Applications in the power sector have been a major source of revenue for blockchain in energy stakeholders. According to International Renewable Energy Agency, majority of the projects are being implemented in blockchain for energy are being done for peer-to-peer trading. Most countries today are trying to maximize energy generation, and with the electricity consumers are becoming producers, also known as prosumers, the trading of energy is the major application area for blockchain in power sector.

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Key Questions Answered in the Report
ƒƒ What is the global blockchain in energy market size in terms of
revenue from 2018-2024, and what is the expected growth rate
during the forecast period 2019-2024?
ƒƒ What is the revenue generated by different types of blockchains
such as public and private at a global and regional level?
ƒƒ What is the revenue generated by blockchain based on differ-
ent components such as platforms & software and hardware &
services at a global and regional level?
ƒƒ What is the revenue generated by blockchain based on different
end-users such as power and oil & gas at a global and regional
level?
ƒƒ What is the revenue generated by blockchain based on different
applications for power and oil & gas at a global and regional
level?
ƒƒ What is the market size and what are the various market oppor-
tunities of blockchain in energy across different regions?
ƒƒ What are the major driving forces that are expected to increase
the demand for the blockchain in energy market during the fore-
cast period?
ƒƒ What are the major challenges inhibiting the growth of the glob-
al blockchain in energy market?
ƒƒ Who are the major stakeholders in terms of their contribution
and impact in the blockchain in energy ecosystem?
ƒƒ What kind of new strategies are adopted by the existing market
players to expand their market position in the industry?
ƒƒ What is the regulatory landscape in different regions for block-
chain in energy?
MORE THAN
70 COMPANIES
RESEARCHED
ACROSS THE VALUE
CHAIN
METICULOUS
COMPILATION OF
MORE THAN 700
RESEARCH HOURS
EXCLUSIVE INSIGHTS
FROM IN-DEPTH
EXPERT INTERVIEWS
CONTAINS 50
MARKET DATA TABLES
AND 132 FIGURES
SPREAD ACROSS
219 PAGES
Global Blockchain in Energy Market
Focus on Type (Public, Private), Components (Platform, Hardware),
End Users (Power, Oil & Gas), Applications, Region, Stakeholder
Analysis, and Regulatory Landscape –Analysis and Forecast 2019-2024

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Table of Contents
SCOPE & RESEARCH
METHODOLOGY
ƒƒ Report Scope
ƒƒ Blockchain in Energy
Market Research
Methodology
COMPANY PROFILES
ƒƒ BP p.l.c.
ƒƒ E.ON SE
ƒƒ Electron
ƒƒ Energy Web Foundation
ƒƒ Grid Plus, Inc.
ƒƒ IBM CORPORATION
ƒƒ LO3 Energy, Inc.
ƒƒ MICROSOFT
CORPORATION
ƒƒ Ondiflo
ƒƒ ORACLE
CORPORATION
ƒƒ Power Ledger
ƒƒ SP GROUP
ƒƒ TenneT Holding B.V.
ƒƒ TOKYO ELECTRIC
POWER COMPANY
HOLDINGS
ƒƒ VAKT Global Ltd.
VIEW COMPLETE TABLE OF CONTENT
ƒƒ Market Drivers
ƒƒ Market Restraints
ƒƒ Market Opportunities
ƒƒ Introduction
ƒƒ Types of Consensus Protocols
ƒƒ Blockchain Structure
ƒƒ Overview - Blockchain in Energy
Industry
ƒƒ Key Market Developments and
Strategies
ƒƒ Competitive Positioning of Key Players
in Blockchain in Energy Market
ƒƒ Role of Internet of Things in Blockchain
in Energy Market
ƒƒ Stakeholder Analysis
ƒƒ Consortiums and Associations
ƒƒ Regulatory Landscape in the
Blockchain Ecosystem
ƒƒ Investment and Funding Landscape
ƒƒ North America
ƒƒ Europe
ƒƒ Asia-Pacific
ƒƒ Rest-of-the-World (RoW)
ƒƒ Market Assumptions
ƒƒ Market Limitations
ƒƒ Market Overview
ƒƒ Public
ƒƒ Private
ƒƒ Market Overview
ƒƒ Platform
ƒƒ Hardware and Ancillary Services
ƒƒ Market Overview
ƒƒ Power
ƒƒ Oil Gas
ƒƒ Market Overview
ƒƒ Power Applications
ƒƒ Oil Gas Applications
BLOCKCHAIN IN ENERGY MARKET
MARKET DYNAMICS
COMPETITIVE LANDSCAPE
INDUSTRY ANALYSIS
GLOBAL BLOCKCHAIN IN ENERGY
MARKET (BY REGION)
GLOBAL BLOCKCHAIN IN ENERGY
MARKET (BY TYPE)
GLOBAL BLOCKCHAIN IN ENERGY
MARKET, (BY COMPONENT)
GLOBAL BLOCKCHAIN IN ENERGY
MARKET, (BY END USER)
GLOBAL BLOCKCHAIN IN ENERGY
MARKET (BY APPLICATIONS)

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List of Tables
1. Impact Analysis of Drivers
2. Levelized Cost of Electricity (LCOE) for
Distributed Energy Sources
3. Initiatives by Utilities of Various Countries to
Promote Blockchain in Energy
4. Impact Analysis of Restraints
5. Initiatives for the Integration of Blockchain in
Oil and Gas Sector
6. Overview of Stakeholder Analysis
7. Key Investments and Funding in Blockchain in
Energy Market
8. Global Blockchain in Energy Market (by Type),
$Million, 2018-2024
9. Global Blockchain in Energy Market
(by Component), $Million, 2018-2024
10. Major Blockchain in Energy Platform projects
11. Blockchain in Energy Hardware and Services
12. Global Blockchain in Energy Market
(by End User), $Million, 2018-2024
13. Global Blockchain in Energy Market
(by Applications), $Million, 2018-2024
14. Global Blockchain in Energy Market (by Power
Applications), $Million, 2018-2024
15. Peer-to-Peer Power Trade Projects, 2016-2019
16. Grid Management System Operation projects
17. Renewable Energy Certificate Projects
18. Electric Mobility Projects
19. Global Blockchain in Energy Market (by Oil
Gas Applications), $Million, 2018-2024
20. Global Blockchain in En ergy Market
(by Region), 2018-2024, $Million
21. North America in Blockchain in Energy
(by Power Applications), 2018-2024, $Million
22. North America in Blockchain in Energy (by Oil
Gas Applications), 2018-2024, $Million
23. North America in Blockchain in Energy Market
(by Country), 2018-2024, $Million
24. Key Projects in the U.S. in the Blockchain in
Energy Market, 2016- 2019
25. Europe in Blockchain in Energy (by Power
Application), 2018-2024, $Million
26. Europe in Blockchain in Energy (by Oil Gas
Applications), 2018-2024, $Million
27. Europe Blockchain in Energy Market
(by Country), 2018-2024, $Million
28. Key Projects in Italy in the Blockchain
in Energy
29. Key Projects in Rest-of-Europe in the
Blockchain in Energy Market
30. Asia-Pacific Blockchain in Energy Market
(by Power Application), 2018-2024, $Million
31. Asia-Pacific in Blockchain in Energy (by Oil
Gas Application), 2018-2024, $Thousand
32. Asia-Pacific Blockchain in Energy Market
(by Country), 2018-2024, $Million
33. Australia Government Initiatives for Energy
Conservation
34. Australia Blockchain in Energy Projects
35. Japan Blockchain in Energy Projects
36. Rest–of-Asia-Pacific Blockchain in
Energy Projects
37. RoW Blockchain in Energy Market (by Power
Application), 2018-2024, $Million
38. RoW in Blockchain in Energy (by Oil Gas
Applications), 2018-2024, $Million
39. E.ON SE: Initiatives in Blockchain in Energy
40. Electron: Project Portfolio
41. Energy Web Foundation: Blockchain-based
Solutions Portfolio
42. Grid Plus, Inc.: Project Portfolio
43. IBM Corporation: Product Portfolio
44. LO3 Energy, Inc: Project Portfolio
45. Microsoft Corporation: Product Portfolio
46. Ondiflo: Use Cases
47. Oracle Corporation: Product Portfolio
48. Power Ledger: Project Portfolio
49. SP Group: Initiatives in Energy Blockchain
50. Tokyo Electric Power Company Holdings:
Projects and Investments in Blockchain

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1. Factors Affecting the Global Blockchain in
Energy Market
2. Global Blockchain in Energy Market Snapshot
3. Global Blockchain in Energy Market
(by Blockchain Type), 2019-2024, ($Million)
4. Global Blockchain in Energy Market
(by End User), 2019 and 2024
5. Regional Blockchain in Energy Market Snapshot
6. The Blockchain Structure
7. Public Blockchain
8. Private Blockchain
9. Market Dynamics
10. Advantages of Using Blockchain in Virtual
Power Plant
11. Strategies Adopted by the Key Players (October
2016-October 2019)
12. Share of Key Market Strategies and
Developments (October 2016-October 2019)
13. Project Launches and Developments Share
(by Company)
14. Partnerships, Collaborations, and Joint Ventures
Share (by Company)
15. Platform Launches Share (by Company)
16. Competitive Positioning of Market Players in
Blockchain in Energy Market
17. Blockchain - a Part of the Internet of Energy
Ecosystem
18. Stakeholders of Blockchain in Energy Market
19. Some Key Members of Ethereum Enterprise
Alliance
20. Some Key Members of Hyperledger Project
21. Some Key Members of Trusted IoT Alliance
22. Effects of Regulations on the Blockchain Market
23. Regulatory Landscape in North America
24. Regulatory Landscape in Europe
25. Regulatory Landscape in Asia-Pacific
26. Regulatory Landscape in Rest-of-the-World
27. Investments in Blockchain in Energy
(2016-2018)
28. Types of Blockchains and Their Use Cases
29. Blockchain vs Traditional Computing Networks
30. Global Blockchain in Energy Market for Public
Blockchain Type, 2018-2024
31. Global Blockchain in Energy Market for Private
Blockchain Type, 2018-2024
32. Blockchain Ecosystem with its Components
33. Blockchain Platform Architecture
34. Global Blockchain in Energy Market for Platform,
2018-2024
35. Usage of Mobile Application for Carbon
Credit Trading
36. Global Blockchain in Energy Market – Hardware
Ancillary Services, 2018-2024
37. Major End Users for Blockchain in Energy
38. Blockchain Use Cases and Applications Across
the Power Supply Chain
39. Global Blockchain in Energy Market for Power
Sector, 2018-2024
40. Blockchain Use Cases for Oil Gas Sector
41. Global Blockchain in Energy Market for Oil
Gas, 2018-2024
42. Major Applications of Blockchain in Energy
43. Blockchain-Enabled Power Trading
44. Power Applications Based Blockchain in Energy
Market, 2018-2024
45. Renewable Energy Share of Total Power
Generation (2008-2018)
46. Peer-to-Peer Power Trade-Based Blockchain in
Energy Market, 2018-2024
47. Global Energy Storage Deployments
(2013-2018)
48. Grid Management System Operation–Based
Blockchain in Energy Market, 2018-2024
49. Investments in Renewable Energy for Some
Major Countries in 2018
50. Financing Renewable Energy Development–
Based Blockchain in Energy Market, 2018-2024
51. EV Charging Based on a Blockchain Platform
52. Electric Mobility– Based Blockchain in Energy
Market, 2018-2024
53. Renewable Energy Certificate Management
Mechanism
54. Management of Renewable Energy Certificates
List of Figures

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– Based Blockchain in Energy Market,
2018-2024
55. Comparison of African Countries Having Least
Percentage of Population with Access to
Electricity and Their GDPs (2017)
56. Others–Based Blockchain in Energy Market,
2018-2024
57. The Internet of Energy Applications for
Oil Gas Sector
58. Oil Gas Applications Based Blockchain in
Energy Market, 2018-2024
59. Blockchain-Based Ticketing Solutions
Mechanism for Oil Gas
60. Ticekting Solutions – Based Blockchain in
Energy Market, 2018-2024
61. Blockchain-Based Commodity Trading Cycle
for Oil Gas
62. Commodity Trading – Based Blockchain in
Energy Market, 2018-2024
63. Other Applications Based Blockchain in Energy
Market, 2018-2024
64. Global Blockchain in Energy Regional Market
Snapshot
65. North America Blockchain in Energy Market,
2018-2024, $Million
66. U.S. Electricity Generation (by Sector) in 2018
67. U.S. Blockchain in Energy Market, 2018-2024,
$Million
68. Energy Mix of Canada, 2018
69. Rest-of-North America Blockchain in Energy
Market, 2018-2024, $Million
70. Europe Blockchain in Energy Market,
2018-2024, $Million
71. Germany Photo Voltaics Installations in GW from
2003 to 2015
72. Germany Blockchain in Energy Market,
2018-2024, $Million
73. Netherlands Blockchain in Energy Market,
2018-2024, $Million
74. Estonia Blockchain in Energy Market,
2018-2024, $Million
75. Figure 9.12: U.K. Blockchain in Energy Market,
2018-2024, $Million
76. Italy Blockchain in Energy Market,
2018-2024, $Million
77. Rest–of-Europe in Blockchain in Energy Market,
2018-2024, $Million
78. Asia-Pacific Blockchain in Energy Market,
2018-2024, $Million
79. Australia Blockchain in Energy Market,
2018-2024, $Million
80. Japan Blockchain in Energy Market,
2018-2024, $Million
81. Singapore PV Installations in GW from
2003 to 2015
82. Singapore Blockchain in Energy Market,
2018-2024, $Million
83. Rest–of-Asia-Pacific Blockchain in Energy
Market, 2018-2024, $Million
84. RoW Blockchain in Energy Market,
2018-2024, $Million
85. Blockchain Key Players in the energy sector
86. BP p.l.c.: Overall Financials, 2016-2018
87. BP p.l.c.: Net Revenue by Business Segment,
2017-2018
88. Research and Development: BP p.l.c.–
2016 to 2018
89. BP p.l.c.: SWOT Analysis
90. E.ON SE: Overall Financials, 2016-2018
91. E.ON SE: Net Revenue by Business Segment,
2017-2018
92. E.ON SE: Net Revenue by Regional Segment,
2016-2018
93. Research and Development: E.ON SE –
2016 to 2018
94. E.ON SE: SWOT Analysis
95. Electron: SWOT Analysis
96. Energy Web Foundation: SWOT Analysis
97. Power Ledger: SWOT Analysis
98. IBM Corporation: Overall Financials, 2016-2018
99. IBM Corporation: Net Revenue by Business
Segment, 2016-2018
100. IBM Corporation: Net Revenue by Regional
Segment, 2017 2018
101. Research and Development: IBM Corporation
List of Figures

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List of Figures
– 2016 to 2018
102. IBM Corporation: SWOT Analysis
103. LO3 Energy, Inc: SWOT Analysis
104. Microsoft Corporation: Overall Financials,
2016-2018
105. Microsoft Corporation: Net Revenue
by Business Segment, 2017-2018
106. Microsoft Corporation: Net Revenue
by Regional Segment, 2017-2018
107. Research and Development: Microsoft
Corporation – 2016 to 2018
108. Microsoft Corporation: SWOT Analysis
109. Ondiflo: SWOT Analysis
110. Oracle Corporation: Overall Financials,
2016-2018
111. Oracle Corporation: Net Revenue by Business
Segment, 2017-2018
112. Oracle Corporation: Net Revenue by Regional
Segment, 2017-2018
113. Research and Development: Oracle
Corporation – 2016 to 2018
114. Oracle Corporation: SWOT Analysis
115. Power Ledger: SWOT Analysis
116. SP Group: Overall Financials, 2016-2018
117. SP Group: Net Revenue by Business
Segment, 2017-2018
118. SP Group: SWOT Analysis
119. TenneT Holdings B.V.: Overall Financials,
2016-2018
120. TenneT Holdings B.V.: Net Revenue by
Business Segment, 2017-2018
121. TenneT Holdings B.V.: SWOT Analysis
122. Tokyo Electric Power Company Holdings:
Overall Financials, 2016-2018
123. Tokyo Electric Power Company Holdings: Net
Revenue by Business Segment, 2017-2018
124. Research and Development: Tokyo Electric
Power Company Holdings – 2016 to 2018
125. Tokyo Electric Power Company Holdings:
SWOT Analysis
126. VAKT Global Ltd.: SWOT Analysis
127. Blockchain in Energy Market Scope
128. Report Methodology
129. Primary Interviews Breakdown, by Company,
Designation and Region
130. Sources of Secondary Research
131. Data Triangulation
132. Top-Down Bottom-Up Approach for Market
Estimation

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1. Scope of the Report
The report is a thorough study of the blockchain in energy market share and market size, including the analysis of
blockchain type, components, end user, applications, and region of blockchain in energy industry. The market trends
across the leading countries have also been extensively analyzed in the blockchain in energy market study. Further, the
market estimated in different sections of the report considered “2018-2024” as the forecast period.
2. Blockchain in Energy Market Research Methodology
The research methodology design adopted for this specific study includes a combination of data collected from
primary and secondary researches. Both the primary sources (in-house experts, industry leaders, market players, and
independent consultants) and the secondary (a host of paid and unpaid databases) sources have been used along with
analytical tools to build the forecast and predictive modes.
Research Scope BIS Methodology
Primary Data Sources
The primary sources involve the industry experts from the blockchain in energy market including the related regulatory
associations. In the extensive primary research process undertaken for this study, the primary sources further include
industry experts and key executives from the prominent companies and organizations in the energy sector. All such
resources were interviewed to obtain and verify both the qualitative and the quantitative aspects of this research study.
The key data points taken from primary sources include:
ƒƒ Validation and triangulation of all the numbers and graphs
ƒƒ Validation of report’s segment and key qualitative findings
ƒƒ Understanding the competitive landscape
ƒƒ Validation of several markets for the systems
ƒƒ Percentage split for countries

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Figure 1: Research Scope BIS Methodology
Research Scope BIS Methodology
Current Market
Information and Data
Influencing Factors
(Market Trends and Dynamics)
Forecast
ƒƒ Market Size
ƒƒ Market Share
ƒƒ Industry Attractiveness
ƒƒ Companies Key
Developments
ƒƒ Emerging Trends
ƒƒ Recent Developments
ƒƒ Market Drivers
ƒƒ Market Restraints
ƒƒ Market Opportunities
ƒƒ Regulatory Landscape
ƒƒ Industry Analysis
ƒƒ Region-Wise Market
ƒƒ Market Size Share
Analysis
ƒƒ High Growth Segments
ƒƒ Market Size Forecast:
ƒƒ By Blockchain Type
ƒƒ By Components
ƒƒ By End-users
ƒƒ By Applications
ƒƒ By Regions
ƒƒ Compound Annual Growth
Rate (CAGR)
Blockchain in Energy Market
By
Region
ƒƒ North
America
ƒƒ Europe
ƒƒ Asia-Pacific
ƒƒ Rest-of-the-
World
By
End-Users
ƒƒ Power
ƒƒ Oil Gas
By
Application
ƒƒ Power
Applications
ƒƒ Oil Gas
Applications
By
Components
ƒƒ Platforms
Software
ƒƒ Hardware
Services
By
Type
ƒƒ Public
ƒƒ Private

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Research Scope BIS Methodology
Secondary Data Sources
This research study involves the usage of extensive secondary sources, directories, company websites, annual reports
and investor presentations. It also makes use of databases such as Hoovers, Bloomberg, Business-week, and Factiva to
collect the useful information for an extensive, market-oriented, and commercial study of the regional market. Secondary
research was done to obtain crucial information about the industry’s value chain, market’s monetary chain, total pool of
key players, and the prevalent applications and systems in this sector.
The key data points taken from secondary sources include:
ƒƒ Segmentation breakups, split-ups, and percentage shares
ƒƒ Data for market size
ƒƒ Key industry trends of the top players of the market
Data Triangulation
The process of market engineering involves the calculation of the market statistics, market size estimation, market
forecast, market crackdown, and data triangulation (the methodology for these quantitative data processes is explained
in the further sections). An extensive primary research study was undertaken to gather information, and authenticate the
critical numbers derived through the segmentation types, industry trends, and key players in the market.

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List of Tables
Figure 4: Data Triangulation
The following figure exhibits data triangulation considered:
Primary Sources
ƒƒ Energy Management and Automation
Companies
ƒƒ VPP Aggregators
ƒƒ Utilities
ƒƒ Research Organization
ƒƒ SEC Filings
ƒƒ Investor Presentations
ƒƒ Journals
ƒƒ Press Releases
ƒƒ Paid Unpaid Databases
ƒƒ IRENA
ƒƒ United States Department of Energy Reports
ƒƒ Research Articles
Secondary Sources
Primary Sources
Bis Research
Internal Repository
Secondary Sources
DATA
TRIANGULATION
BIS Research Internal Repository
ƒƒ Key Players
ƒƒ Competitive Landscape
ƒƒ Opportunities and Challenges
ƒƒ Market Size and Market Share (2018-2024)
ƒƒ Marco-Economic Factors
ƒƒ Market Estimates
ƒƒ Regional Analysis
Research Scope BIS Methodology
REQUEST FOR SAMPLE

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