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エネルギー産業向けブロックチェーンの世界市場:サプライチェーン・発電・卸売・配電・小売・BTM部門

Energy Blockchain Applications Overview: Global Forecasts for Supply Chain, Generation, Wholesale, Distribution, Retail, and Behind-the-Meter Segments for World Markets

発行 Navigant Research 商品コード 910672
出版日 ページ情報 英文 73 Pages; 21 Tables, Charts & Figures
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エネルギー産業向けブロックチェーンの世界市場:サプライチェーン・発電・卸売・配電・小売・BTM部門 Energy Blockchain Applications Overview: Global Forecasts for Supply Chain, Generation, Wholesale, Distribution, Retail, and Behind-the-Meter Segments for World Markets
出版日: 2019年09月10日 ページ情報: 英文 73 Pages; 21 Tables, Charts & Figures
概要

当レポートでは、世界のエネルギー産業向けブロックチェーンの市場を用途・部門別に調査し、ブロックチェーン技術の概要・特徴、エネルギー産業の各種用途・部門における重要性、部門・地域別の収益規模の推移と予測、主要企業のプロファイル、各種提言などをまとめています。

第1章 エグゼクティブサマリー

第2章 ブロックチェーン技術の機能・制約

  • ブロックチェーン:サードパーティの役割の自動化
    • コンセンサスアルゴリズム:ブロックチェーンアーキテクチャの主要コンポーネント
    • ブロックチェーンデータ構造:データ間の暗号化リンクを創出
  • ブロックチェーンベースソリューションの4つのコンポーネント
    • ハードウェア
    • プロトコル
    • プラットフォーム
    • アプリケーション

第3章 エネルギーバリューチェーンにおけるブロックチェーンの役割

  • エネルギー商品のサプライチェーンにおけるブロックチェーンの用途
  • 発電部門向けブロックチェーン技術
    • 発電資産ファイナンシング
    • 発電資産管理
  • 卸売部門向けブロックチェーン技術
    • 卸売電力取引・決済
    • 原産地証明 (Certificates of Origin)
  • 小売部門向けブロックチェーン技術
    • ブロックチェーンベースのソリューション:電力供給コストの低下を推進
  • 新興配電市場におけるブロックチェーンの用途
  • BTM部門向けブロックチェーン技術
    • EV充電・グリッド統合
    • エネルギー管理システム・ホームオートメーション

第4章 主要企業

  • EWF
  • Hyperledger
  • Energy Blockchain Consortium
  • PONTON
  • Guardtime
  • Xage Security
  • Siemens AG
  • sonnen
  • TenneT
  • Power Ledger
  • LO3 Energy
  • Verv
  • Filament
  • Electron
  • WePower
  • Drift
  • EtainPower
  • IBM
  • GridPlus

第5章 世界市場の分析・予測

  • 地域別
  • 部門別
  • 北米
  • 欧州
  • アジア太平洋
  • ラテンアメリカ
  • 中東・アフリカ

第6章 総論 ・提言

  • ブロックチェーン・分散型台帳の制約
    • データ精度
    • すべての用途に万能なアーキテクチャはない
    • 従来型データベースの代替にはならない
    • サイバー攻撃に弱いアーキテクチャ
    • エネルギーブロックチェーン規格の不足
  • ソリューションへのコミットメント
  • ブロックチェーン対応ハードウェア:大きな市場機会
  • 法規制:主要な成長抑制因子
  • ブロックチェーンから得られる効率性:既存企業のイノベーションを推進
  • 顧客獲得:ブロックチェーン企業の主要課題

第7章 略語

第8章 目次

第9章 図表

第10章 調査範囲・情報ソース・調査手法・注記

図表

List of Charts and Figures

  • Revenue from Energy Blockchain Applications by Region, World Markets: 2019-2028
  • Revenue from Energy Blockchain Applications by Segment, World Markets: 2019-2028
  • Revenue from Energy Blockchain Applications by Segment, North America: 2019-2028
  • Revenue from Energy Blockchain Applications by Segment, Europe: 2019-2028
  • Revenue from Energy Blockchain Applications by Segment, Asia Pacific: 2019-2028
  • Revenue from Energy Blockchain Applications by Segment, Latin America: 2019-2028
  • Revenue from Energy Blockchain Applications by Segment, Middle East& Africa: 2019-2028
  • Simplified Models for Centralized vs. Decentralized Information Management
  • A Blockchain Data Structure
  • The Blockchain Architecture Pyramid
  • Key Revenue Streams and Components of Blockchain-Based Solutions
  • Blockchain's Role in a Decentralized Electricity System
  • Energy Blockchain Use Cases Across the Energy and Power Industries

List of Tables

  • Sample Inputs to a Common Hashing Function and Their Outputs
  • Revenue from Energy Blockchain Applications by Region, World Markets: 2019-2028
  • Revenue from Energy Blockchain Applications by Segment, World Markets: 2019-2028
  • Revenue from Energy Blockchain Applications by Segment, North America: 2019-2028
  • Revenue from Energy Blockchain Applications by Segment, Europe: 2019-2028
  • Revenue from Energy Blockchain Applications by Segment, Asia Pacific: 2019-2028
  • Revenue from Energy Blockchain Applications by Segment, Latin America: 2019-2028
  • Revenue from Energy Blockchain Applications by Segment, Middle East & Africa: 2019-2028
目次
Product Code: MO-EBA-19

Blockchain is a rapidly evolving technology with many potential use cases in the energy industry. As the grid system becomes increasingly digital, distributed, and decentralized, new information technologies are needed to support interactions and transactions between grid participants. Blockchain is one of several distributed ledger technologies that could serve as a framework for these emerging markets. Blockchain provides a mathematical basis for information management and coordination across participants in a network. It minimizes the role of intermediaries and reduces transaction costs and friction.

Energy and power sector stakeholders are experimenting with blockchain technology along the energy value chain. This extends from supply chain transparency to asset financing, proof of origin for power generation, EV charging and grid integration, and transactive energy. Although a few energy blockchain products have been commercialized, most remain in the early stages of testing and business model development. Early growth is concentrated in regions with competitive market structures and low barriers to market entry in Europe, Asia Pacific, and parts of the US.

This Navigant Research report provides an overview of the developing market for energy blockchain applications. The study explores the blockchain market by region and segment, with examples of key use cases in each market. Global forecasts of energy blockchain revenue extend through 2028. The report also describes the components of a blockchain architecture and explores the competitive landscape and key challenges that must be addressed before blockchain can be widely adopted in the energy sector.

Key Questions Addressed:

  • What are the key components of a blockchain architecture?
  • How does blockchain technology affect the energy industry value chain?
  • How can blockchain technology support existing and emerging energy markets?
  • What are examples of successful trials of blockchain in the energy industry?
  • Who are some of the leading vendors of energy blockchain products and services?
  • What are the leading market and technology segments worldwide?

Who Needs This Report:

  • Energy technology companies
  • Distribution system operators
  • Energy market operators
  • Standards development associations
  • Investor community

Table of Contents

1. Executive Summary

  • 1.1. Introduction
  • 1.2. Outlook
  • 1.3. Energy Blockchain Applications Market Forecast

2. Features and Limitations of Blockchain Technology

  • 2.1. Blockchain Automates the Role of Third Parties
    • 2.1.1. Consensus Algorithms Are a Key Component of Blockchain Architectures
    • 2.1.2. A Blockchain Data Structure Creates Cryptographic Links Between Data
  • 2.2. Blockchain-Based Solutions Have Four Components
    • 2.2.1. Hardware
    • 2.2.2. Protocols
    • 2.2.3. Platforms
    • 2.2.4. Applications

3. The Role of Blockchain in the Energy Value Chain

  • 3.1. Blockchain Applications in the Energy Commodities Supply Chain
  • 3.2. Power Generation Applications for Blockchain Technology
    • 3.2.1. Generation Asset Financing
    • 3.2.2. Generation Asset Management
  • 3.3. Wholesale Market Applications for Blockchain Technology
    • 3.3.1. Wholesale Power Trading and Settlement
    • 3.3.2. Certificates of Origin
  • 3.4. Retail Market Applications for Blockchain Technology
    • 3.4.1. Blockchain-Based Solutions Drive Down the Cost of Supplying Power
  • 3.5. Blockchain Applications in Emerging Distribution-Level Markets
    • 3.5.1. TE and Local Energy Markets
  • 3.6. BTM Applications of Blockchain Technology
    • 3.6.1. EV Charging and Grid Integration
    • 3.6.2. Energy Management Systems and Home Automation

4. Key Industry Players

  • 4.1. EWF
  • 4.2. Hyperledger
  • 4.3. Energy Blockchain Consortium
  • 4.4. PONTON
  • 4.5. Guardtime
  • 4.6. Xage Security
  • 4.7. Siemens AG
  • 4.8. sonnen
  • 4.9. TenneT
  • 4.10. Power Ledger
  • 4.11. LO3 Energy
  • 4.12. Verv
  • 4.13. Filament
  • 4.14. Electron
  • 4.15. WePower
  • 4.16. Drift
  • 4.17. EtainPower
  • 4.18. IBM
  • 4.19. GridPlus

5. Global Market Forecasts

  • 5.1. Global Markets for Energy Blockchain Applications by Region
  • 5.2. Global Markets for Energy Blockchain Applications by Segment
  • 5.3. North America
  • 5.4. Europe
  • 5.5. Asia Pacific
  • 5.6. Latin America
  • 5.7. Middle East & Africa

6. Conclusions and Recommendations

  • 6.1. Blockchain and Distributed Ledgers Have Real Limitations
    • 6.1.1. Blockchain Cannot Verify Data Accuracy
    • 6.1.2. Not All Architectures Can Support All Applications
    • 6.1.3. Blockchain Is Not a Replacement for Traditional Databases
    • 6.1.4. Blockchain Architectures Are Vulnerable to Cyber Attacks
    • 6.1.5. Energy Blockchain Standards Are Necessary, Expected to Take Time
  • 6.2. Commit to Solutions, Not to Blockchain
  • 6.3. Blockchain-Enabled Hardware Is a Massive Market Opportunity
  • 6.4. Regulations Are a Key Constraint on Growth
  • 6.5. Efficiency Gains from Blockchain to Force Innovation from Incumbents
  • 6.6. Customer Acquisition Is a Central Challenge for Blockchain Companies

7. Acronym and Abbreviation List

8. Table of Contents

9. Table of Charts and Figures

10.Scope of Study, Sources and Methodology, Notes

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