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仮想発電所の世界市場

Virtual Power Plants

出版日
ページ情報
英文 245 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=146.99円
仮想発電所の世界市場
出版日: 2024年08月05日
発行: Global Industry Analysts, Inc.
ページ情報: 英文 245 Pages
納期: 即日から翌営業日
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概要

仮想発電所の世界市場は2030年までに39億米ドルに達する見込み

2023年に7億3,340万米ドルと推定される仮想発電所の世界市場は、2023年から2030年にかけてCAGR 26.8%で成長し、2030年には39億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つである需要応答技術は、CAGR 26.5%を記録し、分析期間終了時には30億米ドルに達すると予測されます。分散型発電技術セグメントの成長率は、分析期間中CAGR 24.8%と推定されます。

米国市場は推定4億770万米ドル、中国はCAGR 33.7%で成長予測

米国の仮想発電所市場は、2023年に4億770万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2億3,120万米ドルの市場規模に達すると予測され、分析期間2023-2030年のCAGRは33.7%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21.2%と25.7%と予測されています。欧州では、ドイツがCAGR約26.4%で成長すると予測されています。

世界の仮想発電所市場- 主要動向と促進要因のまとめ

仮想発電所(VPP)は、太陽光パネル、風力タービン、小型天然ガス発電機など、さまざまな小規模分散型エネルギー資源をネットワークに統合し、ソフトウェアで一元管理できるエネルギー管理の革新的なモデルです。従来の発電所とは異なり、VPPは単一のエネルギー源に依存するのではなく、異種の分散型エネルギー資源(DER)の能力を集約し、効率的かつ確実に電力を供給します。仮想発電所は、従来の選択肢を凌駕する説得力のあるメリットにより、エネルギー産業においてますます注目を集めています。これらのプラントは、クラウドベースの分散型電源システムであり、信頼性の高い電力供給を確保しながら、発電を強化するためにさまざまな電源を統合することができます。仮想発電所は、電力市場におけるエネルギーの販売と取引を容易にします。これらの発電所は、中央当局によって制御される柔軟または制御可能な負荷分散型発電システムのクラスターを表す多様な電源を統合しています。これらの電源には、天然ガス焚きレシプロエンジン、マイクロCHP、太陽光発電、小規模風力発電ユニット、エネルギー貯蔵システム、小規模水力発電、バックアップ発電機、バイオマス発電所が含まれます。

VPPの運転効率は、モノのインターネット(IoT)、人工知能(AI)、機械学習などの最先端技術の利用によって向上します。これらのテクノロジーは、リアルタイムのデータ取得、予測、資源管理を可能にします。IoTデバイスは各ユニットの性能とエネルギー生産量を追跡し、AIアルゴリズムはエネルギー需要と発電パターンを予測し、機械学習はエネルギーの分配と貯蔵を最適化して無駄を最小限に抑え、効率を高める。この高度な統合と自動化により、VPPはピークカット、負荷分散、需要応答などの重要な機能をより効果的に実行できるようになります。さらに、VPPは、再生可能エネルギーや未使用の容量から貯蔵されたエネルギーを迅速に配備することで、需要が高い時や供給障害が発生した時に送電網をサポートし、送電網の安定性と回復力を高めることができます。

仮想発電所は、エネルギー移行を加速させる予定のデジタル化を、エネルギー業界の参加者が受け入れようとする現在進行中の努力から、大きな採用刺激を受けると予想されます。大規模なエネルギー転換に伴い、エネルギー需要と消費パターンに合わせてエネルギーシステムが継続的に進化しているため、電力会社にとってデジタル・プラットフォームは競争力を維持するための有力な選択肢となっています。分散型エネルギー資源の普及が進み、これらの選択肢を効率的に計画・管理することが急務となっていることは、公益事業会社から注目されると予想される仮想発電所にとって好材料です。エネルギー貯蔵と管理ソフトウェアの技術的進歩は、再生可能エネルギー生産者の参入障壁を大幅に下げ、VPPへの統合を促進しています。さらに、より持続可能で信頼性の高いエネルギー源を求める消費者の需要に後押しされたエネルギー生産の分散化が、市場を前進させています。多くの国で、クリーンエネルギー技術に対する経済的インセンティブと規制支援が、VPPの採用をさらに後押ししています。

調査対象企業の例(全40件)

  • IBM Corporation
  • Siemens AG
  • General Electric Company
  • Schneider Electric SE
  • Open Access Technology International, Inc.
  • Enel X North America, Inc.
  • ENBALA Power Networks, Inc.
  • EnBW Energie Baden-Wuerttemberg AG
  • Advanced Microgrid Solutions(AMS)
  • Blue Pillar, Inc.
  • Power Analytics Corporation
  • AGL Energy Ltd.
  • Energy Pool Developpement SAS
  • Power Technology Engineered Solutions
  • Equiwatt

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
  • 世界のその他の地域

第4章 競合

目次
Product Code: MCP15512

Global Virtual Power Plants Market to Reach US$3.9 Billion by 2030

The global market for Virtual Power Plants estimated at US$733.4 Million in the year 2023, is expected to reach US$3.9 Billion by 2030, growing at a CAGR of 26.8% over the analysis period 2023-2030. Demand Response Technology, one of the segments analyzed in the report, is expected to record a 26.5% CAGR and reach US$3.0 Billion by the end of the analysis period. Growth in the Distributed Generation Technology segment is estimated at 24.8% CAGR over the analysis period.

The U.S. Market is Estimated at US$407.7 Million While China is Forecast to Grow at 33.7% CAGR

The Virtual Power Plants market in the U.S. is estimated at US$407.7 Million in the year 2023. China, the world's second largest economy, is forecast to reach a projected market size of US$231.2 Million by the year 2030 trailing a CAGR of 33.7% over the analysis period 2023-2030. Among the other noteworthy geographic markets are Japan and Canada, each forecast to grow at a CAGR of 21.2% and 25.7% respectively over the analysis period. Within Europe, Germany is forecast to grow at approximately 26.4% CAGR.

Global Virtual Power Plants Market - Key Trends and Drivers Summarized

Virtual Power Plants (VPPs) represent an innovative model for energy management, integrating various small-scale decentralized energy resources—like solar panels, wind turbines, and small natural gas generators—into a network that can be managed centrally via software. Unlike traditional power plants, VPPs do not rely on a single type of energy source; rather, they aggregate the capacities of heterogeneous distributed energy resources (DERs) to deliver electricity efficiently and reliably. Virtual power plants are garnering increasing attention in the energy industry owing to their compelling merits over conventional options. These plants are cloud-based distributed power systems capable of integrating different power sources to enhance power generation while ensuring reliable electricity supply. Virtual power plants facilitate selling and trading of energy on the electricity market. These plants integrate diverse sources that represent a cluster of flexible or controllable load distributed generation systems controlled by central authority. These sources encompass natural gas-fired reciprocating engines, micro-CHPs, solar photovoltaic, small-scale wind power units, energy storage systems, small-scale hydro, backup generators and biomass plants.

The operational efficiency of VPPs is enhanced through the use of cutting-edge technologies such as the Internet of Things (IoT), artificial intelligence (AI), and machine learning. These technologies enable real-time data acquisition, forecasting, and management of resources. IoT devices track performance and energy production from each unit, AI algorithms predict energy demand and generation patterns, and machine learning optimizes energy distribution and storage to minimize waste and increase efficiency. This high level of integration and automation allows VPPs to perform critical functions such as peak shaving, load balancing, and demand response more effectively. Furthermore, VPPs can support the grid during times of high demand or supply failure by quickly deploying energy stored from renewables or unused capacities, thus enhancing grid stability and resilience.

Virtual power plants are anticipated to receive a major adoption stimulus from ongoing endeavors by participants in the energy industry to embrace digitalization, which is slated to expedite energy transition. The continuous evolution of the energy system in line with energy demand and consumption patterns along with massive energy transition has established digital platforms as a compelling option for utility companies to stay competitive. The increasing proliferation of distributed energy resources coupled with the pressing need to efficiently plan and manage these options is a boon for virtual power plants that are anticipated to garner notable attention from utility companies. Technological advancements in energy storage and management software have significantly lowered the barriers to entry for renewable energy producers, facilitating their integration into VPPs. Additionally, the decentralization of energy production, motivated by consumer demand for more sustainable and reliable energy sources, is propelling the market forward. Economic incentives and regulatory support for clean energy technologies in many countries are further bolstering the adoption of VPPs.

Select Competitors (Total 40 Featured) -

  • IBM Corporation
  • Siemens AG
  • General Electric Company
  • Schneider Electric SE
  • Open Access Technology International, Inc.
  • Enel X North America, Inc.
  • ENBALA Power Networks, Inc.
  • EnBW Energie Baden-Wuerttemberg AG
  • Advanced Microgrid Solutions (AMS)
  • Blue Pillar, Inc.
  • Power Analytics Corporation
  • AGL Energy Ltd.
  • Energy Pool Developpement SAS
  • Power Technology Engineered Solutions
  • Equiwatt

TABLE OF CONTENTS

I. METHODOLOGY

II. EXECUTIVE SUMMARY

  • 1. MARKET OVERVIEW
    • Virtual Power Plants - Global Key Competitors Percentage Market Share in 2024 (E)
    • Competitive Market Presence - Strong/Active/Niche/Trivial for Players Worldwide in 2024 (E)
    • Growing Investments in Energy Infrastructure: The Cornerstone for Growth in the Market
    • Growing Investments in Energy Infrastructure Provides a Launch Pad for the Rise & Proliferation of VPPs: Estimated Global Power Generation Infrastructure Requirement (in US$ Billion) for China, India, Latin America, and North America over the Period 2010-2030
    • How the Energy Industry is Impacted by the Pandemic & What's the New Normal?
    • Global Energy Market Reset & Trajectory - Growth Outlook (In %) For Years 2019 Through 2025
    • Global Utilities Market Reset & Trajectory - Growth Outlook (In %) For Years 2019 Through 2025
    • Virtual Power Plants (VPPs): Meaning, Importance, Functioning & Benefits
    • Recent Market Activity
    • Innovations
  • 2. FOCUS ON SELECT PLAYERS
  • 3. MARKET TRENDS & DRIVERS
    • Distributed Energy Generation: A Key Energy Transformation Goal & Foundation for the Rise of the Concept of Virtual Power Plants (VPPs)
    • Role of Virtual Power Plants (VPP) in a Decentralized Power Grid
    • Growing Value of Demand Response (DR) Throws the Focus on VPPs as an Effective Tool to Achieve DR Goals
    • Rise of Smart Cities & Smart Grids Bodes Well for Increased Investments in VPPs
    • Smart Grid: A Critical Part of Energy Infrastructure in Smart Cities & a Strong Business Case for VPPs
    • Global Smart Grid Market Opportunity (In US$ Billion) for Years 2021, 2023 & 2024
    • Growing Digitalization of Energy to Further Spur the Rise of VPPs
    • Special Focus on Energy Digitalization
    • Global Opportunities for Digital Technologies in the Energy Industry by Segment (In US$ Billion)
    • IoT Makes Electricity Generation Efficient, Affordable and Sustainable: Global IoT in Energy Market (In US$ Billion) for the Years 2019, 2021, 2023, 2025 & 2026
    • Optimal Management of Renewable Energy Sources Throws the Spotlight on VPPs
    • Rise of Renewables Throws the Spotlight on VPPs: Global Projected Net Capacity Additions of Renewable Energy (In GW) for the Period 2019 to 2024
    • Growing Share of Renewables Against the Backdrop of the Focus on Decarbonization of Human Civilization to Open New Opportunities for VPPs: World Energy Production (In Billion Kilowatt Hours) by Energy Source for the Years 2020, 2030 and 2040
    • Concept of Blockchain-Based Decentralized Virtual Power Plants Gains Momentum & Preeminence
    • Global Market for Blockchain Technology in the Energy Sector (In US$ Billion) for Years 2020, 2022, 2024 & 2026
    • Rise in Energy Trading to Benefit Market Growth
  • 4. GLOBAL MARKET PERSPECTIVE
    • TABLE 1: World Recent Past, Current & Future Analysis for Virtual Power Plants by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2023 through 2030 and % CAGR
    • TABLE 2: World 7-Year Perspective for Virtual Power Plants by Geographic Region - Percentage Breakdown of Value Revenues for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets for Years 2024 & 2030
    • TABLE 3: World Recent Past, Current & Future Analysis for Demand Response by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2023 through 2030 and % CAGR
    • TABLE 4: World 7-Year Perspective for Demand Response by Geographic Region - Percentage Breakdown of Value Revenues for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2024 & 2030
    • TABLE 5: World Recent Past, Current & Future Analysis for Distributed Generation by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2023 through 2030 and % CAGR
    • TABLE 6: World 7-Year Perspective for Distributed Generation by Geographic Region - Percentage Breakdown of Value Revenues for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2024 & 2030
    • TABLE 7: World Recent Past, Current & Future Analysis for Mixed Asset by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2023 through 2030 and % CAGR
    • TABLE 8: World 7-Year Perspective for Mixed Asset by Geographic Region - Percentage Breakdown of Value Revenues for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2024 & 2030
    • TABLE 9: World Recent Past, Current & Future Analysis for Industrial & Commercial by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2023 through 2030 and % CAGR
    • TABLE 10: World 7-Year Perspective for Industrial & Commercial by Geographic Region - Percentage Breakdown of Value Revenues for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2024 & 2030
    • TABLE 11: World Recent Past, Current & Future Analysis for Residential by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2023 through 2030 and % CAGR
    • TABLE 12: World 7-Year Perspective for Residential by Geographic Region - Percentage Breakdown of Value Revenues for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2024 & 2030
    • TABLE 13: World Virtual Power Plants Market Analysis of Annual Sales in US$ Thousand for Years 2020 through 2030

III. MARKET ANALYSIS

  • UNITED STATES
    • Virtual Power Plants Market Presence - Strong/Active/Niche/Trivial - Key Competitors in the United States for 2024 (E)
    • TABLE 14: USA Recent Past, Current & Future Analysis for Virtual Power Plants by Technology - Demand Response, Distributed Generation and Mixed Asset - Independent Analysis of Annual Revenues in US$ Thousand for the Years 2023 through 2030 and % CAGR
    • TABLE 15: USA 7-Year Perspective for Virtual Power Plants by Technology - Percentage Breakdown of Value Revenues for Demand Response, Distributed Generation and Mixed Asset for the Years 2024 & 2030
    • TABLE 16: USA Recent Past, Current & Future Analysis for Virtual Power Plants by End-Use - Industrial & Commercial and Residential - Independent Analysis of Annual Revenues in US$ Thousand for the Years 2023 through 2030 and % CAGR
    • TABLE 17: USA 7-Year Perspective for Virtual Power Plants by End-Use - Percentage Breakdown of Value Revenues for Industrial & Commercial and Residential for the Years 2024 & 2030
  • CANADA
    • TABLE 18: Canada Recent Past, Current & Future Analysis for Virtual Power Plants by Technology - Demand Response, Distributed Generation and Mixed Asset - Independent Analysis of Annual Revenues in US$ Thousand for the Years 2023 through 2030 and % CAGR
    • TABLE 19: Canada 7-Year Perspective for Virtual Power Plants by Technology - Percentage Breakdown of Value Revenues for Demand Response, Distributed Generation and Mixed Asset for the Years 2024 & 2030
    • TABLE 20: Canada Recent Past, Current & Future Analysis for Virtual Power Plants by End-Use - Industrial & Commercial and Residential - Independent Analysis of Annual Revenues in US$ Thousand for the Years 2023 through 2030 and % CAGR
    • TABLE 21: Canada 7-Year Perspective for Virtual Power Plants by End-Use - Percentage Breakdown of Value Revenues for Industrial & Commercial and Residential for the Years 2024 & 2030
  • JAPAN
    • Virtual Power Plants Market Presence - Strong/Active/Niche/Trivial - Key Competitors in Japan for 2024 (E)
    • TABLE 22: Japan Recent Past, Current & Future Analysis for Virtual Power Plants by Technology - Demand Response, Distributed Generation and Mixed Asset - Independent Analysis of Annual Revenues in US$ Thousand for the Years 2023 through 2030 and % CAGR
    • TABLE 23: Japan 7-Year Perspective for Virtual Power Plants by Technology - Percentage Breakdown of Value Revenues for Demand Response, Distributed Generation and Mixed Asset for the Years 2024 & 2030
    • TABLE 24: Japan Recent Past, Current & Future Analysis for Virtual Power Plants by End-Use - Industrial & Commercial and Residential - Independent Analysis of Annual Revenues in US$ Thousand for the Years 2023 through 2030 and % CAGR
    • TABLE 25: Japan 7-Year Perspective for Virtual Power Plants by End-Use - Percentage Breakdown of Value Revenues for Industrial & Commercial and Residential for the Years 2024 & 2030
  • CHINA
    • Virtual Power Plants Market Presence - Strong/Active/Niche/Trivial - Key Competitors in China for 2024 (E)
    • TABLE 26: China Recent Past, Current & Future Analysis for Virtual Power Plants by Technology - Demand Response, Distributed Generation and Mixed Asset - Independent Analysis of Annual Revenues in US$ Thousand for the Years 2023 through 2030 and % CAGR
    • TABLE 27: China 7-Year Perspective for Virtual Power Plants by Technology - Percentage Breakdown of Value Revenues for Demand Response, Distributed Generation and Mixed Asset for the Years 2024 & 2030
    • TABLE 28: China Recent Past, Current & Future Analysis for Virtual Power Plants by End-Use - Industrial & Commercial and Residential - Independent Analysis of Annual Revenues in US$ Thousand for the Years 2023 through 2030 and % CAGR
    • TABLE 29: China 7-Year Perspective for Virtual Power Plants by End-Use - Percentage Breakdown of Value Revenues for Industrial & Commercial and Residential for the Years 2024 & 2030
  • EUROPE
    • Virtual Power Plants Market Presence - Strong/Active/Niche/Trivial - Key Competitors in Europe for 2024 (E)
    • TABLE 30: Europe Recent Past, Current & Future Analysis for Virtual Power Plants by Geographic Region - France, Germany, Italy, UK and Rest of Europe Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2023 through 2030 and % CAGR
    • TABLE 31: Europe 7-Year Perspective for Virtual Power Plants by Geographic Region - Percentage Breakdown of Value Revenues for France, Germany, Italy, UK and Rest of Europe Markets for Years 2024 & 2030
    • TABLE 32: Europe Recent Past, Current & Future Analysis for Virtual Power Plants by Technology - Demand Response, Distributed Generation and Mixed Asset - Independent Analysis of Annual Revenues in US$ Thousand for the Years 2023 through 2030 and % CAGR
    • TABLE 33: Europe 7-Year Perspective for Virtual Power Plants by Technology - Percentage Breakdown of Value Revenues for Demand Response, Distributed Generation and Mixed Asset for the Years 2024 & 2030
    • TABLE 34: Europe Recent Past, Current & Future Analysis for Virtual Power Plants by End-Use - Industrial & Commercial and Residential - Independent Analysis of Annual Revenues in US$ Thousand for the Years 2023 through 2030 and % CAGR
    • TABLE 35: Europe 7-Year Perspective for Virtual Power Plants by End-Use - Percentage Breakdown of Value Revenues for Industrial & Commercial and Residential for the Years 2024 & 2030
  • FRANCE
    • Virtual Power Plants Market Presence - Strong/Active/Niche/Trivial - Key Competitors in France for 2024 (E)
    • TABLE 36: France Recent Past, Current & Future Analysis for Virtual Power Plants by Technology - Demand Response, Distributed Generation and Mixed Asset - Independent Analysis of Annual Revenues in US$ Thousand for the Years 2023 through 2030 and % CAGR
    • TABLE 37: France 7-Year Perspective for Virtual Power Plants by Technology - Percentage Breakdown of Value Revenues for Demand Response, Distributed Generation and Mixed Asset for the Years 2024 & 2030
    • TABLE 38: France Recent Past, Current & Future Analysis for Virtual Power Plants by End-Use - Industrial & Commercial and Residential - Independent Analysis of Annual Revenues in US$ Thousand for the Years 2023 through 2030 and % CAGR
    • TABLE 39: France 7-Year Perspective for Virtual Power Plants by End-Use - Percentage Breakdown of Value Revenues for Industrial & Commercial and Residential for the Years 2024 & 2030
  • GERMANY
    • Virtual Power Plants Market Presence - Strong/Active/Niche/Trivial - Key Competitors in Germany for 2024 (E)
    • TABLE 40: Germany Recent Past, Current & Future Analysis for Virtual Power Plants by Technology - Demand Response, Distributed Generation and Mixed Asset - Independent Analysis of Annual Revenues in US$ Thousand for the Years 2023 through 2030 and % CAGR
    • TABLE 41: Germany 7-Year Perspective for Virtual Power Plants by Technology - Percentage Breakdown of Value Revenues for Demand Response, Distributed Generation and Mixed Asset for the Years 2024 & 2030
    • TABLE 42: Germany Recent Past, Current & Future Analysis for Virtual Power Plants by End-Use - Industrial & Commercial and Residential - Independent Analysis of Annual Revenues in US$ Thousand for the Years 2023 through 2030 and % CAGR
    • TABLE 43: Germany 7-Year Perspective for Virtual Power Plants by End-Use - Percentage Breakdown of Value Revenues for Industrial & Commercial and Residential for the Years 2024 & 2030
  • ITALY
    • TABLE 44: Italy Recent Past, Current & Future Analysis for Virtual Power Plants by Technology - Demand Response, Distributed Generation and Mixed Asset - Independent Analysis of Annual Revenues in US$ Thousand for the Years 2023 through 2030 and % CAGR
    • TABLE 45: Italy 7-Year Perspective for Virtual Power Plants by Technology - Percentage Breakdown of Value Revenues for Demand Response, Distributed Generation and Mixed Asset for the Years 2024 & 2030
    • TABLE 46: Italy Recent Past, Current & Future Analysis for Virtual Power Plants by End-Use - Industrial & Commercial and Residential - Independent Analysis of Annual Revenues in US$ Thousand for the Years 2023 through 2030 and % CAGR
    • TABLE 47: Italy 7-Year Perspective for Virtual Power Plants by End-Use - Percentage Breakdown of Value Revenues for Industrial & Commercial and Residential for the Years 2024 & 2030
  • UNITED KINGDOM
    • Virtual Power Plants Market Presence - Strong/Active/Niche/Trivial - Key Competitors in the United Kingdom for 2024 (E)
    • TABLE 48: UK Recent Past, Current & Future Analysis for Virtual Power Plants by Technology - Demand Response, Distributed Generation and Mixed Asset - Independent Analysis of Annual Revenues in US$ Thousand for the Years 2023 through 2030 and % CAGR
    • TABLE 49: UK 7-Year Perspective for Virtual Power Plants by Technology - Percentage Breakdown of Value Revenues for Demand Response, Distributed Generation and Mixed Asset for the Years 2024 & 2030
    • TABLE 50: UK Recent Past, Current & Future Analysis for Virtual Power Plants by End-Use - Industrial & Commercial and Residential - Independent Analysis of Annual Revenues in US$ Thousand for the Years 2023 through 2030 and % CAGR
    • TABLE 51: UK 7-Year Perspective for Virtual Power Plants by End-Use - Percentage Breakdown of Value Revenues for Industrial & Commercial and Residential for the Years 2024 & 2030
  • REST OF EUROPE
    • TABLE 52: Rest of Europe Recent Past, Current & Future Analysis for Virtual Power Plants by Technology - Demand Response, Distributed Generation and Mixed Asset - Independent Analysis of Annual Revenues in US$ Thousand for the Years 2023 through 2030 and % CAGR
    • TABLE 53: Rest of Europe 7-Year Perspective for Virtual Power Plants by Technology - Percentage Breakdown of Value Revenues for Demand Response, Distributed Generation and Mixed Asset for the Years 2024 & 2030
    • TABLE 54: Rest of Europe Recent Past, Current & Future Analysis for Virtual Power Plants by End-Use - Industrial & Commercial and Residential - Independent Analysis of Annual Revenues in US$ Thousand for the Years 2023 through 2030 and % CAGR
    • TABLE 55: Rest of Europe 7-Year Perspective for Virtual Power Plants by End-Use - Percentage Breakdown of Value Revenues for Industrial & Commercial and Residential for the Years 2024 & 2030
  • ASIA-PACIFIC
    • Virtual Power Plants Market Presence - Strong/Active/Niche/Trivial - Key Competitors in Asia-Pacific for 2024 (E)
    • TABLE 56: Asia-Pacific Recent Past, Current & Future Analysis for Virtual Power Plants by Technology - Demand Response, Distributed Generation and Mixed Asset - Independent Analysis of Annual Revenues in US$ Thousand for the Years 2023 through 2030 and % CAGR
    • TABLE 57: Asia-Pacific 7-Year Perspective for Virtual Power Plants by Technology - Percentage Breakdown of Value Revenues for Demand Response, Distributed Generation and Mixed Asset for the Years 2024 & 2030
    • TABLE 58: Asia-Pacific Recent Past, Current & Future Analysis for Virtual Power Plants by End-Use - Industrial & Commercial and Residential - Independent Analysis of Annual Revenues in US$ Thousand for the Years 2023 through 2030 and % CAGR
    • TABLE 59: Asia-Pacific 7-Year Perspective for Virtual Power Plants by End-Use - Percentage Breakdown of Value Revenues for Industrial & Commercial and Residential for the Years 2024 & 2030
  • REST OF WORLD
    • TABLE 60: Rest of World Recent Past, Current & Future Analysis for Virtual Power Plants by Technology - Demand Response, Distributed Generation and Mixed Asset - Independent Analysis of Annual Revenues in US$ Thousand for the Years 2023 through 2030 and % CAGR
    • TABLE 61: Rest of World 7-Year Perspective for Virtual Power Plants by Technology - Percentage Breakdown of Value Revenues for Demand Response, Distributed Generation and Mixed Asset for the Years 2024 & 2030
    • TABLE 62: Rest of World Recent Past, Current & Future Analysis for Virtual Power Plants by End-Use - Industrial & Commercial and Residential - Independent Analysis of Annual Revenues in US$ Thousand for the Years 2023 through 2030 and % CAGR
    • TABLE 63: Rest of World 7-Year Perspective for Virtual Power Plants by End-Use - Percentage Breakdown of Value Revenues for Industrial & Commercial and Residential for the Years 2024 & 2030

IV. COMPETITION