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.
IEEE Blockchain in Energy P2418.5 WG Standards (October 2019_Claudio Lima) crlima10
The document discusses blockchain applications in the energy sector. It begins by addressing three common misconceptions about blockchain, such as the ideas that it is only used for cryptocurrencies and based on energy-inefficient proof-of-work consensus. It then outlines the goals of the IEEE P2418.5 working group to develop standards related to blockchain in energy domains. Finally, it summarizes several reference frameworks and models being developed to help classify use cases and define interoperability for blockchain in utility grids, transactive energy systems, and other energy applications.
Blockchain as a New Energy Digital Infrastructure Technology Layercrlima10
Blockchain is a digital ledger that records transactions across distributed computing systems, making it difficult to change, hack, or fraudulently alter the data. The document discusses how blockchain can be applied in various energy applications, including solar/battery systems, electric vehicle infrastructure, and transmission/distribution systems. It also describes how smart contracts specific to the energy sector can be legally binding. The BEC methodology for blockchain design and implementation is presented, focusing on business process mapping. Finally, a GridMix smart energy contract reference model is introduced as the first use case to be implemented using Ethereum.
Blockchain Transactive Energy _ BEC (july 15th 2018) pdfcrlima10
The document discusses using blockchain technology to enable transactive energy and peer-to-peer energy trading. It proposes an Open Blockchain Energy (OBE) framework that would create a distributed ledger to register all grid assets and energy transactions online in a transparent manner. This would allow different participants like renewable generators, retailers, and prosumers to transact energy locally without intermediaries, with the blockchain serving as the registry and payment layer.
This document provides an overview of various projects, organizations, technologies, standards and initiatives related to blockchain applications for the energy sector. It lists companies working on projects involving carbon credits, distributed energy management, peer-to-peer trading and microgrids. It also outlines various consensus methods, blockchain types, frameworks, and standards bodies working to develop standards for blockchain in energy and other industries.
The IoT of Energy | From Smart Products to Intelligent SolutionsAdvisian
Rapid changes in consumer, business and industrial products and technologies, the proliferation of sensors and digital footprints and sophisticated data analytics are driving transformational shifts in many sectors. The energy sector has responded to this change with more energy efficient appliances, digital retail innovations and progressive smart grid investments, but this is modest relative to many others.
The document discusses opportunities for IT companies in the smart grid market in Europe. It defines a smart grid as a transactive grid that connects producers and consumers. It then outlines drivers for smart grids in Europe like increasing energy demands, renewable energy targets, and reliability needs. The market size for smart grid projects in Europe is over €5 billion currently. Key areas of investment are smart meters, distribution automation, and analytics. The market is expected to continue strong growth in the coming years as smart meter rollouts expand and more solutions are implemented.
IEEE Blockchain in Energy P2418.5 WG Standards (October 2019_Claudio Lima) crlima10
The document discusses blockchain applications in the energy sector. It begins by addressing three common misconceptions about blockchain, such as the ideas that it is only used for cryptocurrencies and based on energy-inefficient proof-of-work consensus. It then outlines the goals of the IEEE P2418.5 working group to develop standards related to blockchain in energy domains. Finally, it summarizes several reference frameworks and models being developed to help classify use cases and define interoperability for blockchain in utility grids, transactive energy systems, and other energy applications.
Blockchain as a New Energy Digital Infrastructure Technology Layercrlima10
Blockchain is a digital ledger that records transactions across distributed computing systems, making it difficult to change, hack, or fraudulently alter the data. The document discusses how blockchain can be applied in various energy applications, including solar/battery systems, electric vehicle infrastructure, and transmission/distribution systems. It also describes how smart contracts specific to the energy sector can be legally binding. The BEC methodology for blockchain design and implementation is presented, focusing on business process mapping. Finally, a GridMix smart energy contract reference model is introduced as the first use case to be implemented using Ethereum.
Blockchain Transactive Energy _ BEC (july 15th 2018) pdfcrlima10
The document discusses using blockchain technology to enable transactive energy and peer-to-peer energy trading. It proposes an Open Blockchain Energy (OBE) framework that would create a distributed ledger to register all grid assets and energy transactions online in a transparent manner. This would allow different participants like renewable generators, retailers, and prosumers to transact energy locally without intermediaries, with the blockchain serving as the registry and payment layer.
This document provides an overview of various projects, organizations, technologies, standards and initiatives related to blockchain applications for the energy sector. It lists companies working on projects involving carbon credits, distributed energy management, peer-to-peer trading and microgrids. It also outlines various consensus methods, blockchain types, frameworks, and standards bodies working to develop standards for blockchain in energy and other industries.
The IoT of Energy | From Smart Products to Intelligent SolutionsAdvisian
Rapid changes in consumer, business and industrial products and technologies, the proliferation of sensors and digital footprints and sophisticated data analytics are driving transformational shifts in many sectors. The energy sector has responded to this change with more energy efficient appliances, digital retail innovations and progressive smart grid investments, but this is modest relative to many others.
The document discusses opportunities for IT companies in the smart grid market in Europe. It defines a smart grid as a transactive grid that connects producers and consumers. It then outlines drivers for smart grids in Europe like increasing energy demands, renewable energy targets, and reliability needs. The market size for smart grid projects in Europe is over €5 billion currently. Key areas of investment are smart meters, distribution automation, and analytics. The market is expected to continue strong growth in the coming years as smart meter rollouts expand and more solutions are implemented.
1) The document discusses how distributed ledger technology (DLT) and blockchain can transform the energy industry by enabling new decentralized business models and use cases across energy generation, distribution, and consumption.
2) It provides examples of how DLT could be applied in areas like electric vehicle charging, asset management, energy trading, and more to improve efficiency and create new opportunities.
3) The final section discusses how cognitive technologies like IBM's Watson could help reinvent energy grid maintenance and operations through capabilities like advising engineers.
Addressing the shifting landscape across policy & regulation, revenue, business model innovation, technology innovation and changing consumer behavior, Indigo Advisory Group has created a series of tools, frameworks and strategies to help utilities manage the energy transition
Case Study: How ComEd Is Implementing Blockchain to Enhance DER User Security...Jill Kirkpatrick
ComEd is leading efforts to demonstrate how blockchain technology can enhance grid operations, including supporting the secure interconnection of distributed energy resources (DER), enabling interactions within and between microgrids, as well as exploring its potential to support energy efficiency mechanisms. It is presently working with universities and startups on projects that are being demonstrated in its Grid of the Future Lab.
This platform is being developed for managing the interconnected edge devices including DERs to grid, with technology based on blockchain-based distributed architecture to identify and ensure the security of the distribution system. This presentation will showcase ComEd's progress on the project.
Selected Topics
Modern Artificial Intelligence 1980s-2021 and Beyond
A Vision for the Next Decade of Computing
The Next Decade in AI: Four Steps Toward Robust Artificial Intelligence
Keras and TensorFlow: The Next Five Years
A Vision for the Future of ML Frameworks
AI Implementation at Scale: Lessons from the Front Lines
A Future with Self-Driving Vehicles
Advances in Renewable Energy: Enabling Our Decarbonized Energy Future with Technology Innovations and Smart Operations
Accelerating Health Care at Bayer with Science@Scale and Federated Learning
Large-Scale Deep Learning Recommendation Models at Facebook
Is AI at the Edge the Killer App for 5G?
Deep Learning for Anomaly Detection
From Storytelling to StoryLiving: A Vision for the Future of Immersive Entertainment
A New Era in Virtual Cinematography
Digital Transformation Is Here: Augmenting Human Capacity with Exponential Compute
Rethinking Drug Discovery in the Era of Digital Biology
Representation Learning for Autonomous Robots
Architecting the Secure Accelerated Data Center of the Future
Convergence of AI and HPC to Solve Grand Challenge Science Problems
Presenting US HHS Artificial Intelligence Strategy 2021: AI Mission and Ambition Commentary by the CAIO
Blockchain has potential applications in peer-to-peer energy trading. It allows direct transactions between energy producers and consumers without intermediaries. Two examples are described. The first is direct trading where prosumers announce energy availability on the blockchain network and trades are verified. The second uses a credit-based system where users submit purchase bids and the distribution system operator matches buyers and sellers. Energy companies globally are piloting various uses like P2P trading and smart appliances. Blockchain facilitates energy transition by empowering users but faces challenges like immature standards, regulation uncertainty, and high data storage needs.
This document provides an overview of Track 1 of the Grid Edge Innovation Summit on existing and emerging grid edge technologies. It discusses technologies like volt/VAR control (VVC) systems, distributed energy resource management systems (DERMS), and the intelligence layer of data platforms and analytics applications. Some key findings are that VVC systems are evolving from traditional to more optimized designs, current DERMS offerings provide incomplete management, and investments are increasingly being made in data and analytics capabilities to extract value from grid data and transition utility business models. The track agenda covers topics like how utilities are building innovation teams and investing in new capabilities, extracting value from utility data, and moving to more service-based business models.
INTERNET OF THINGS - THE NEXT WAVE OF INNOVATIONRajat Maheshwari
IoT is the new wave of innovation.
IoT has the potential to enable extensions and enhancements to fundamental services in transportation, logistics, security, utilities, education, healthcare and other areas, while providing a new ecosystem for application development.
A concerted effort is required to move the industry beyond the early stages of market development towards maturity, driven by common understanding of the distinct nature of the opportunity.
Presentation to the New York Association for Energy Economics on October 12th 2017 on how blockchain and distributed ledger technology is being applied to the power sector. The talk focused on examining emerging applications, the limitations of the technology, while also looking to the future of distributed ledgers and their potential impact on the energy value chain.
P2P trading platform - Blockchain solution for electricity provider*instinctools
The document summarizes a project between Lition, an innovative electricity provider, and instinctools, a software development company. Lition wanted to create a peer-to-peer trading platform for renewable energy on the blockchain. Instinctools developed the trading platform using various frontend and backend frameworks along with blockchain integration. The platform allows over 41 million German households to directly buy green electricity from producers and save up to 20% on bills. Producers can also generate up to 30% more profit through the platform. The CEO of Lition was pleased with instinctools' work in developing the solution.
Presentacion Wim Elfrink IoT World Forum ChicagoFelipe Lamus
The document discusses the accelerated progress of the Internet of Things (IoT) and the opportunities it presents. Some key points discussed include:
1) IoT has moved beyond hype to reality, with major companies making large acquisitions and investments in IoT technologies over the past year.
2) The number of devices connected to the internet has grown significantly since 2013, according to Cisco's Connections Counter, demonstrating rapid adoption of IoT.
3) IoT is projected to have a total global economic value of $8 trillion, with potential benefits across industries from improved asset utilization, supply chain management, innovation and more.
4) While IoT presents major opportunities, challenges around skills gaps in
INTRODUCTION
IoT history
IoT world
IoT in Gartner Hype cycle
IoT economic impact and trends
ABOUT IoT
What is IoT ?
IoT market environment
Technologies behind IoT
IoT global roadmap
What is IoT ?
IoT market environment
Technologies behind IoT
IoT global roadmap
APPLICATIONS OF IoT
Selection of impacting examples
IS IoT FOR YOU?
List of questions to help you moving forward!
Why should you start exploring IoT opportunities?
Preliminary questions before jumping in (Skills, assets…)
Hamid Falaki from Digital Catapult Presenting IoT and Future 5G Networks at #IoTLondon in May 2015
...5G Capabilities will include- Ultra Dense Connectivity, Faster Connection Time, Shorter Delay & Higher Throughput …
What IoT Solutions can we deliver with such capability offered by 5G networks?
Grid edge innovation summit day 1 track 2 slidesNicole Green
Utilities are embarking on a digital transformation driven by distributed energy resources and customer data. This presentation discusses building the ideal digital ecosystem through data integration across utility functions like customer analytics, network operations, and the customer portal. The focus is on improving relationships with customers behind the meter through innovative use of customer data and analytics.
1) Blockchain has the potential to disrupt businesses like hydropower by enabling new applications such as peer-to-peer energy trading and optimizing operational processes.
2) While many utilities are investigating blockchain's potential uses, challenges remain around issues like access permissions, data standards, and high energy consumption.
3) Two main drivers for blockchain adoption in the energy sector are regulations and customer/player engagement. Outcomes could range from limited niche applications to a fully transactive grid enabled by blockchain.
- Dynamic neural networks (DNNs) can adapt to varying resource availability on edge devices through techniques like incremental training and group convolution pruning. This allows meeting requirements for timing, power/energy, and accuracy.
- Experiments on two embedded platforms showed that dynamic DNNs combined with DVFS and task mapping can reduce energy consumption while maintaining classification accuracy compared to static DNNs.
- Runtime power management is needed to coordinate heterogeneous processors, respond to environmental factors, balance power consumption and battery life, and meet requirements for concurrently executing tasks and applications under varying conditions on edge devices.
According to GE, there are 10 digital trends which define the current revolution and will determine the future of the world’s power and utilities sector.
Blockchain, AI, IOT, Crypto Challenges and opportunities for the Energy Oil a...Dinis Guarda
Challenges and opportunities for the energy oil and gas industry. Digital transformation, Blockchain, AI, IOT, ICOs in a new digital Crypto Economy, presentation and research by Dinis Guarda
The document discusses how distributed energy resources (DER) such as rooftop solar, electric vehicles, and energy storage are positioned for explosive growth over the coming years based on forecasts. It outlines how DER could more than double in impact on peak demand from 46 GW currently to over 104 GW by 2023. While utilities initially viewed DER as a threat, most now see them as both an opportunity and threat. Utilities are increasingly investing in infrastructure and developing marketplaces and programs to integrate DER into their planning and operations. Emerging technologies like blockchain and artificial intelligence could further help develop new transactional systems to optimize DER.
This document discusses blockchain applications in the energy sector. It begins with an overview of key blockchain concepts like Bitcoin, cryptocurrency, and distributed ledger technology. It then explores several potential use cases for blockchain in energy like peer-to-peer energy trading, crypto-currency payments for energy, implementing microgrids, enabling appliance and IoT devices, and increasing distribution system operator capabilities. Finally, it analyzes different blockchain business models for electricity markets and considers factors like the appropriate consensus protocol for different business cases.
Pdf of presentation from the American Solar Energy Society Solar 2022 conference in June.
Abstract from the proceedings paper referenced:
One critical component of a sustainable “Community Solar” * model in Texas is making it attractive enough to customers that projects can be developed without subsidies or grants.
To address energy poverty issues, TRCSS’ goal is to generate
enough revenue that a portion of each project group can be offered to local Low to Moderate Income residents with reduced cost participation options.
TRCSS was awarded a National Community Solar Partnership Technical Assistance grant in 2020 and has continued to investigate the potential for adapt ing energy trading concepts to Community Solar at three levels:
1) Wholesale markets: Smaller
projects aggregated to sufficient size that power can be sold through the ERCOT real time, day ahead, and long term markets using tools and practices already in use for some large merchant projects;
2) Commercial and industrial retail (C&I) markets: Smaller projects and some large single site
installations might be managed using tools and practices already in use by energy managers and Sustainable Energy as a Service contractors or directly by Retail Electric Providers, Municipal Utilities, and Cooperative Electric Utilities;
3) Smaller C&I projects might use
emerging tools and practices
leveraging “Blockchain Transactive Energy” standards.
*“ Community Solar” has a component of own ership by the local community.
1) The document discusses how distributed ledger technology (DLT) and blockchain can transform the energy industry by enabling new decentralized business models and use cases across energy generation, distribution, and consumption.
2) It provides examples of how DLT could be applied in areas like electric vehicle charging, asset management, energy trading, and more to improve efficiency and create new opportunities.
3) The final section discusses how cognitive technologies like IBM's Watson could help reinvent energy grid maintenance and operations through capabilities like advising engineers.
Addressing the shifting landscape across policy & regulation, revenue, business model innovation, technology innovation and changing consumer behavior, Indigo Advisory Group has created a series of tools, frameworks and strategies to help utilities manage the energy transition
Case Study: How ComEd Is Implementing Blockchain to Enhance DER User Security...Jill Kirkpatrick
ComEd is leading efforts to demonstrate how blockchain technology can enhance grid operations, including supporting the secure interconnection of distributed energy resources (DER), enabling interactions within and between microgrids, as well as exploring its potential to support energy efficiency mechanisms. It is presently working with universities and startups on projects that are being demonstrated in its Grid of the Future Lab.
This platform is being developed for managing the interconnected edge devices including DERs to grid, with technology based on blockchain-based distributed architecture to identify and ensure the security of the distribution system. This presentation will showcase ComEd's progress on the project.
Selected Topics
Modern Artificial Intelligence 1980s-2021 and Beyond
A Vision for the Next Decade of Computing
The Next Decade in AI: Four Steps Toward Robust Artificial Intelligence
Keras and TensorFlow: The Next Five Years
A Vision for the Future of ML Frameworks
AI Implementation at Scale: Lessons from the Front Lines
A Future with Self-Driving Vehicles
Advances in Renewable Energy: Enabling Our Decarbonized Energy Future with Technology Innovations and Smart Operations
Accelerating Health Care at Bayer with Science@Scale and Federated Learning
Large-Scale Deep Learning Recommendation Models at Facebook
Is AI at the Edge the Killer App for 5G?
Deep Learning for Anomaly Detection
From Storytelling to StoryLiving: A Vision for the Future of Immersive Entertainment
A New Era in Virtual Cinematography
Digital Transformation Is Here: Augmenting Human Capacity with Exponential Compute
Rethinking Drug Discovery in the Era of Digital Biology
Representation Learning for Autonomous Robots
Architecting the Secure Accelerated Data Center of the Future
Convergence of AI and HPC to Solve Grand Challenge Science Problems
Presenting US HHS Artificial Intelligence Strategy 2021: AI Mission and Ambition Commentary by the CAIO
Blockchain has potential applications in peer-to-peer energy trading. It allows direct transactions between energy producers and consumers without intermediaries. Two examples are described. The first is direct trading where prosumers announce energy availability on the blockchain network and trades are verified. The second uses a credit-based system where users submit purchase bids and the distribution system operator matches buyers and sellers. Energy companies globally are piloting various uses like P2P trading and smart appliances. Blockchain facilitates energy transition by empowering users but faces challenges like immature standards, regulation uncertainty, and high data storage needs.
This document provides an overview of Track 1 of the Grid Edge Innovation Summit on existing and emerging grid edge technologies. It discusses technologies like volt/VAR control (VVC) systems, distributed energy resource management systems (DERMS), and the intelligence layer of data platforms and analytics applications. Some key findings are that VVC systems are evolving from traditional to more optimized designs, current DERMS offerings provide incomplete management, and investments are increasingly being made in data and analytics capabilities to extract value from grid data and transition utility business models. The track agenda covers topics like how utilities are building innovation teams and investing in new capabilities, extracting value from utility data, and moving to more service-based business models.
INTERNET OF THINGS - THE NEXT WAVE OF INNOVATIONRajat Maheshwari
IoT is the new wave of innovation.
IoT has the potential to enable extensions and enhancements to fundamental services in transportation, logistics, security, utilities, education, healthcare and other areas, while providing a new ecosystem for application development.
A concerted effort is required to move the industry beyond the early stages of market development towards maturity, driven by common understanding of the distinct nature of the opportunity.
Presentation to the New York Association for Energy Economics on October 12th 2017 on how blockchain and distributed ledger technology is being applied to the power sector. The talk focused on examining emerging applications, the limitations of the technology, while also looking to the future of distributed ledgers and their potential impact on the energy value chain.
P2P trading platform - Blockchain solution for electricity provider*instinctools
The document summarizes a project between Lition, an innovative electricity provider, and instinctools, a software development company. Lition wanted to create a peer-to-peer trading platform for renewable energy on the blockchain. Instinctools developed the trading platform using various frontend and backend frameworks along with blockchain integration. The platform allows over 41 million German households to directly buy green electricity from producers and save up to 20% on bills. Producers can also generate up to 30% more profit through the platform. The CEO of Lition was pleased with instinctools' work in developing the solution.
Presentacion Wim Elfrink IoT World Forum ChicagoFelipe Lamus
The document discusses the accelerated progress of the Internet of Things (IoT) and the opportunities it presents. Some key points discussed include:
1) IoT has moved beyond hype to reality, with major companies making large acquisitions and investments in IoT technologies over the past year.
2) The number of devices connected to the internet has grown significantly since 2013, according to Cisco's Connections Counter, demonstrating rapid adoption of IoT.
3) IoT is projected to have a total global economic value of $8 trillion, with potential benefits across industries from improved asset utilization, supply chain management, innovation and more.
4) While IoT presents major opportunities, challenges around skills gaps in
INTRODUCTION
IoT history
IoT world
IoT in Gartner Hype cycle
IoT economic impact and trends
ABOUT IoT
What is IoT ?
IoT market environment
Technologies behind IoT
IoT global roadmap
What is IoT ?
IoT market environment
Technologies behind IoT
IoT global roadmap
APPLICATIONS OF IoT
Selection of impacting examples
IS IoT FOR YOU?
List of questions to help you moving forward!
Why should you start exploring IoT opportunities?
Preliminary questions before jumping in (Skills, assets…)
Hamid Falaki from Digital Catapult Presenting IoT and Future 5G Networks at #IoTLondon in May 2015
...5G Capabilities will include- Ultra Dense Connectivity, Faster Connection Time, Shorter Delay & Higher Throughput …
What IoT Solutions can we deliver with such capability offered by 5G networks?
Grid edge innovation summit day 1 track 2 slidesNicole Green
Utilities are embarking on a digital transformation driven by distributed energy resources and customer data. This presentation discusses building the ideal digital ecosystem through data integration across utility functions like customer analytics, network operations, and the customer portal. The focus is on improving relationships with customers behind the meter through innovative use of customer data and analytics.
1) Blockchain has the potential to disrupt businesses like hydropower by enabling new applications such as peer-to-peer energy trading and optimizing operational processes.
2) While many utilities are investigating blockchain's potential uses, challenges remain around issues like access permissions, data standards, and high energy consumption.
3) Two main drivers for blockchain adoption in the energy sector are regulations and customer/player engagement. Outcomes could range from limited niche applications to a fully transactive grid enabled by blockchain.
- Dynamic neural networks (DNNs) can adapt to varying resource availability on edge devices through techniques like incremental training and group convolution pruning. This allows meeting requirements for timing, power/energy, and accuracy.
- Experiments on two embedded platforms showed that dynamic DNNs combined with DVFS and task mapping can reduce energy consumption while maintaining classification accuracy compared to static DNNs.
- Runtime power management is needed to coordinate heterogeneous processors, respond to environmental factors, balance power consumption and battery life, and meet requirements for concurrently executing tasks and applications under varying conditions on edge devices.
According to GE, there are 10 digital trends which define the current revolution and will determine the future of the world’s power and utilities sector.
Blockchain, AI, IOT, Crypto Challenges and opportunities for the Energy Oil a...Dinis Guarda
Challenges and opportunities for the energy oil and gas industry. Digital transformation, Blockchain, AI, IOT, ICOs in a new digital Crypto Economy, presentation and research by Dinis Guarda
The document discusses how distributed energy resources (DER) such as rooftop solar, electric vehicles, and energy storage are positioned for explosive growth over the coming years based on forecasts. It outlines how DER could more than double in impact on peak demand from 46 GW currently to over 104 GW by 2023. While utilities initially viewed DER as a threat, most now see them as both an opportunity and threat. Utilities are increasingly investing in infrastructure and developing marketplaces and programs to integrate DER into their planning and operations. Emerging technologies like blockchain and artificial intelligence could further help develop new transactional systems to optimize DER.
This document discusses blockchain applications in the energy sector. It begins with an overview of key blockchain concepts like Bitcoin, cryptocurrency, and distributed ledger technology. It then explores several potential use cases for blockchain in energy like peer-to-peer energy trading, crypto-currency payments for energy, implementing microgrids, enabling appliance and IoT devices, and increasing distribution system operator capabilities. Finally, it analyzes different blockchain business models for electricity markets and considers factors like the appropriate consensus protocol for different business cases.
Pdf of presentation from the American Solar Energy Society Solar 2022 conference in June.
Abstract from the proceedings paper referenced:
One critical component of a sustainable “Community Solar” * model in Texas is making it attractive enough to customers that projects can be developed without subsidies or grants.
To address energy poverty issues, TRCSS’ goal is to generate
enough revenue that a portion of each project group can be offered to local Low to Moderate Income residents with reduced cost participation options.
TRCSS was awarded a National Community Solar Partnership Technical Assistance grant in 2020 and has continued to investigate the potential for adapt ing energy trading concepts to Community Solar at three levels:
1) Wholesale markets: Smaller
projects aggregated to sufficient size that power can be sold through the ERCOT real time, day ahead, and long term markets using tools and practices already in use for some large merchant projects;
2) Commercial and industrial retail (C&I) markets: Smaller projects and some large single site
installations might be managed using tools and practices already in use by energy managers and Sustainable Energy as a Service contractors or directly by Retail Electric Providers, Municipal Utilities, and Cooperative Electric Utilities;
3) Smaller C&I projects might use
emerging tools and practices
leveraging “Blockchain Transactive Energy” standards.
*“ Community Solar” has a component of own ership by the local community.
This document provides an overview of a conference on blockchain in the energy sector. It discusses the past hype around blockchain from 2016-2018 when over $300 million was invested. In 2017, the Energy Web Foundation was launched to develop a decentralized digital operating system for energy. Many potential use cases were identified but many hypotheses also emerged. The present status shows blockchain technology maturing with the Energy Web Chain and other solutions emerging to enable applications. Key questions from the past are being answered with learnings around scaling, energy consumption, and public vs private blockchains. Looking to the future, blockchain is seen to unlock value in tracing energy attributes and integrating distributed energy resources.
Power Sources for the Internet-of-Things: Markets and Strategiesn-tech Research
NanoMarkets believes that the deployments of sensors and processors for the Internet-of-Things (IoT) are creating huge new opportunities for manufacturers of power source devices. Because of IoT, power devices such as thin-film and printed batteries, energy harvesting modules, small flexible photovoltaics panels and thermoelectric sources, which have enjoyed marginal revenues up to now, may begin generating hundreds of millions of dollars in annual revenues.
However, suppliers of IoT power sources, as well as the semiconductor industry more generally face significant uncertainties in the IoT space. Not only is future of the IoT itself unclear, but also how the IoT “power infrastructure” will shape up technologically is a great unknown.
The objective of this report is to identify where the money will be made and lost in the emergent IoT power source business. It begins with an assessment of the power requirements of the various devices that NanoMarkets believes will form the “things” in the IoT. These include sensor networks, MCUs/MPUs and tagging devices, for example. The report continues by considering how established technologies such as batteries will adapt to new IoT opportunities and whether emerging technologies such as energy harvesting and thermoelectric power sources will find their first big markets as the result of IoT.
The report explores the opportunities for all industry sectors that will be impacted by the development of new power sources for the IoT. In particular we examine how leading battery companies, chipmakers, OEMs and others are preparing for the business opportunities in the IoT power source space. The report also discusses the strategies of eight firms that NanoMarkets believes will shape the market for power sources for the IoT over the next decade.
We believe that this report will be essential reading for business development and marketing executives in the battery, energy harvesting, RFID, sensors, photovoltaics and semiconductor industries, as well as the investment community. In addition to providing a thorough analysis of the IoT power source markets, this report also provides detailed eight-year forecasts of power sources for the IoT in both volume and value terms and with break outs by power source types.
- See more at: http://nanomarkets.net/market_reports/report/power-sources-for-the-internet-of-things-markets-and-strategies
This document provides an overview and agenda for a blockchain in energy conference taking place on September 25th in New York City.
The summary is:
[1] The document outlines logistical information for the conference, including details about WiFi access, a Q&A platform, and availability of slide decks.
[2] The agenda is provided, including sessions on blockchain opportunities in the evolution of the grid, a fireside chat on IBM's blockchain advancements in energy, and an energy blockchain retrospective.
[3] Upcoming conferences in other locations are also listed.
2013 us grid storage report executive summaryJon Winberg
This report analyzes the future market potential for grid energy storage technologies and applications in the US over the next 10 years. It finds that while pumped hydro currently dominates grid storage, battery technologies like lithium-ion and flow batteries are poised to experience strong growth due to their flexibility. The report models scenarios where grid storage capacity grows to between 28.2-47 GW by 2022, representing a compound annual growth rate of 3.4-9.3%. This growth will be driven by increasing renewable energy as well as support for applications like frequency regulation and transmission/distribution support. However, high capital costs and the unproven nature of some technologies may restrain the market.
Power Electronics Market Report, published by Allied Market Research, forecasts that the global market is expected to garner $25 billion by 2022, registering a CAGR of 8.9% during the period 2016-2022. Asia-Pacific dominates the global market in terms of revenue, accounting for more than 50% share of the global market, followed by Europe.
Power Electronics Market To Have Steady Growth of $25 Billion by 2022Allied Market Research
Power Electronics Market Report, published by Allied Market Research, forecasts that the global market is expected to garner $25 billion by 2022, registering a CAGR of 8.9% during the period 2016-2022. Asia-Pacific dominates the global market in terms of revenue, accounting for more than 50% share of the global market, followed by Europe.
According to www.techsciresearch.com report “Qatar Busbar Market By Type, By End User, Competition Forecast & Opportunities, 2011 – 2021”, the market for busbar in Qatar is anticipated to grow at a CAGR of around 12% during 2016-2021.
Energy harvesting and related energy storage devicespranaliparab
This document provides an analysis of the energy harvesting and energy storage device markets from 2012 to 2017. It forecasts strong growth in the number of energy harvesting wireless sensor nodes, reaching 375 million units by 2017. Building automation and RFID will be the largest applications. Vibration/piezoelectric harvesting will be the largest technology segment. Energy storage, especially rechargeable batteries, is also an important part of most energy harvesting systems. Standards development is expected to further drive market growth.
Energy harvesting and related energy storage devicespranaliparab
This document provides an analysis of the energy harvesting and energy storage device markets from 2012 to 2017. It forecasts strong growth in the number of energy harvesting wireless sensor nodes, reaching 375 million units by 2017. Building automation and RFID will be the largest applications. Vibration/piezoelectric harvesting will be the largest technology segment. Energy storage, especially rechargeable batteries, is also an important part of most energy harvesting systems. Standards development is expected to further drive market growth.
The global power electronics market is expected to register healthy growth and reach over $44 billion by 2026. Power electronics devices such as diodes, transistors, and thyristors are used to efficiently control and convert electrical power from its source to loads. These devices enable power management and support energy conservation in various applications. The market is driven by increasing adoption of renewable energy sources by governments and consumers. Some of the key segments of the power electronics market include devices, materials, applications, voltages, and vertical industries.
Similar to Blockchain in Energy Market Share, 2024 (20)
Webinar Presentation Syndromic Testing – A New Take on Diagnosing Infectious ...BIS Research Inc.
The document summarizes a webinar on syndromic testing for diagnosing infectious diseases. The webinar featured several speakers who discussed topics like: how syndromic testing can provide faster results and reduce antibiotic use compared to traditional testing; applications of metagenomics next-generation sequencing (mNGS) in clinical diagnostics and its benefits; key trends in the syndromic testing market like high growth rates and the dominance of respiratory disease testing currently. The global syndromic testing market is expected to grow from $1.28 billion in 2022 to $3.25 billion in 2033, driven by factors like rising infectious disease incidence and the need for early diagnosis.
The global sustainable steel market is projected to reach $795.8 billion by 2031 from $327.3 billion in 2021, growing at a CAGR of 8.97% during the forecast period 2022-2031. The growth in the global sustainable steel market is expected to be driven by stringent government regulations, carbon neutrality targets, energy and cost efficiency owing to the use of recycled steel, and a significant increase in steel demand with the scarcity of raw materials and energy.
Cybersecurity in Automotive Connected Vehicles and Growing Security Vulnerabi...BIS Research Inc.
• Agenda:
o To evaluate various security vulnerabilities in connected vehicles.
o To analyze the initiatives taken and regulations implemented to address security vulnerabilities.
o To analyze the various types of cybersecurity solutions being developed or offered for the security of connected vehicles.
o To evaluate the major players in the ecosystem.
Report Preview is available at: https://bisresearch.com/industry-report/global-automotive-cybersecurity-market.html
BIS Research conducted a webinar on Carbon Neutral Data Center PracticesBIS Research Inc.
Agenda:
To evaluate various emerging trends in Data center industry.
To analyze the initiatives taken and regulations implemented to increase sustainable practices.
To analyze the various types of technologies currently deployed.
To evaluate the major players in the ecosystem.
Speaker Profiles:
Name: JD Enright, Sr.
Designation: Chief Operating Officer
Company: TMGcore Inc.
Experienced and dedicated business professional with 29 years working with DOD, Multinational Private and Public sector organizations. Primary focus on developing and executing Strategic Step-Up Growth initiatives in Emerging Markets, and Technologies. Specialized leadership in developing improved business operations to include Financial and Operational efficiencies. Implementation of next generation HPC Platforms, Global Blockchain Development Strategies, Biotechnology, Viral Cell and Gene Therapies and Market Intelligence Assimilation for public applications.
Webinar by BIS Research on Precision Oncology BiomarkersBIS Research Inc.
Precision oncology biomarkers are essential tools for tailoring cancer treatment to individual patients, as they provide insights into tumor biology and guide the selection of targeted therapies.
BIS conducted a deep intelligence webinar on the state-of-the-art technologies and emerging strategies used through the precision oncology biomarkers.
Direct-to-Customer Wellness | A Webinar on the Growing Need for Personalized ...BIS Research Inc.
Direct-to-consumer (DTC) wellness testing industry witnessed a strong emphasis on consumer health and wellness, instigating industry stakeholders to discover new revenue streams.
As a leading market intelligence firm, BIS Research strives to stay on top of the latest emerging trends in the healthcare sector, among several other industry verticals. In the bid to do the same, BIS is conducting a deep intelligence webinar on the increasing focus of DTC wellness programs in the healthcare sector.
Read Related Reports Overview at:
https://bisresearch.com/industry-report/global-direct-to-consumer-genetic-testing-market.html
https://bisresearch.com/industry-report/us-dtc-wellness-testing-market.html
Emerging Battery Chemistries | Reimagining EVs Beyond Conventional Li-Ion Bat...BIS Research Inc.
The efficiency of the battery system in any electric vehicle (EV) determines its cost and vehicle performance. Challenges, such as range anxiety and charging time, have been a hindrance to increasing EV sales.
As a leading market intelligence firm, BIS Research strives to stay on top of the latest emerging technologies in the mobility sector, among several other industry verticals.
In the bid to do the same, BIS is conducting a deep intelligence webinar on the current paradigm shift happening for battery technologies in electric vehicles.
Here are all the details:
Webinar Topic: Emerging Battery Chemistries | Reimagining EVs Beyond Conventional Li-Ion Batteries
Webinar on AI in Medical Diagnosis with Emerging TechnologiesBIS Research Inc.
Artificial Intelligence (AI) is a rapidly growing field that has the potential to revolutionize the way medical diagnosis is performed. AI systems use advanced algorithms to analyze large amounts of data, such as medical images, patient histories, and lab results, to identify patterns and make predictions about patient outcomes.
In medical diagnosis, AI can be used in a variety of ways, including medical imaging, disease diagnosis, personalized treatment planning, and early disease detection. By leveraging the power of AI, healthcare providers can make faster and more accurate diagnoses, resulting in better patient outcomes.
Agenda:
The main agenda of this webinar is to understand and explore the following:
• Policy implications related to AI and digital transformation in healthcare.
• Initiatives taken and regulations implemented to address cybersecurity concerns.
• Major factors driving and hindering the growth of AI in medical devices diagnosis.
• Major players in the ecosystem
AI-Enabled Imaging Solutions Market - A Global Market Report by BIS ResearchBIS Research Inc.
The global AI-enabled medical imaging solutions market was valued at $1,854.5 million in 2022 and is anticipated to reach $18,356.5 million by 2032, witnessing a CAGR of 25.76% during the forecast period 2022-2032. you can get more info to visit this link..
https://bisresearch.com/industry-report/global-ai-enabled-medical-imaging-solutions-market.html
The global demand for achieving the net zero emission target by 2050 has pushed governments all over to adapt and adopt advanced carbon removal technologies to go carbon negative.
It is, indeed, an important topic of discussion, because a carbon free environment is the need of the hour to save our planet. And, therefore, BIS Research is glad to announce its upcoming webinar on this particular subject.
Agenda:
The main agenda of this webinar is to understand and explore the following:
• Primary sources of carbon emissions and associated environmental issues
• Carbon dioxide removal – key technology and adoption scenario
• Carbon dioxide removal (CDR): trends and key market developments
• Carbon dioxide removal as a credible solution
• Conclusion and future outlook
Webinar on Biomanufacturing 4.0 – A New Era in Cell and Gene Therapy DevelopmentBIS Research Inc.
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Cell and Gene Therapy Biomanufacturing Market: Trends and Key Developments
Awaited Technologies in the Cell and Gene Therapy Development
Regulatory Scenario – GMP/cGMP Guidelines
Biomanufacturing 4.0 - Adoption Scenario
Conclusion and Future Outlook
Sub-Orbital Testing Services Market Future Growth and Business Opportunities ...BIS Research Inc.
Sub-orbital platforms are increasing access to the near space-like environment for end users such as government agencies, research institutions, and commercial players.
The competitive landscape of the sub-orbital testing services market consists of several organic and inorganic strategies followed by the key players to increase their market share.
The space industry is continuously innovating and developing advanced technologies with the objective of enhancing space capabilities. The industry is gearing up to develop vehicles that entail a major feature, i.e., reusability.
Request for the sample of the report at: https://bisresearch.com/requestsample?id=1442&type=download
TOC - Global Military Robotic and Autonomous Systems (RAS) Market.pdfBIS Research Inc.
The robotic and autonomous system (RAS) is a multidisciplinary scientific and technological domain for implementing complex systems with cognitive capabilities.
RAS in military is being rigorously introduced and used in combat training. This has boosted the capabilities of armed units and subunits. The advent of artificial intelligence (AI) and its integration with military RAS has the potential to change future warfare.
Growing demand to increase warfighter lethality and remove soldiers from dangerous situations is propelling the global military RAS market.
Request for the sample of the report at: https://bisresearch.com/requestsample?id=1442&type=download
UAV Propulsion System Market Analysis, Statistics, Regional, and Forecast to ...BIS Research Inc.
UAV propulsion system manufacturers have also been inclined to counter the environment and other government regulations by developing sustainable propulsion, i.e., steps toward fossil-free aviation fuels and ion propulsion are a few of such significant innovations.
UAVs can be powered by a variety of different types of engines, including piston engines, turbine engines, Wankel engines, and electric and solar-powered engines.
The global UAV propulsion system market has witnessed a high growth rate in the last five to six years owing to its widespread applications across various industries, which were further bolstered by the COVID-19 pandemic.
Publication of BIS Research on UAV Propulsion System market has some great insights for UAV Propulsion Systems. Get free sample here: https://bisresearch.com/requestsample?id=1443&type=download
Fleet Management Market Trends, Key Players, Industry Analysis and Forecast 2...BIS Research Inc.
A fleet management system, which includes hardware, software and service, has the ability to make decisions for fleet managers and fleet businesses easily.
The ongoing research and development activities in this market are experiencing product launches of fleet management system for fleet owners, fleet managers, or businesses that utilize fleet management on a daily basis.
BIS Research has a new publication on Fleet Management, view free sample here : https://bisresearch.com/requestsample?id=1444&type=download
Agenda:
The main agenda of this webinar is to understand and explore the following:
• LoRaWAN adoption in agricultural applications as well as understanding the trends and key market developments.
• The significance of LoRaWAN in the field of IoT
• A comparative analysis between LoRaWAN and other IoT networks in terms of technology and capabilities.
• The impact of LoRaWAN on the operations of the agriculture industry and common use cases.
• The impact of the implementation of LoRaWAN technology on stakeholders in the agriculture ecosystem.
• The potential challenges that LoRaWAN might face in the future.
• The competitiveness of the market for LoRaWAN technology.
Augmented Reality in Agriculture Analysis and Statistics from 2022-2027BIS Research Inc.
AR depicts superimposing visual, audio, or other sensory data onto the physical world to improve one's experience. It is one of the most popular technological trends in today’s times. AR images can be displayed on a variety of devices, including eyeglasses and goggles, headsets, and heads-up displays such as helmet visors. As more smartphones, tablets, and other handheld devices that support AR are becoming available globally, the most popular way to use AR is on these devices in a variety of apps and games.
Although AR is used to visually communicate information, it is the integration of AR with other technologies that make it possible to adapt to precision farming and visual-based operations. Hence, farmers can utilize AR in combination with other technologies such as artificial intelligence (AI), big data, and the Internet of Things (IoT) to manage the rising food demand.
Get Augmented Reality in Agriculture report overview at: https://bisresearch.com/industry-report/ar-agriculture-market.html
Smart Harvest Market Generated Opportunities, Future Scope 2022-2027BIS Research Inc.
The growth in the global smart harvest market is expected to be driven by increasing smart farming practices among farmers, labor shortage, and growing government support for promoting the use of smart tech in the agriculture industry. Supported by government policies and technological developments, farmers and growers across the globe are expected to increase the implementation of smart harvest technologies. Moreover, the smart harvest market is witnessing several upcoming trends and opportunities, further propelling growth in the industry.
Get the PDF document on the technical aspects of Smart Harvest Market at: https://bisresearch.com/requestsample?id=1386&type=download
Precision Pest Management Market Leading Players, Development and Demand Fore...BIS Research Inc.
While farmers are losing crops due to pests, they have pressure to increase food production to feed the growing world population.
Precision pest management (PPM) is very important to avoid destruction caused by pests and to increase productivity. PPM helps to detect pests early with the help of crop monitoring so they can be controlled early to avoid further losses. The availability of advanced technologies and equipment has made agriculture automation more prevalent in developed countries.
To know more about the in-depth insights on precision pest management market, get PDF document: https://bisresearch.com/requestsample?id=1404&type=download
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Agriculture drones and robots offer multiple benefits over conventional farming equipment, which is another factor driving the demand for these products in the agriculture industry. The adoption of agriculture drones and robots in commercial farms offers huge cost-saving opportunities.
Request for the Sample of the Report at: https://bisresearch.com/requestsample?id=1425&type=download
The Ipsos - AI - Monitor 2024 Report.pdfSocial Samosa
According to Ipsos AI Monitor's 2024 report, 65% Indians said that products and services using AI have profoundly changed their daily life in the past 3-5 years.
Predictably Improve Your B2B Tech Company's Performance by Leveraging DataKiwi Creative
Harness the power of AI-backed reports, benchmarking and data analysis to predict trends and detect anomalies in your marketing efforts.
Peter Caputa, CEO at Databox, reveals how you can discover the strategies and tools to increase your growth rate (and margins!).
From metrics to track to data habits to pick up, enhance your reporting for powerful insights to improve your B2B tech company's marketing.
- - -
This is the webinar recording from the June 2024 HubSpot User Group (HUG) for B2B Technology USA.
Watch the video recording at https://youtu.be/5vjwGfPN9lw
Sign up for future HUG events at https://events.hubspot.com/b2b-technology-usa/
Build applications with generative AI on Google CloudMárton Kodok
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Orchestrating the Future: Navigating Today's Data Workflow Challenges with Ai...Kaxil Naik
Navigating today's data landscape isn't just about managing workflows; it's about strategically propelling your business forward. Apache Airflow has stood out as the benchmark in this arena, driving data orchestration forward since its early days. As we dive into the complexities of our current data-rich environment, where the sheer volume of information and its timely, accurate processing are crucial for AI and ML applications, the role of Airflow has never been more critical.
In my journey as the Senior Engineering Director and a pivotal member of Apache Airflow's Project Management Committee (PMC), I've witnessed Airflow transform data handling, making agility and insight the norm in an ever-evolving digital space. At Astronomer, our collaboration with leading AI & ML teams worldwide has not only tested but also proven Airflow's mettle in delivering data reliably and efficiently—data that now powers not just insights but core business functions.
This session is a deep dive into the essence of Airflow's success. We'll trace its evolution from a budding project to the backbone of data orchestration it is today, constantly adapting to meet the next wave of data challenges, including those brought on by Generative AI. It's this forward-thinking adaptability that keeps Airflow at the forefront of innovation, ready for whatever comes next.
The ever-growing demands of AI and ML applications have ushered in an era where sophisticated data management isn't a luxury—it's a necessity. Airflow's innate flexibility and scalability are what makes it indispensable in managing the intricate workflows of today, especially those involving Large Language Models (LLMs).
This talk isn't just a rundown of Airflow's features; it's about harnessing these capabilities to turn your data workflows into a strategic asset. Together, we'll explore how Airflow remains at the cutting edge of data orchestration, ensuring your organization is not just keeping pace but setting the pace in a data-driven future.
Session in https://budapestdata.hu/2024/04/kaxil-naik-astronomer-io/ | https://dataml24.sessionize.com/session/667627
STATATHON: Unleashing the Power of Statistics in a 48-Hour Knowledge Extravag...sameer shah
"Join us for STATATHON, a dynamic 2-day event dedicated to exploring statistical knowledge and its real-world applications. From theory to practice, participants engage in intensive learning sessions, workshops, and challenges, fostering a deeper understanding of statistical methodologies and their significance in various fields."
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https://ml.dssconf.pl/user.html#!/lecture/DSSML24-041a/rate
Discover the potential of real-time streaming in the context of GenAI as we delve into the intricacies of Apache NiFi and its capabilities. Learn how this tool can significantly simplify the data engineering workflow for GenAI applications, allowing you to focus on the creative aspects rather than the technical complexities. I will guide you through practical examples and use cases, showing the impact of automation on prompt building. From data ingestion to transformation and delivery, witness how Apache NiFi streamlines the entire pipeline, ensuring a smooth and hassle-free experience.
Timothy Spann
https://www.youtube.com/@FLaNK-Stack
https://medium.com/@tspann
https://www.datainmotion.dev/
milvus, unstructured data, vector database, zilliz, cloud, vectors, python, deep learning, generative ai, genai, nifi, kafka, flink, streaming, iot, edge
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Open Source Contributions to Postgres: The Basics POSETTE 2024ElizabethGarrettChri
Postgres is the most advanced open-source database in the world and it's supported by a community, not a single company. So how does this work? How does code actually get into Postgres? I recently had a patch submitted and committed and I want to share what I learned in that process. I’ll give you an overview of Postgres versions and how the underlying project codebase functions. I’ll also show you the process for submitting a patch and getting that tested and committed.
1. sales@bisresearch.com | www.bisresearch.com
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
2. sales@bisresearch.com | www.bisresearch.com
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)
3. sales@bisresearch.com | www.bisresearch.com
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, $Million
39. E.ON SE: Initiatives in Blockchain in Energy
40. Electron: Project Portfolio
41. Energy Web Foundation: Blockchain-based
Solutions Portfolio
42. Grid Plus, Inc.: Project Portfolio
43. IBM Corporation: Product Portfolio
44. LO3 Energy, Inc: Project Portfolio
45. Microsoft Corporation: Product Portfolio
46. Ondiflo: Use Cases
47. Oracle Corporation: Product Portfolio
48. Power Ledger: Project Portfolio
49. SP Group: Initiatives in Energy Blockchain
50. Tokyo Electric Power Company Holdings:
Projects and Investments in Blockchain
4. sales@bisresearch.com | www.bisresearch.com
1. Factors Affecting the Global Blockchain in
Energy Market
2. Global Blockchain in Energy Market Snapshot
3. Global Blockchain in Energy Market
(by Blockchain Type), 2019-2024, ($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
5. sales@bisresearch.com | www.bisresearch.com
– 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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