Product Code: ENE0495
Title:
Virtual Power Plant (VPP) Market Report 2021-2031
Forecasts by Component (Energy Generation Technology, Energy Storage Technologies, Information Communication Technology (ICT)), by Energy Generation Technology (Wind Based Energy Generation, Small Hydro-Plants, Solar Production, Combined Heat and Power (CHP), Small Power Plants, Other), by Information Communication Technology (ICT) (Energy Management Systems (EMS), Supervisory Control and Data Acquisition (SCADA), Distribution Management System (DMS), Smart Meters, Other), by Energy Storage Technology (Battery Energy Storage System (BESS), Supercapacitor Energy Storage (SCES), Super Conductor Magnetic Energy Storage (SMES), Hydraulic Pumped Energy Storage (HPES), Flywheel Energy Storage (FWES), Other), by End-user (Industrial VPP, Commercial VPP, Residential VPP, Other) AND Regional and Leading National Market Analysis PLUS Analysis of Leading VPP Companies AND COVID-19 Recovery Scenarios.
What is the Current Status of Global Market for Virtual Power Plants?
According to Visiongain analysis, global virtual power plant market was valued at US$xx million in 2020 and is projected to reach at a market value of US$xx million by 2031. Global market is expected to grow at a CAGR of xx% during the forecast period 2021-2031. VPP is a relatively new yet appealing idea that requires extensive study in order to be implemented. This paper offers a systematic overview of the literature on various VPP meanings, elements, and their relationships. An analysis of various optimization strategies seeks to enhance either the VPP structure or the VPP operation under consideration.
Huge demand for virtual power plants in the global market
Many countries have projects in the pipeline, and more are planned to be completed in the near future. VPP models are expandable and modular models. As long as VPP models are used to benefit consumers, the potential for expansion into emerging technology is enormous, with the customer taking centre stage and playing an active role in the VPP. Furthermore, synergies in VPP business models are based on aggregators, so there is space for more research in this field
Cyber security is becoming increasingly important
In the VPP business model, cyber security is becoming increasingly important. The dangers are real, with a slew of players vying for access to some of the best-protected resources in the energy sector. According to research done on threats and cyber-attacks, the energy sector is the second most attacked sector on the planet.
Digitalization of the energy sector by virtual power plants
When it comes to the fact that the future is digital, the energy industry is no exception. Electricity supply is experiencing a paradigm change, similar to many other aspects of our culture, not only on a national, but also on a global scale. We are finally turning away from massive, fossil-fuelled power plants and toward smaller, decentralised units that are connected together through digitalization opportunities - which are rapidly expanding. Virtual Power Plants (VPPs) are agents of a democratic change in power supply, redistributing responsibility to society.
As a key player in virtual power plant, it is important for you to remain up to date with news surrounding COVID-19 and the energy industry
Thankfully, you don't have to look any further. Visiongain has collated important virtual power plant industry updates from across the country. With the scale of the COVID-19 pandemic, no sector has been left unaffected. This is true for the energy industry. The last few months have seen a shift in rules and regulation surrounding commercial market. It is important to stay abreast to the market activities to get an edge over competitors in the global virtual power plant market.
You need to discover how this will impact the virtual power plant market today, and over the next 10 years:
- Our 525-page report provides 321 tables and 324 charts/graphs exclusively to you.
- The report highlights key lucrative areas in the industry so you can target them - NOW.
- Contains in-depth analyse of global, regional and national sales and growth
- Highlights for you the key successful trends, changes and revenue projections made by your competitors
This report tells you TODAY how the virtual power plant market will develop in the next 10 years, and in-line with the variations in COVID-19 economic recession and bounce. This market is more critical now than at any point over the last 10 years.
Delivers exclusive COVID-19 variations economic data specific to your market.
Forecasts to 2031 and other analyses reveal the commercial prospects
- In addition to revenue forecasting to 2031, our new study provides you with recent results, growth rates, and market shares.
- You find original analyses, with business outlooks and developments.
- Discover qualitative analyses (including market dynamics, drivers, opportunities, restraints and challenges), cost structure, impact of rising energy prices and recent developments.
This report includes data analysis and invaluable insight into how COVID-19 will affect your industry. Four COVID-19 recovery patterns and their impact, namely, V, L, W and U are discussed in this report.
Market Segmentation by Component (COVID Impact Analysis)
- Energy Generation Technology
- Energy Storage Technologies
- Information Communication Technology (ICT)
Market Segmentation by Energy Generation Technology (COVID Impact Analysis)
- Wind Based Energy Generation
- Small Hydro-Plants
- Solar Production
- Combined Heat and Power (CHP)
- Small Power Plants
- Other Energy Generation Technology
Market Segmentation by Information Communication Technology (ICT) (COVID Impact Analysis)
- Energy Management Systems (EMS)
- Supervisory Control and Data Acquisition (SCADA)
- Distribution Management System (DMS)
- Smart Meters
- Other Information Communication Technology (ICT)
Market Segmentation by Energy Storage Technology (COVID Impact Analysis)
- Battery Energy Storage System (BESS)
- Supercapacitor Energy Storage (SCES)
- Super Conductor Magnetic Energy Storage (SMES)
- Hydraulic Pumped Energy Storage (HPES)
- Flywheel Energy Storage (FWES)
- Other Energy Storage Technology
Market Segmentation by End-User (COVID Impact Analysis)
- Industrial VPP
- Commercial VPP
- Residential VPP
- Other End-User
In addition to the revenue predictions for the overall world market and segments, you will also find revenue forecasts for 4 regional and 20 leading national markets:
- North America Virtual Power Plant Market, 2021 to 2031 Market Outlook
- U.S. Virtual Power Plant Market, 2021 to 2031 Market Forecast & COVID Impact Analysis
- Canada Virtual Power Plant Market, 2021 to 2031 Market Forecast & COVID Impact Analysis
- Mexico Virtual Power Plant Market, 2021 to 2031 Market Forecast & COVID Impact Analysis
- Europe Virtual Power Plant Market, 2021 to 2031 Market Outlook
- Germany Virtual Power Plant Market, 2021 to 2031 Market Forecast & COVID Impact Analysis
- Spain Virtual Power Plant Market, 2021 to 2031 Market Forecast & COVID Impact Analysis
- United Kingdom Virtual Power Plant Market, 2021 to 2031 Market Forecast & COVID Impact Analysis
- France Virtual Power Plant Market, 2021 to 2031 Market Forecast & COVID Impact Analysis
- Italy Virtual Power Plant Market, 2021 to 2031 Market Forecast & COVID Impact Analysis
- Rest of Europe Market Forecast & COVID Impact Analysis
- Asia Pacific Virtual Power Plant Market, 2021 to 2031 Market Outlook
- China Virtual Power Plant Market, 2021 to 2031 Market Forecast & COVID Impact Analysis
- Japan Virtual Power Plant Market, 2021 to 2031 Market Forecast & COVID Impact Analysis
- India Virtual Power Plant Market, 2021 to 2031 Market Forecast & COVID Impact Analysis
- Australia & New Zealand Virtual Power Plant Market, 2021 to 2031 Market Forecast & COVID Impact Analysis
- South Korea Virtual Power Plant Market, 2021 to 2031 Market Forecast & COVID Impact Analysis
- Rest of Asia Pacific Market Forecast & COVID Impact Analysis
- LAMEA Virtual Power Plant Market, 2021 to 2031 Market Outlook
- Brazil Virtual Power Plant Market, 2021 to 2031 Market Forecast & COVID Impact Analysis
- Turkey Virtual Power Plant Market, 2021 to 2031 Market Forecast & COVID Impact Analysis
- Saudi Arabia Virtual Power Plant Market, 2021 to 2031 Market Forecast & COVID Impact Analysis
- South Africa Virtual Power Plant Market, 2021 to 2031 Market Forecast & COVID Impact Analysis
- UAE Virtual Power Plant Market, 2021 to 2031 Market Forecast & COVID Impact Analysis
- Rest of Latin America, Middle East and Africa
The report also includes profiles and for some of the leading companies in the Virtual Power Plant Market, 2021 to 2031, with a focus on this segment of these companies' operations.
Leading companies and the potential for market growth:
- China Everbright Greentech Limited
- General Electric Company
- Toshiba Corporation
- Enel S.P.A
- Schneider Electric SE
- ABB Ltd.
- Hitachi, Ltd.
- Siemens AG
- Bosch Ltd.
- Blue Pillar
- International Business Machines Corporation (IBM)
Overall world revenue for Virtual Power Plant Market, 2021 to 2031 Market will surpass US$xx million in 2021, our work calculates. We predict strong revenue growth through to 2031. Our work identifies which organizations hold the greatest potential. Discover their capabilities, progress, and commercial prospects, helping you stay ahead.
How the Virtual Power Plant Market, 2021 to 2031 Market report helps you?
In summary, our 520+ page report provides you with the following knowledge:
- Revenue forecasts to 2031 for Virtual Power Plant Market, 2021 to 2031 Market, with forecasts for components, Energy Generation Technology, Information Communication Technology (ICT), Energy Storage Technology, End-user each forecasted at a global and regional level- discover the industry's prospects, finding the most lucrative places for investments and revenues
- Revenue forecasts to 2031 for 5 regional and 20 key national markets - See forecasts for the Virtual Power Plant Market, 2021 to 2031 market in North America, Europe, Asia-Pacific and LAMEA. Also forecasted is the market in the US, Canada, Mexico, Brazil, Germany, France, UK, Italy, China, India, Japan, and Australia among other prominent economies.
- Prospects for established firms and those seeking to enter the market- including company profiles for 10 of the major companies involved in the Virtual Power Plant Market, 2021 to 2031 Market.
Find quantitative and qualitative analyses with independent predictions. Receive information that only our report contains, staying informed with this invaluable business intelligence.
Information found nowhere else
With our newly report title, you are less likely to fall behind in knowledge or miss out on opportunities. See how our work could benefit your research, analyses, and decisions. Visiongain's study is for everybody needing commercial analyses for the Virtual Power Plant Market, 2021 to 2031 Market and leading companies. You will find data, trends and predictions.
Buy our report today“ Virtual Power Plant (VPP) Market Report 2021-2031: Forecasts by Component (Energy Generation Technology, Energy Storage Technologies, Information Communication Technology (ICT)), by Energy Generation Technology (Wind Based Energy Generation, Small Hydro-Plants, Solar Production, Combined Heat and Power (CHP), Small Power Plants, Other), by Information Communication Technology (ICT) (Energy Management Systems (EMS), Supervisory Control and Data Acquisition (SCADA), Distribution Management System (DMS), Smart Meters, Other), by Energy Storage Technology (Battery Energy Storage System (BESS), Supercapacitor Energy Storage (SCES), Super Conductor Magnetic Energy Storage (SMES), Hydraulic Pumped Energy Storage (HPES), Flywheel Energy Storage (FWES), Other), by End-user (Industrial VPP, Commercial VPP, Residential VPP, Other) AND Regional and Leading National Market Analysis PLUS Analysis of Leading VPP Companies AND COVID-19 Recovery Scenarios. ” Avoid missing out by staying informed - order our report now.
Visiongain is a trading partner with the US Federal Government.
Table of Contents
1. Report Overview
- 1.1 Introduction to Virtual Power Plant Market
- 1.2 Global Virtual Power Plant Market Overview
- 1.3 What are the Objectives of this Report?
- 1.4 What is the Scope of the Report?
- 1.5 Virtual Power Plant Market Definition
- 1.5.1 Centralized Controlled VPP (CCVPP)
- 1.5.2 Decentralized Controlled VPP (DCVPP)
- 1.5.3 Fully Decentralized Controlled VPP (FDCVPP)
- 1.5.4 Technical virtual power plant (TVPP)
- 1.5.5 Commercial Virtual power plant (CVPP)
- 1.5.6 Demand Response
- 1.6 Why You Should Read This Report
- 1.7 What This Report Delivers
- 1.8 Key Questions Answered by This Analytical Report Include:
- 1.9 Who is This Report for?
- 1.10 Research Methodology
- 1.10.1 Primary Research
- 1.10.2 Secondary Research
- 1.10.3 Market Evaluation & Forecasting Methodology
- 1.11 Frequently Asked Questions (FAQs)
- 1.12 Associated Visiongain Reports
- 1.13 About Visiongain
2 Executive Summary
3 Virtual Power Plant Industry Structure
- 3.1 Overview
- 3.1.1 VPP Design
- 3.1.2 Industry Strucutre Concept of VPP
- 3.1.3 Business Models of VPP
- 3.1.4 Decision Area Division and Decision Variable Determination of Virtual Power Plant
- 3.1.5 VPP Software Structure, Timing, And Visualization
4 Global Market Dynamics
- 4.1 Current Trends in the Global Market
- 4.1.1 Adapting to Change in The Energy Market
- 4.1.2 Virtual Power Plants Coming to The Rescue
- 4.1.3 North America, China, Australia And Europe Are the Front Runners in Deployment of VPP
- 4.1.4 Pool Of Companies Providing End-To-End Vpp Solution
- 4.2 Market Driving Factors
- 4.2.1 VPPs Bring Flexibility into Power Markets
- 4.2.2 Interface and Network Connection in A Virtual Power Plant
- 4.2.3 Increase in Energy Trade due to Virtual Power Plant
- 4.2.4 Virtual Power Plant Has Enhanced Network Services
- 4.2.5 How Virtual Power Plant is Providing Power - Without the Plant
- 4.2.6 How Virtual Power Plant is Moving Beyond Traditional Demand Response Programs
- 4.3 Market Restraining Factors
- 4.3.1 Different Working Conditions of Virtual Power Plant (VPP) is Restraining its Growth
- 4.3.2 Frequency Regulation/Secondary Reserves Addressing the Renewable Energy Integration Problem
- 4.3.3 The Price for Electricity Is Not Always the Same
- 4.3.4 Virtual Power Plant Economics and Regulationa are the Main Barriers
- 4.3.5 Unavailability of Infrastructure Supporting VPP
- 4.4 Opportunities in The Global Market
- 4.4.1 How Virtual Power Plant Can Change the Electrical Energy Consumption
- 4.4.2 Is Virtual Power Plant Increasing Renewable Energy Need?
- 4.4.3 Better Environmental Awareness, is it due to Virtual Power Plant?
- 4.4.4 More Complex Market
- 4.4.5 Increasing Interest of Developed Countries In Virtual Power Plant
- 4.4.6 The Change in Electrical Energy Consumption
- 4.5 Challenges in the Global Market
- 4.5.1 High Capital and Operating Costs in Virtual Power Plant are Posing Challegnes
- 4.5.2 Regulatory Framework is Always a Challenge for Key Players
- 4.5.3 Virtual Power Plant Business Challenges
- 4.5.4 Unavailability of Infrastructure Supporting Virtual Power Plant
- 4.5.5 Cyber Security Threat is the Biggest Challenge for Virtual Power Plant
- 4.5.6 Participation of Societies in Electricity Procurement
- 4.6 Swot Analysis for Global Market
- 4.7 Analysis of the Five Forces
- 4.7.1 Bargaining Power of Buyer
- 4.7.2 Bargaining Power of Supplier
- 4.7.3 Threat of New Entrants
- 4.7.4 Threat of Substitutes
- 4.7.5 Competitive Rivalry
5 Global Virtual Power Plant Market Analysis
- 5.1 Global Market Outlook
- 5.2 Global Market Size Estimation and Forecast
- 5.3 Pre-COVID-19 Market Scenario
- 5.3.1 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 5.4 Regional Market Size Estimation and Forecast
- 5.4.1 Pre-COVID-19 Market Scenario
- 5.4.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 5.5 Global Market Size Estimation and Forecast by Component
- 5.5.1 Generation Technology
- 5.5.2 Energy Storage Technologies
- 5.5.3 Information Communication Technology (ICT)
- 5.5.4 Pre-COVID-19 Market Scenario
- 5.5.5 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 5.6 Global Market Size Estimation and Forecast by Energy Generation Technology
- 5.6.1 Solar power technologies
- 5.6.2 Wind power
- 5.6.3 Hydro-electric power
- 5.6.4 Nuclear power
- 5.6.5 Coal-fired power
- 5.6.6 Gas-fired power
- 5.6.7 Oil-fired power
- 5.6.8 Pre-COVID-19 Market Scenario
- 5.6.9 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 5.7 Global Market Size Estimation and Forecast by Information Communication Technology (ICT)
- 5.7.1 Energy Management System
- 5.7.2 Distribution Management System (DMS)
- 5.7.3 Pre-COVID-19 Market Scenario
- 5.7.4 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 5.8 Global Market Size Estimation and Forecast by Energy Storage Technology
- 5.8.1 Pumped-Storage Hydropower
- 5.8.2 Compressed Air Energy Storage (CAES)
- 5.8.3 Thermal (including Molten Salt)
- 5.8.4 Battery Energy Storage System (BESS)
- 5.8.5 Hydraulic Pumped Energy Storage (HPES)
- 5.8.6 Flywheel Energy Storage (FWES)
- 5.8.7 Pre-COVID-19 Market Scenario
- 5.8.8 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 5.9 Global Market Size Estimation and Forecast by End-User
- 5.9.1 Residential VPP
- 5.9.2 Pre-COVID-19 Market Scenario
- 5.9.3 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
6 North America Virtual Power Plant Market Analysis
- 6.1 North America Market Outlook
- 6.2 North America Market Size Estimation and Forecast
- 6.3 Pre-COVID-19 Market Scenario
- 6.3.1 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 6.4 Country Market Size Estimation and Forecast
- 6.4.1 Pre-COVID-19 Market Scenario
- 6.4.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 6.5 North America Market Size Estimation and Forecast by Component
- 6.5.1 Pre-COVID-19 Market Scenario
- 6.5.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 6.6 North America Market Size Estimation and Forecast by Energy Generation Technology
- 6.6.1 Pre-COVID-19 Market Scenario
- 6.6.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 6.7 North America Market Size Estimation and Forecast by Information Communication Technology (ICT)
- 6.7.1 Pre-COVID-19 Market Scenario
- 6.7.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 6.8 North America Market Size Estimation and Forecast by Energy Storage Technology
- 6.8.1 Pre-COVID-19 Market Scenario
- 6.8.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 6.9 North America Market Size Estimation and Forecast by End-User
- 6.9.1 Pre-COVID-19 Market Scenario
- 6.9.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 6.10 US Virtual Power Plant Market Analysis
- 6.10.1 Pre-COVID-19 Market Scenario
- 6.10.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 6.11 Canada Virtual Power Plant Market Analysis
- 6.11.1 Pre-COVID-19 Market Scenario
- 6.11.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 6.12 Mexico Virtual Power Plant Market Analysis
- 6.12.1 Pre-COVID-19 Market Scenario
- 6.12.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
7 Europe Virtual Power Plant Market Analysis
- 7.1 Europe Market Outlook
- 7.2 Europe Market Size Estimation and Forecast
- 7.3 Pre-COVID-19 Market Scenario
- 7.3.1 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 7.4 Country Market Size Estimation and Forecast
- 7.4.1 Pre-COVID-19 Market Scenario
- 7.4.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 7.5 Europe Market Size Estimation and Forecast by Component
- 7.5.1 Pre-COVID-19 Market Scenario
- 7.5.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 7.6 Europe Market Size Estimation and Forecast by Energy Generation Technology
- 7.6.1 Pre-COVID-19 Market Scenario
- 7.6.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 7.7 Europe Market Size Estimation and Forecast by Information Communication Technology (ICT)
- 7.7.1 Pre-COVID-19 Market Scenario
- 7.7.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 7.8 Europe Market Size Estimation and Forecast by Energy Storage Technology
- 7.8.1 Pre-COVID-19 Market Scenario
- 7.8.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 7.9 Europe Market Size Estimation and Forecast by End-User
- 7.9.1 Pre-COVID-19 Market Scenario
- 7.9.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 7.10 Germany Virtual Power Plant Market Analysis
- 7.10.1 Pre-COVID-19 Market Scenario
- 7.10.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 7.11 UK Virtual Power Plant Market Analysis
- 7.11.1 Pre-COVID-19 Market Scenario
- 7.11.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 7.12 France Virtual Power Plant Market Analysis
- 7.12.1 Pre-COVID-19 Market Scenario
- 7.12.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 7.13 Italy Virtual Power Plant Market Analysis
- 7.13.1 Pre-COVID-19 Market Scenario
- 7.13.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 7.14 Spain Virtual Power Plant Market Analysis
- 7.14.1 Pre-COVID-19 Market Scenario
- 7.14.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 7.15 Rest of Europe Virtual Power Plant Market Analysis
- 7.15.1 Pre-COVID-19 Market Scenario
- 7.15.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
8 Asia-Pacific Virtual Power Plant Market Analysis
- 8.1 Asia-Pacific Market Outlook
- 8.2 Asia-Pacific Market Size Estimation and Forecast
- 8.3 Pre-COVID-19 Market Scenario
- 8.3.1 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 8.4 Country Market Size Estimation and Forecast
- 8.4.1 Pre-COVID-19 Market Scenario
- 8.4.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 8.5 Asia-Pacific Market Size Estimation and Forecast by Component
- 8.5.1 Pre-COVID-19 Market Scenario
- 8.5.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 8.6 Asia-Pacific Market Size Estimation and Forecast by Energy Generation Technology
- 8.6.1 Pre-COVID-19 Market Scenario
- 8.6.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 8.7 Asia-Pacific Market Size Estimation and Forecast by Information Communication Technology (ICT)
- 8.7.1 Pre-COVID-19 Market Scenario
- 8.7.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 8.8 Asia-Pacific Market Size Estimation and Forecast by Energy Storage Technology
- 8.8.1 Pre-COVID-19 Market Scenario
- 8.8.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 8.9 Asia-Pacific Market Size Estimation and Forecast by End-User
- 8.9.1 Pre-COVID-19 Market Scenario
- 8.9.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 8.10 China Virtual Power Plant Market Analysis
- 8.10.1 Pre-COVID-19 Market Scenario
- 8.10.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 8.11 India Virtual Power Plant Market Analysis
- 8.11.1 Pre-COVID-19 Market Scenario
- 8.11.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 8.12 Japan Virtual Power Plant Market Analysis
- 8.12.1 Pre-COVID-19 Market Scenario
- 8.12.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 8.13 South Korea Virtual Power Plant Market Analysis
- 8.13.1 Pre-COVID-19 Market Scenario
- 8.13.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 8.14 Australia Virtual Power Plant Market Analysis
- 8.14.1 Pre-COVID-19 Market Scenario
- 8.14.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 8.15 Rest of Asia-Pacific Virtual Power Plant Market Analysis
- 8.15.1 Pre-COVID-19 Market Scenario
- 8.15.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
9 LAMEA Virtual Power Plant Market Analysis
- 9.1 LAMEA Market Outlook
- 9.2 LAMEA Market Size Estimation and Forecast
- 9.3 Pre-COVID-19 Market Scenario
- 9.3.1 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 9.4 Country Market Size Estimation and Forecast
- 9.4.1 Pre-COVID-19 Market Scenario
- 9.4.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 9.5 LAMEA Market Size Estimation and Forecast by Component
- 9.5.1 Pre-COVID-19 Market Scenario
- 9.5.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 9.6 LAMEA Market Size Estimation and Forecast by Energy Generation Technology
- 9.6.1 Pre-COVID-19 Market Scenario
- 9.6.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 9.7 LAMEA Market Size Estimation and Forecast by Information Communication Technology (ICT)
- 9.7.1 Pre-COVID-19 Market Scenario
- 9.7.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 9.8 LAMEA Market Size Estimation and Forecast by Energy Storage Technology
- 9.8.1 Pre-COVID-19 Market Scenario
- 9.8.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 9.9 LAMEA Market Size Estimation and Forecast by End-User
- 9.9.1 Pre-COVID-19 Market Scenario
- 9.9.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 9.10 Brazil Virtual Power Plant Market Analysis
- 9.10.1 Pre-COVID-19 Market Scenario
- 9.10.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 9.11 South Africa Virtual Power Plant Market Analysis
- 9.11.1 Pre-COVID-19 Market Scenario
- 9.11.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 9.12 Saudi Arabia Virtual Power Plant Market Analysis
- 9.12.1 Pre-COVID-19 Market Scenario
- 9.12.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 9.13 Turkey Virtual Power Plant Market Analysis
- 9.13.1 Pre-COVID-19 Market Scenario
- 9.13.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 9.14 UAE Virtual Power Plant Market Analysis
- 9.14.1 Pre-COVID-19 Market Scenario
- 9.14.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
- 9.15 Rest of LAMEA Virtual Power Plant Market Analysis
- 9.15.1 Pre-COVID-19 Market Scenario
- 9.15.2 Post-COVID-19 Market Scenarios (V, W, U, L-Shaped Recovery Analysis)
10 Leading Company Profiles
- 10.1 General Electric Company
- 10.1.1 Company Snapshot
- 10.1.2 Company Overview
- 10.1.3 Company Financial Profile
- 10.1.4 Company Product Benchmarking
- 10.1.5 Company Recent Developments
- 10.2 Toshiba Corporation
- 10.2.1 Company Snapshot
- 10.2.2 Company Overview
- 10.2.3 Company Financial Profile
- 10.2.4 Company Product Benchmarking
- 10.2.5 Company Recent Developments
- 10.3 Enel S.P.A
- 10.3.1 Company Snapshot
- 10.3.2 Company Overview
- 10.3.3 Company Financial Profile
- 10.3.4 Company Product Benchmarking
- 10.3.5 Company Recent Developments
- 10.4 Schneider Electric SE
- 10.4.1 Company Snapshot
- 10.4.2 Company Overview
- 10.4.3 Company Financial Profile
- 10.4.4 Company Product Benchmarking
- 10.4.5 Company Recent Developments
- 10.5 ABB Ltd.
- 10.5.1 Company Snapshot
- 10.5.2 Company Overview
- 10.5.3 Company Financial Profile
- 10.5.4 Company Product Benchmarking
- 10.5.5 Company Recent Developments
- 10.6 Hitachi, Ltd.
- 10.6.1 Company Snapshot
- 10.6.2 Company Overview
- 10.6.3 Company Financial Profile
- 10.6.4 Company Product Benchmarking
- 10.6.5 Company Recent Developments
- 10.7 Siemens AG
- 10.7.1 Company Snapshot
- 10.7.2 Company Overview
- 10.7.3 Company Financial Profile
- 10.7.4 Company Product Benchmarking
- 10.7.5 Company Recent Developments
- 10.8 Robert Bosch GmbH
- 10.8.1 Company Snapshot
- 10.8.2 Company Overview
- 10.8.3 Company Financial Profile
- 10.8.4 Company Product Benchmarking
- 10.8.5 Company Recent Developments
- 10.9 Blue Pillar
- 10.9.1 Company Snapshot
- 10.9.2 Company Overview
- 10.9.3 Company Financial Profile
- 10.9.4 Company Product Benchmarking
- 10.9.5 Company Recent Developments
- 10.10 International Business Machines Corporation
- 10.10.1 Company Snapshot
- 10.10.2 Company Overview
- 10.10.3 Company Financial Profile
- 10.10.4 Company Product Benchmarking
- 10.10.5 Company Recent Developments
11 Conclusion and Recommendations
- 11.1 Recommendation for Virtual Power Plant
- 11.1.1 Ubiquitous Distributed Energy Resources
- 11.1.2 Balancing reserve delivered by Virtual Power Plants
- 11.1.3 The hope for Smart Meters on the horizon
- 11.1.4 Digitalization of the energy sector by Virtual Power Plants
12 Glossary Terms