Virtual Power Plant Market – Global Forecast to 2029
仮想発電所(VPP)市場 : テクノロジー（デマンドレスポンス、サプライサイド、複合資産）、垂直（商業、産業、住宅）、供給源（再生可能エネルギー、貯蔵、コージェネレーション）、提供内容＆地域別 – 2029年までの世界予測
Virtual Power Plant Market by Technology (Demand Response, Supply Side, Mixed Asset), Vertical (Commercial, Industrial, Residential), Source (Renewable Energy, Storage, Cogeneration), Offering, & Region- Global Forecast to 2029
The global virtual power plant (VPP) market is forecast to reach USD 5.5 billion by 2029 from an estimated USD 1.9 billion in 2024, at a CAGR of 23.4% during the forecast period (2024-2029).
The rise in the demand for decarbonization of power distribution systems, and need to mitigate impact of intermittent renewable sources is driving the market.
Key Benefits of Buying the Report
• Seamless integration with renewable sources such as solar and wind, Need to mitigate impact of intermittent renewable sources, and decarbonization of power distribution systems to drive the demand. Factors such as Requirement of high investments to deploy monitoring and control systems and predictive analysis hinder market growth. Increasing installation of smart grids offer lucrative opportunities in this market. Integration of different hardware and software components in VPPs, Cybersecurity threats due to use of digital infrastructure and communication networks are major challenges faced by countries in this market.
• Product Development/ Innovation: The trends such as the integration of AI and ML algorithms is a pivotal trend in VPP development. These technologies contribute to the optimization of energy generation and consumption, boosting efficiency and cost-effectiveness. VPPs dynamically optimize their performance by employing real-time data analysis, ensuring responsiveness to varying energy demands and supply conditions. Secured data connections, often facilitated through wireless channels, form the backbone of VPP communication. This infrastructure enables the transmission of control commands and data between the central control system and connected assets in real time, allowing for effective monitoring and performance analysis.
• Market Development: The development of virtual power plant is essential to achieve shared goals for energy security, economic development, and climate change mitigation. Smart grids enable increased demand response and energy efficiency, integration of variable renewable energy resources into the power grid infrastructure while reducing peak demand and stabilizing the electricity system.
• Market Diversification: Schnedier Electric’s VPP4 Islands is a 4-year project aiming to smoothen the integration of renewable generation systems, promote the transition to smarter and cleaner energy, and help islands exploit different approaches to energy efficiency and innovative storage.
• Competitive Assessment: In-depth assessment of market shares, growth strategies, and service offerings of leading players like Siemens (Germany), Schneider Electric (France), General Electric (US), Shell (UK), Tesla (US) among others in the virtual power plant market.