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世界の送配電繰延のエネルギー貯蔵の市場分析と予測:送配電繰延のための中央集中型と分散型のエネルギー貯蔵システム

Energy Storage for Transmission and Distribution Deferral

Centralized and Distributed Energy Storage Systems for T&D Deferral: Global Market Analysis and Forecasts

 

出版社 出版年月電子媒体価格ページ数図表数
Navigant Research
ナビガントリサーチ
2017年9月US$3,800
1-5ユーザライセンス(PDF+Excel)
49 37

サマリー

米国調査会社ナビガントリサーチ(Navigant Research)の調査レポートの調査レポート「世界の送配電繰延のエネルギー貯蔵の市場分析と予測:送配電繰延のための中央集中型と分散型のエネルギー貯蔵システム」は、世界の送配電更新の繰延と資産の最適化を提供するエネルギー貯蔵システムの市場動向と市場力学について分析している。エネルギー貯蔵の優位点と、主要市場促進要因と阻害要因を査定している。2026年までの世界の容量と収益を送電資産最適化、配電資産最適化、ビハインド・ザ・メータストレージ(蓄電池併設電気メータ)の市場セグメント毎と地域毎に区分して予測している。T&D繰延のエネルギー貯蔵に関するコストと利点について述べ、代表的なケーススタディを紹介している。

目次(抜粋)

  • 世界の送配電繰延のエネルギー貯蔵の市場動向
  • 市場促進要因と阻害要因、送配電繰延のエネルギー貯蔵と資産の最適化、ケーススタディ
  • 市場予測

Deferring upgrades to transmission and distribution (T&D) infrastructure has emerged as one of the principal benefits of stationary energy storage technology. This trend is evidenced by the growing number of new projects being developed around the world. Energy storage for T&D upgrade deferral, also known as T&D asset optimization, deals with ensuring that electricity transmission lines, substations, and other equipment have enough bandwidth to handle peak demand and maximize reliability. Energy storage systems (ESSs) deployed to serve this application are often installed as an alternative to investing in new infrastructure such as feeder lines and substations.

Building new T&D infrastructure has been the default solution to many issues facing the electricity grid for decades. These upgrades are needed to address load growth and rising peak demand, congestion on the network, and reliability issues. However, there are many challenges to upgrading grid infrastructure, particularly large-scale transmission projects. These challenges include concerns from local communities, the time required to develop and build projects, uncertainty around future load growth and demand patterns, and the rising costs to build new infrastructure in urban and remote areas. The falling costs of energy storage technology are making it an increasingly economical alternative to conventional T&D projects. According to Navigant Research, global installed energy storage power capacity for T&D deferral is expected to grow from 331.7 MW in 2017 to 14,324.8 MW in 2026.

This Navigant Research report examines the global trends and market dynamics for ESSs providing T&D deferral and asset optimization. The study includes an analysis of the advantages of energy storage over alternatives, along with the major drivers and barriers. Global market forecasts for capacity and revenue, broken out by market segment (transmission asset optimization, distribution asset optimization, and behind-the-meter storage) and region, extend through 2026. The report also examines the costs and benefits related to energy storage for T&D deferral, as well as notable case studies.

Key Questions Addressed:
  • What are the drivers, barriers, and trends in the market for energy storage for transmission and distribution (T&D) deferral?
  • Which regions are expected to be the first to adopt energy storage for T&D deferral?
  • What are the advantages of energy storage compared to conventional T&D projects?
  • What challenges do conventional T&D projects face?
  • How quickly will the use of energy storage for T&D deferral grow in regions around the world?
Who needs this report?
  • Energy storage/battery component suppliers
  • Energy storage project developers
  • Transmission and distribution (T&D) technology providers
  • T&D project developers
  • Solar and wind project developers
  • Utilities and grid operators
  • Government agencies
  • Investor community


目次

1. Executive Summary

1.1   Global Market Overview

1.1.1   Advantages of Energy Storage

1.1.2   Barriers to Adoption

1.2   Market Forecasts

2. Market Issues

2.1   Defining Energy Storage for Transmission and Distribution Deferral

2.2   T&D Upgrade Drivers

2.2.1   T&D Congestion and Generation Curtailment

2.2.2   Load and Demand Growth

2.2.3   Reliability

2.2.4   T&D Upgrade Costs

2.3   T&D Upgrade Barriers

2.3.1   Local Community Concerns

2.3.2   Time to Develop Projects

2.3.3   Shifting Demand Patterns and Uncertainty

2.3.4   Regulations

2.3.4.1   North America and Europe

2.3.4.2   Developing Countries

2.3.4.3   Alternatives

2.4   Energy Storage for T&D Deferral/Asset Optimization

2.4.1   Advantages of Storage vs. Other Upgrades

2.4.2   Costs and Benefits

2.4.3   Energy Storage for T&D Deferral Challenges

2.4.4   Centralized (Utility-Scale) Energy Storage for T&D Deferral

2.4.5   Distributed Energy Storage for T&D Deferral

2.5   Case Studies

2.5.1   Consolidated Edison Energy Storage Pilots

2.5.2   Terna Campania Project

2.5.3   SCE Plug-and-Play Grid Support

3. Market Forecasts

3.1   Methodology and Assumptions

3.2   Forecasts by Region

3.2.1   North America

3.2.2   Western Europe

3.2.3   Asia Pacific

3.2.4   Rest of the World

3.3   Conclusions and Recommendations

4. Acronym and Abbreviation List
5. Table of Contents
6. Table of Charts and Figures
7. Scope of Study, Sources and Methodology, Notes

List of Charts and Figures

  • Annual Installed Energy Storage Power Capacity for T&D Deferral by Region, World Markets: 2017-2026
  • Annual EV Charging Load Additions by Country, Select Countries: 2017-2026
  • Estimated Time to Develop T&D Projects by Location and Project Type, Select Countries: 3Q 2017 Estimates
  • Utility-Scale Energy Storage System CAPEX Assumptions by Technology, Bulk Storage Applications, Global Averages, World Markets: 2017-2026
  • Annual Installed Energy Storage for T&D Deferral Power Capacity and Deployment Revenue by Market Segment, North America: 2017-2026
  • Annual Installed Energy Storage for T&D Deferral Power Capacity and Deployment Revenue by Market Segment, Western Europe: 2017-2026
  • Annual Installed Energy Storage for T&D Deferral Power Capacity and Deployment Revenue by Market Segment, Asia Pacific: 2017-2026
  • Annual Installed Energy Storage for T&D Deferral Power Capacity and Deployment Revenue by Market Segment, Rest of World: 2017-2026
  • Annual Installed Energy Storage for T&D Deferral Power Capacity and Deployment Revenue by Market Segment, Eastern Europe: 2017-2026
  • Annual Installed Energy Storage for T&D Deferral Power Capacity and Deployment Revenue by Market Segment, Latin America: 2017-2026
  • Annual Installed Energy Storage for T&D Deferral Power Capacity and Deployment Revenue by Market Segment, Middle East: 2017-2026
  • Annual Installed Energy Storage for T&D Deferral Power Capacity and Deployment Revenue by Market Segment, Africa: 2017-2026
  • Transmission and Distribution Breakdown
  • Average Wind Curtailment Rates by Chinese Province: 2015
  • Electricity Use Growth Rate, United States: 1960-2040
  • Dominion Power Transmission Line Approval Process
  • Value of a Non-Wire Alternative or Energy Storage/DER Approach to Defer T&D Upgrade
  • Services Provided by Energy Storage on the Grid by Stakeholder Group
  • Illustration of Terna and NGK’s Campania Project

List of Tables

  • Incremental T&D Expansion Cost for New Peak Load, Utilities in Select US Regions: 2009 Estimates
  • Summary of T&D Challenges and ESS Benefits
  • Estimated Incremental T&D Expansion Cost for New Peak Load, Utilities in Select US Regions, 2009 Estimates
  • Utility-Scale Energy Storage System CAPEX Assumptions by Technology, Bulk Storage Applications, Global Averages, World Markets: 2017-2026
  • Estimated T&D Infrastructure and Outlook by Country and Metric, Select Countries: 2017-2022
  • Annual EV Charging Load Additions by Country, Select Countries: 2017-2026
  • Sample T&D Projects and Details: As of 3Q 2017
  • Estimated Time to Develop T&D Projects by Location and Project Type, Select Countries: 3Q 2017 Estimates
  • Applicable Storage Technologies for T&D Deferral Projects
  • Annual Installed Energy Storage Power Capacity for T&D Deferral by Region, World Markets: 2017-2026
  • Annual Installed Energy Storage Power Capacity for T&D Deferral by Market Segment, World Markets: 2017-2026
  • Annual Installed Energy Storage Energy Capacity for T&D Deferral by Region, World Markets: 2017-2026
  • Annual Installed Energy Storage Energy Capacity for T&D Deferral by Market Segment, World Markets: 2017-2026
  • Annual Installed Energy Storage Deployment Revenue for T&D Deferral by Region, World Markets: 2017-2026
  • Annual Installed Energy Storage Deployment Revenue for T&D Deferral by Market Segment, World Markets: 2017-2026
  • Annual Installed Energy Storage Power Capacity for T&D Deferral by Market Segment and Region, World Markets: 2017-2026
  • Annual Installed Energy Storage Energy Capacity for T&D Deferral by Market Segment and Region, World Markets: 2017-2026
  • Annual Installed Energy Storage Deployment Revenue for T&D Deferral by Market Segment and Region, World Markets: 2017-2026

 

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プレスリリース

[プレスリリース原文]

Annual Installed Energy Storage Capacity for Transmission and Distribution Deferral Expected to Near 15 Gigawatts by 2026

Report finds proven benefits of using energy storage to defer or avoid transmission and distribution investments

 

October 10, 2017

A new report from Navigant Research analyzes the global market dynamics for energy storage systems (ESSs) that provide transmission and distribution (T&D) deferral and asset optimization.

Historically, building new T&D infrastructure was the default solution to issues facing the electricity grid, including increased load growth or waning reliability. Today, stationary energy storage technology can be used to defer upgrades for these types of issues—and in a faster and less expensive manner.  According to a new report from Navigant Research, global installed energy storage power capacity for T&D deferral is expected to grow from 331.7 MW in 2017 to 14,324.8 MW in 2026.

“The major advantage energy storage has compared to conventional T&D upgrades results from the flexibility related to how storage systems can be deployed and the variety of services they can provide,” says Alex Eller, research analyst with Navigant Research. “Unlike most grid infrastructure systems, ESSs can be deployed in small, modular increments as needed to serve growing demand with limited risk of oversizing or stranding assets.”

These types of deployments are expected to increase in coming years as they bypass many of the typical challenges associated with large-scale transmission projects, including community concerns, timelines around project development and build, as well as uncertainty around future load growth and demand patterns. As the cost of energy storage technology continues to decrease, these deployments are becoming an increasingly economical alternative to conventional T&D investments.

The report, Energy Storage for Transmission and Distribution Deferral, examines the global trends and market dynamics for ESSs providing T&D deferral and asset optimization. The study includes an analysis of the advantages of energy storage over alternatives, along with the major drivers and barriers. Global market forecasts for capacity and revenue, broken out by market segment (transmission asset optimization, distribution asset optimization, and behind-the-meter storage) and region, extend through 2026. The report also examines the costs and benefits related to energy storage for T&D deferral, as well as notable case studies.

 

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