perspective for Air-Borne Wind Turbines by Application - Percentage Breakdown of Value Sales for Generate Wind Power Application, Transportation Application, Pumping Water Application and Other Applications for the Years 2014, 2025 & 2030

IV. COMPETITION