Table of Content
Executive Summary
1 Blockchain in Energy Market
1.1 Introduction
1.2 Types of Consensus Protocols
1.2.1 Proof of Work (PoW)
1.2.2 Proof of Stake (PoS)
1.2.3 Proof of Authority (PoA)
1.3 Blockchain Structure
1.3.1 Foundational Elements of Blockchain
1.3.2 Types of Blockchain
1.3.2.1 Public Blockchain
1.3.2.2 Private Blockchain
1.3.2.3 Hybrid Blockchain
1.4 Overview - Blockchain in Energy Industry
2 Market Dynamics
2.1 Market Drivers
2.1.1 Increasing Demand for Decentralized Power Generation
2.1.2 Increasing Demand for Renewable Sources of Energy
2.1.3 Favorable Government Initiatives
2.2 Market Restraints
2.2.1 High Initial Investment
2.2.2 Privacy and Security Risk
2.3 Market Opportunities
2.3.1 Integration of Virtual Power Plant in Blockchain
2.3.2 Emerging Market of Electric Vehicles
2.3.3 Increasing Necessity for Oil and Gas Sector
3 Competitive Landscape
3.1 Key Market Developments and Strategies
3.1.1 Project Launches
3.1.2 Partnerships, Collaborations, and Joint Venture
3.1.3 Platform Launches
3.1.4 Others (Investments)
3.2 Competitive Positioning of Key Players in Blockchain in Energy Market
4 Industry Analysis
4.1 Role of Internet of Things in Blockchain in Energy Market
4.2 Stakeholder Analysis
4.3 Consortiums and Associations
4.3.1 Ethereum Enterprise Alliance
4.3.2 Hyperledger Project
4.3.3 Trusted IoT Alliance
4.4 Regulatory Landscape in the Blockchain Ecosystem
4.4.1 North America
4.4.1.1 U.S.
4.4.1.2 Canada
4.4.2 Europe
4.4.2.1 Germany
4.4.2.2 Netherlands
4.4.2.3 U.K.
4.4.2.4 Estonia
4.4.2.5 Italy
4.4.2.6 Switzerland
4.4.3 Asia-Pacific
4.4.3.1 Japan
4.4.3.2 Singapore
4.4.3.3 Australia
4.4.4 Rest-of-the-World
4.4.4.1 South Africa
4.4.4.2 Brazil
4.4.4.3 UAE
4.5 Investment and Funding Landscape
5 Global Blockchain in Energy Market (by Type)
5.1 Market Assumptions
5.2 Market Limitations
5.3 Market Overview
5.4 Public
5.4.1 Factors Limiting the Growth of Public Blockchains
5.4.1.1 Transactions are Expensive to Process on Public Blockchains
5.4.1.2 Public Blockchains have High Energy Bills
5.4.1.3 Public Blockchains have Privacy Risks
5.4.2 Benefits of Using a Public Blockchain
5.4.2.1 Public Blockchains Provide Interoperability
5.4.2.2 Public Blockchain Offer Compatible Resources
5.4.2.3 Public Blockchain Allow User Independence
5.5 Private
5.5.1 Benefits of Using a Private Blockchain
5.5.1.1 Permissions can be Assigned
5.5.1.2 Better Scalability
5.5.1.3 Low Response Time on Transactions
5.5.1.4 Compliance Support and Management
6 Global Blockchain in Energy Market, (by Component)
6.1 Market Overview
6.2 Platform
6.3 Hardware and Ancillary Services
7 Global Blockchain in Energy Market, (by End User)
7.1 Market Overview
7.2 Power
7.2.1 Power Generation
7.2.2 Power Transmission
7.2.3 Power Distribution
7.2.4 Retail
7.3 Oil & Gas
7.3.1 Upstream
7.3.1.1 Identity & Certification on the Blockchain
7.3.1.2 Field Capture Errors & Data Sanitation
7.3.1.3 Financial Reconciliation
7.3.1.4 Performance-Based Contracts (PBCs)
7.3.2 Midstream
7.3.2.1 Product Tracking
7.3.2.2 Industrial Infrastructure Maintenance
7.3.3 Downstream
7.3.3.1 Reconciliation for Downstream
7.3.3.2 Automated Payments & Credits
8 Global Blockchain in Energy Market (by Applications)
8.1 Market Overview
8.2 Power Applications
8.2.1 Peer-to-Peer Power Trade
8.2.2 Grid Management & System Operation
8.2.3 Financing Renewable Energy Development
8.2.4 Electric Mobility
8.2.5 Management of Renewable Energy Certificates (RECs)
8.2.6 Others
8.3 Oil & Gas Applications
8.3.1 Ticketing Solutions
8.3.2 Commodity Trading
8.3.3 Others
9 Global Blockchain in Energy Market (by Region)
9.1 North America
9.1.1 North America (by Applications)
9.1.1.1 North America (by Power Applications)
9.1.1.2 North America (by Oil & Gas Applications)
9.1.2 North America (by Country)
9.1.2.1 U.S.
9.1.2.2 Rest-of-North America
9.2 Europe
9.2.1 Europe (by Application)
9.2.1.1 Europe (by Power Application)
9.2.1.2 Europe (by Oil & Gas Applications)
9.2.2 Europe (by Country)
9.2.2.1 Germany
9.2.2.2 The Netherlands
9.2.2.3 Estonia
9.2.2.4 U.K.
9.2.2.5 Italy
9.2.2.6 Rest-of-Europe
9.3 Asia-Pacific
9.3.1 Asia-Pacific (by Application)
9.3.1.1 Asia-Pacific (by Power Application)
9.3.1.2 Asia-Pacific (by Oil & Gas Application)
9.3.2 Asia-Pacific (by Country)
9.3.2.1 Australia
9.3.2.2 Japan
9.3.2.3 Singapore
9.3.2.4 Rest-of-Asia-Pacific
9.4 Rest-of-the-World (RoW)
9.4.1 RoW (by Application)
10 Company Profiles
10.1 BP p.l.c.
10.1.1 Company Overview
10.1.2 Role of BP p.l.c. in Blockchain in Energy Market
10.1.3 Financials
10.1.4 Key Insights about the Financial Health of the company
10.1.5 SWOT ANALYSIS
10.2 E.ON SE
10.2.1 Company Overview
10.2.2 Role of E.ON SE in Blockchain in Energy Market
10.2.3 Financials
10.2.4 Key Insights about the Financial Health of the company
10.2.5 SWOT ANALYSIS
10.3 Electron
10.3.1 Company Overview
10.3.2 Role of Electron in Blockchain in Energy Market
10.3.3 SWOT Analysis
10.4 Energy Web Foundation
10.4.1 Company Overview
10.4.2 Role of Energy Web Foundation in Blockchain in Energy Market
10.4.3 SWOT Analysis
10.5 Grid Plus, Inc.
10.5.1 Company Overview
10.5.2 Role of Grid Plus, Inc. in Blockchain in Energy Market
10.5.3 SWOT Analysis
10.6 IBM CORPORATION
10.6.1 Company Overview
10.6.2 Role of IBM Corporation in Blockchain in Energy Market
10.6.3 Financials
10.6.4 Key Insights about the Financial Health of the company
10.6.5 SWOT ANALYSIS
10.7 LO3 Energy, Inc.
10.7.1 Company Overview
10.7.2 Role of LO3 Energy, Inc in Blockchain in Energy Market
10.7.3 SWOT Analysis
10.8 MICROSOFT CORPORATION
10.8.1 Company Overview
10.8.2 Role of Microsoft Corporation in Blockchain in Energy Market
10.8.3 Financials
10.8.4 Key Insights about the Financial Health of the company
10.8.5 SWOT ANALYSIS
10.9 Ondiflo
10.9.1 Company Overview
10.9.2 Role of Ondiflo in Blockchain in Energy Market
10.9.3 SWOT Analysis
10.10 ORACLE CORPORATION
10.10.1 Company Overview
10.10.2 Role of Oracle Corporation in Blockchain in Energy Market
10.10.3 Financials
10.10.4 Key Insights about the Financial Health of the company
10.10.5 SWOT ANALYSIS
10.11 Power Ledger
10.11.1 Company Overview
10.11.2 Role of Power Ledger in Blockchain in Energy Market
10.11.3 SWOT Analysis
10.12 SP GROUP
10.12.1 Company Overview
10.12.2 Role of SP Group in Blockchain in Energy Market
10.12.3 Financials
10.12.4 SWOT ANALYSIS
10.13 TenneT Holding B.V.
10.13.1 Company Overview
10.13.2 Role of TenneT Holdings B.V. in Blockchain in Energy Market
10.13.3 Financials
10.13.4 SWOT Analysis
10.14 TOKYO ELECTRIC POWER COMPANY HOLDINGS
10.14.1 Company Overview
10.14.2 Role of Tokyo Electric Power Company Holdings in Blockchain in Energy Market
10.14.3 Financials
10.14.4 Key Insights about the Financial Health of the company
10.14.5 SWOT ANALYSIS
10.15 VAKT Global Ltd.
10.15.1 Company Overview
10.15.2 Role of VAKT Global Ltd. in Blockchain in Energy Market
10.15.3 SWOT Analysis
11 Report Scope and Methodology
11.1 Report Scope
11.2 Blockchain in Energy Market Research Methodology
11.2.1 Assumptions
11.2.2 Limitations
11.2.3 Primary Data Sources
11.2.4 Secondary Data Sources
11.2.5 Data Triangulation
11.2.6 Market Estimation and Forecast
List of Tables
Table 2.1: Impact Analysis of Drivers
Table 2.2: Levelized Cost of Electricity (LCOE) for Distributed Energy Sources
Table 2.3: Initiatives by Utilities of Various Countries to Promote Blockchain in Energy
Table 2.4: Impact Analysis of Restraints
Table 2.5: Initiatives for the Integration of Blockchain in Oil and Gas Sector
Table 4.1: Overview of Stakeholder Analysis
Table 4.2: Key Investments and Funding in Blockchain in Energy Market
Table 5.1: Global Blockchain in Energy Market (by Type), $Million, 2018-2024
Table 6.1: Global Blockchain in Energy Market (by Component), $Million, 2018-2024
Table 6.2: Major Blockchain in Energy Platform projects
Table 6.3: Blockchain in Energy Hardware and Services
Table 7.1: Global Blockchain in Energy Market (by End User), $Million, 2018-2024
Table 8.1: Global Blockchain in Energy Market (by Applications), $Million, 2018-2024
Table 8.2: Global Blockchain in Energy Market (by Power Applications), $Million, 2018-2024
Table 8.3: Peer-to-Peer Power Trade Projects, 2016-2019
Table 8.4: Grid Management & System Operation projects
Table 8.5: Renewable Energy Certificate Projects
Table 8.6: Electric Mobility Projects
Table 8.7: Global Blockchain in Energy Market (by Oil & Gas Applications), $Million, 2018-2024
Table 9.1: Global Blockchain in Energy Market (by Region), 2018-2024, $Million
Table 9.2: North America in Blockchain in Energy (by Power Applications), 2018-2024, $Million
Table 9.3: North America in Blockchain in Energy (by Oil & Gas Applications), 2018-2024, $Million
Table 9.4: North America in Blockchain in Energy Market (by Country), 2018-2024, $Million
Table 9.5: Key Projects in the U.S. in the Blockchain in Energy Market, 2016- 2019
Table 9.6: Europe in Blockchain in Energy (by Power Application), 2018-2024, $Million
Table 9.7: Europe in Blockchain in Energy (by Oil & Gas Applications), 2018-2024, $Million
Table 9.8: Europe Blockchain in Energy Market (by Country), 2018-2024, $Million
Table 9.9: Key Projects in Italy in the Blockchain in Energy
Table 9.10: Key Projects in Rest-of-Europe in the Blockchain in Energy Market
Table 9.11: Asia-Pacific Blockchain in Energy Market (by Power Application), 2018-2024, $Million
Table 9.12: Asia-Pacific in Blockchain in Energy (by Oil & Gas Application), 2018-2024, $Thousand
Table 9.13: Asia-Pacific Blockchain in Energy Market (by Country), 2018-2024, $Million
Table 9.14: Australia Government Initiatives for Energy Conservation
Table 9.15: Australia Blockchain in Energy Projects
Table 9.16: Japan Blockchain in Energy Projects
Table 9.17: Rest–of-Asia-Pacific Blockchain in Energy Projects
Table 9.18: RoW Blockchain in Energy Market (by Power Application), 2018-2024, $Million
Table 9.19: RoW in Blockchain in Energy (by Oil & Gas Applications), 2018-2024, $Million
Table 10.1: E.ON SE: Initiatives in Blockchain in Energy
Table 10.2: Electron: Project Portfolio
Table 10.3: Energy Web Foundation: Blockchain-based Solutions Portfolio
Table 10.4: Grid Plus, Inc.: Project Portfolio
Table 10.5: IBM Corporation: Product Portfolio
Table 10.6: LO3 Energy, Inc: Project Portfolio
Table 10.7: Microsoft Corporation: Product Portfolio
Table 10.8: Ondiflo: Use Cases
Table 10.9: Oracle Corporation: Product Portfolio
Table 10.10: Power Ledger: Project Portfolio
Table 10.11: SP Group: Initiatives in Energy Blockchain
Table 10.12: Tokyo Electric Power Company Holdings: Projects and Investments in Blockchain
List of Figures
Figure 1: Factors Affecting the Global Blockchain in Energy Market
Figure 2: Global Blockchain in Energy Market Snapshot
Figure 3: Global Blockchain in Energy Market (by Blockchain Type), 2019-2024, ($Million)
Figure 4: Global Blockchain in Energy Market (by End User), 2019 and 2024
Figure 5: Regional Blockchain in Energy Market Snapshot
Figure 1.1: The Blockchain Structure
Figure 1.2: Public Blockchain
Figure 1.3: Private Blockchain
Figure 2.1: Market Dynamics
Figure 2.2: Advantages of Using Blockchain in Virtual Power Plant
Figure 3.1: Strategies Adopted by the Key Players (October 2016-October 2019)
Figure 3.2: Share of Key Market Strategies and Developments (October 2016-October 2019)
Figure 3.3: Project Launches and Developments Share (by Company)
Figure 3.4: Partnerships, Collaborations, and Joint Ventures Share (by Company)
Figure 3.5: Platform Launches Share (by Company)
Figure 3.6: Competitive Positioning of Market Players in Blockchain in Energy Market
Figure 4.1: Blockchain - a Part of the Internet of Energy Ecosystem
Figure 4.2: Stakeholders of Blockchain in Energy Market
Figure 4.3: Some Key Members of Ethereum Enterprise Alliance
Figure 4.4: Some Key Members of Hyperledger Project
Figure 4.5: Some Key Members of Trusted IoT Alliance
Figure 4.6: Effects of Regulations on the Blockchain Market
Figure 4.7: Regulatory Landscape in North America
Figure 4.8: Regulatory Landscape in Europe
Figure 4.9: Regulatory Landscape in Asia-Pacific
Figure 4.10: Regulatory Landscape in Rest-of-the-World
Figure 4.11: Investments in Blockchain in Energy (2016-2018)
Figure 5.1: Types of Blockchains and Their Use Cases
Figure 5.2: Blockchain vs Traditional Computing Networks
Figure 5.3: Global Blockchain in Energy Market for Public Blockchain Type, 2018-2024
Figure 5.4: Global Blockchain in Energy Market for Private Blockchain Type, 2018-2024
Figure 6.1: Blockchain Ecosystem with its Components
Figure 6.2: Blockchain Platform Architecture
Figure 6.3: Global Blockchain in Energy Market for Platform, 2018-2024
Figure 6.4: Usage of Mobile Application for Carbon Credit Trading
Figure 6.5: Global Blockchain in Energy Market – Hardware & Ancillary Services, 2018-2024
Figure 7.1: Major End Users for Blockchain in Energy
Figure 7.2: Blockchain Use Cases and Applications Across the Power Supply Chain
Figure 7.3: Global Blockchain in Energy Market for Power Sector, 2018-2024
Figure 7.4: Blockchain Use Cases for Oil & Gas Sector
Figure 7.5: Global Blockchain in Energy Market for Oil & Gas, 2018-2024
Figure 8.1: Major Applications of Blockchain in Energy
Figure 8.2: Blockchain-Enabled Power Trading
Figure 8.3: Power Applications Based Blockchain in Energy Market, 2018-2024
Figure 8.4: Renewable Energy Share of Total Power Generation (2008-2018)
Figure 8.5: Peer-to-Peer Power Trade-Based Blockchain in Energy Market, 2018-2024
Figure 8.6: Global Energy Storage Deployments (2013-2018)
Figure 8.7: Grid Management & System Operation–Based Blockchain in Energy Market, 2018-2024
Figure 8.8: Investments in Renewable Energy for Some Major Countries in 2018
Figure 8.9: Financing Renewable Energy Development–Based Blockchain in Energy Market, 2018-2024
Figure 8.10: EV Charging Based on a Blockchain Platform
Figure 8.11: Electric Mobility– Based Blockchain in Energy Market, 2018-2024
Figure 8.12: Renewable Energy Certificate Management Mechanism
Figure 8.13: Management of Renewable Energy Certificates – Based Blockchain in Energy Market, 2018-2024
Figure 8.14: Comparison of African Countries Having Least Percentage of Population with Access to Electricity and Their GDPs (2017)
Figure 8.15: Others–Based Blockchain in Energy Market, 2018-2024
Figure 8.16: The Internet of Energy Applications for Oil & Gas Sector
Figure 8.17: Oil & Gas Applications Based Blockchain in Energy Market, 2018-2024
Figure 8.18: Blockchain-Based Ticketing Solutions Mechanism for Oil & Gas
Figure 8.19: Ticekting Solutions – Based Blockchain in Energy Market, 2018-2024
Figure 8.20: Blockchain-Based Commodity Trading Cycle for Oil & Gas
Figure 8.21: Commodity Trading – Based Blockchain in Energy Market, 2018-2024
Figure 8.22: Other Applications Based Blockchain in Energy Market, 2018-2024
Figure 9.1: Global Blockchain in Energy Regional Market Snapshot
Figure 9.2: North America Blockchain in Energy Market, 2018-2024, $Million
Figure 9.3: U.S. Electricity Generation (by Sector) in 2018
Figure 9.4: U.S. Blockchain in Energy Market, 2018-2024, $Million
Figure 9.5: Energy Mix of Canada, 2018
Figure 9.6: Rest-of-North America Blockchain in Energy Market, 2018-2024, $Million
Figure 9.7: Europe Blockchain in Energy Market, 2018-2024, $Million
Figure 9.8: Germany Photo Voltaics Installations in GW from 2003 to 2015
Figure 9.9: Germany Blockchain in Energy Market, 2018-2024, $Million
Figure 9.10: Netherlands Blockchain in Energy Market, 2018-2024, $Million
Figure 9.11: Estonia Blockchain in Energy Market, 2018-2024, $Million
Figure 9.12: U.K. Blockchain in Energy Market, 2018-2024, $Million
Figure 9.13: Italy Blockchain in Energy Market, 2018-2024, $Million
Figure 9.14: Rest–of-Europe in Blockchain in Energy Market, 2018-2024, $Million
Figure 9.15: Asia-Pacific Blockchain in Energy Market, 2018-2024, $Million
Figure 9.16: Australia Blockchain in Energy Market, 2018-2024, $Million
Figure 9.17: Japan Blockchain in Energy Market, 2018-2024, $Million
Figure 9.18: Singapore PV Installations in GW from 2003 to 2015
Figure 9.19: Singapore Blockchain in Energy Market, 2018-2024, $Million
Figure 9.20: Rest–of-Asia-Pacific Blockchain in Energy Market, 2018-2024, $Million
Figure 9.21: RoW Blockchain in Energy Market, 2018-2024, $Million
Figure 10.1: Blockchain Key Players in the energy sector
Figure 10.2: BP p.l.c.: Overall Financials, 2016-2018
Figure 10.3: BP p.l.c.: Net Revenue by Business Segment, 2017-2018
Figure 10.4: Research and Development: BP p.l.c.– 2016 to 2018
Figure 10.5: BP p.l.c.: SWOT Analysis
Figure 10.6: E.ON SE: Overall Financials, 2016-2018
Figure 10.7: E.ON SE: Net Revenue by Business Segment, 2017-2018
Figure 10.8: E.ON SE: Net Revenue by Regional Segment, 2016-2018
Figure 10.9: Research and Development: E.ON SE – 2016 to 2018
Figure 10.10: E.ON SE: SWOT Analysis
Figure 10.11: Electron: SWOT Analysis
Figure 10.12: Energy Web Foundation: SWOT Analysis
Figure 10.13: Power Ledger: SWOT Analysis
Figure 10.14: IBM Corporation: Overall Financials, 2016-2018
Figure 10.15: IBM Corporation: Net Revenue by Business Segment, 2016-2018
Figure 10.16: IBM Corporation: Net Revenue by Regional Segment, 2017 2018
Figure 10.17: Research and Development: IBM Corporation – 2016 to 2018
Figure 10.18: IBM Corporation: SWOT Analysis
Figure 10.19: LO3 Energy, Inc: SWOT Analysis
Figure 10.20: Microsoft Corporation: Overall Financials, 2016-2018
Figure 10.21: Microsoft Corporation: Net Revenue by Business Segment, 2017-2018
Figure 10.22: Microsoft Corporation: Net Revenue by Regional Segment, 2017-2018
Figure 10.23: Research and Development: Microsoft Corporation – 2016 to 2018
Figure 10.24: Microsoft Corporation: SWOT Analysis
Figure 10.25: Ondiflo: SWOT Analysis
Figure 10.26: Oracle Corporation: Overall Financials, 2016-2018
Figure 10.27: Oracle Corporation: Net Revenue by Business Segment, 2017-2018
Figure 10.28: Oracle Corporation: Net Revenue by Regional Segment, 2017-2018
Figure 10.29: Research and Development: Oracle Corporation – 2016 to 2018
Figure 10.30: Oracle Corporation: SWOT Analysis
Figure 10.31: Power Ledger: SWOT Analysis
Figure 10.32: SP Group: Overall Financials, 2016-2018
Figure 10.33: SP Group: Net Revenue by Business Segment, 2017-2018
Figure 10.34: SP Group: SWOT Analysis
Figure 10.35: TenneT Holdings B.V.: Overall Financials, 2016-2018
Figure 10.36: TenneT Holdings B.V.: Net Revenue by Business Segment, 2017-2018
Figure 10.37: TenneT Holdings B.V.: SWOT Analysis
Figure 10.38: Tokyo Electric Power Company Holdings: Overall Financials, 2016-2018
Figure 10.39: Tokyo Electric Power Company Holdings: Net Revenue by Business Segment, 2017-2018
Figure 10.40: Research and Development: Tokyo Electric Power Company Holdings – 2016 to 2018
Figure 10.41: Tokyo Electric Power Company Holdings: SWOT Analysis
Figure 10.42: VAKT Global Ltd.: SWOT Analysis
Figure 11.1: Blockchain in Energy Market Scope
Figure 11.2: Report Methodology
Figure 11.3: Primary Interviews Breakdown, by Company, Designation and Region
Figure 11.4: Sources of Secondary Research
Figure 11.5: Data Triangulation
Figure 11.6: Top-Down Bottom-Up Approach for Market Estimation
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