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マイクログリッドのためのDER導入:各種DER技術の能力と収益に関する地域市場の予測

DER Deployments for Microgrids: Regional Market Forecasts on Capacity and Revenue for Nine DER Technologies

出版日: | 発行: Guidehouse Insights (formerly Navigant Research) | ページ情報: 英文 61 Pages; 47 Tables, Charts & Figures | 納期: 即納可能 即納可能とは

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マイクログリッドのためのDER導入:各種DER技術の能力と収益に関する地域市場の予測
出版日: 2020年08月12日
発行: Guidehouse Insights (formerly Navigant Research)
ページ情報: 英文 61 Pages; 47 Tables, Charts & Figures
納期: 即納可能 即納可能とは
  • 全表示
  • 概要
  • 図表
  • 目次
概要

マイクログリッドの導入を促している要因は、さまざまな分散型エネルギー資源(DER)の成長です。 DERを集約し、最適化する手段の1つであるマイクログリッドプラットフォームは、これまでにないレベルの回復力と信頼性を実現するもので、世界の電力網、極端な気象現象、地震、山火事、テロの脅威などに対処するうえで高い価値を有しています。またマイクログリッドは、多様なDERを配電網レベルで調整する際にも有効です。このプラットフォームは、適切な制御技術を使することで、マイクログリッドのユーザーに利益をもたらすだけでなく、大規模な送電網の上流部門にも利益をもたらすことができます。

当レポートは、マイクログリッドのためのDER導入について調査したもので、市場の課題、技術の課題、主要企業のプロファイル、今後の市場予測などの情報を提供しています。

目次

第1章 エグゼクティブサマリー

  • マイクログリッドのための分散型エネルギー資源
  • 市場予測

第2章 市場の問題

  • マイクログリッドの定義、政策の動向、技術標準
  • DER技術に対する各国政府支援構造の変化
    • 市場の成長要因
    • 市場の障壁
  • 主要な技術標準
    • Underwriters Laboratories 1741グリッドデバイスの安全標準
    • IEEE 1547標準シリーズ
    • エネルギー貯蔵に関するIEEE規格
    • DOEマイクログリッドコントローラーの標準
    • 送配電システムと相互運用性に関する国際電気標準会議の標準
    • EMerge Allianceの直流標準
  • マイクログリッドに対する政策面の支援
    • 主要国の市場

第3章 技術の問題

  • DERインベントリーと価値の分析
    • バイオマス
    • ディーゼル発電機
    • エネルギー貯蔵
    • 燃料電池
    • 水力
    • マイクロタービン
    • 天然ガス発電機
    • 太陽光発電
    • 風力
  • マイクログリッドに対応する各種DER技術の評価

第4章 主な企業

  • DERマイクログリッドのイノベーター
    • バイオマス-Husk Power
    • ディーゼル発電機-PowerSecure
    • エネルギー貯蔵-Tesla Energy
    • 燃料電池-Bloom Energy
    • マイクロタービン-Capstone Turbine Corporation
    • 天然ガス発電機-Tecogen
    • ハイドロ-BladeRunner Energy
    • 太陽光発電-REC Solar
    • 風力タービン-Bergey Windpower

第5章 市場予測

  • 予測方法
    • マイクログリッドの能力
    • DER資産の収益
  • DERM:技術セグメント予測
  • DERMインベントリーの予測
    • バイオマス蒸気タービン
    • ディーゼル発電機
    • エネルギー貯蔵
    • 燃料電池
    • 水力
    • マイクロタービン
    • 天然ガス発電機
    • 太陽光発電
    • 風力
  • 結論・提言

第6章 頭字語と略語リスト

第7章 目次

第8章 図表

第9章 調査範囲、情報源、 調査手法、注記

図表

LIST OF CHARTS AND FIGURES

  • Microgrid DER Capacity and Revenue by Region, World Markets: 2020-2029
  • Selected DER Capacity by Technology, World Markets: 2020
  • Selected DER Capacity by Technology, World Markets: 2029
  • Annual Biomass Microgrid Capacity and Revenue by Region, World Markets: 2020-2029
  • Annual Diesel Genset Microgrid Capacity and Revenue by Region, World Markets: 2020-2029
  • Annual Energy Storage Microgrid Capacity and Revenue by Region, World Markets: 2020-2029
  • Annual Fuel Cell Microgrid Capacity and Revenue by Region, World Markets: 2020-2029
  • Annual Hydro Microgrid Capacity and Revenue by Region, World Markets: 2020-2029
  • Annual Microturbine Microgrid Capacity and Revenue by Region, World Markets: 2020-2029
  • Annual Natural Gas Genset Microgrid Capacity and Revenue by Region, World Markets: 2020-2029
  • Annual Solar PV Microgrid Capacity and Revenue by Region, World Markets: 2020-2029
  • Annual Wind Microgrid Capacity and Revenue by Region, World Markets: 2020-2029
  • Microgrid: Networks of Static DER with Point of Common Coupling
  • Hierarchy of Grid Standards: PCC Is Where Microgrids Play
  • DERM Technology Maturation Index

LIST OF TABLES

  • Annual Total Microgrid Capacity by Region, Base Scenario, World Markets: 2020-2029
  • Annual Total Microgrid Revenue by Region, Base Scenario, World Markets: 2020-2029
  • Selected DER Capacity by Technology, World Markets: 2020
  • Selected DER Capacity by Technology, World Markets: 2029
  • Annual Biomass Microgrid Capacity by Region, World Markets: 2020-2029
  • Annual Biomass Microgrid Revenue by Region, World Markets: 2020-2029
  • Annual Diesel Genset Microgrid Capacity by Region, World Markets: 2020-2029
  • Annual Diesel Genset Microgrid Revenue by Region, World Markets: 2020-2029
  • Annual Energy Storage Microgrid Capacity by Region, World Markets: 2020-2029
  • Annual Energy Storage Microgrid Revenue by Region, World Markets: 2020-2029
  • Annual Fuel Cell Microgrid Capacity by Region, World Markets: 2020-2029
  • Annual Fuel Cell Microgrid Revenue by Region, World Markets: 2020-2029
  • Annual Hydro Microgrid Capacity by Region, World Markets: 2020-2029
  • Annual Hydro Microgrid Revenue by Region, World Markets: 2020-2029
  • Annual Microturbine Microgrid Capacity by Region, World Markets: 2020-2029
  • Annual Microturbine Microgrid Revenue by Region, World Markets: 2020-2029
  • Annual Natural Gas Genset Microgrid Capacity by Region, World Markets: 2020-2029
  • Annual Natural Gas Genset Microgrid Revenue by Region, World Markets: 2020-2029
  • Annual Solar PV Microgrid Capacity by Region, World Markets: 2020-2029
  • Annual Solar PV Microgrid Revenue by Region, World Markets: 2020-2029
  • Annual Wind Microgrid Capacity by Region, World Markets: 2020-2029
  • Annual Wind Microgrid Revenue by Region, World Markets: 2020-2029
  • Installed Cost Characteristics of DG for Microgrids: 2020
  • Biomass Steam Turbine SWOT Analysis
  • Diesel Gensets SWOT Analysis
  • Energy Storage SWOT Analysis
  • Fuel Cell SWOT Analysis
  • Hydro SWOT Analysis
  • Microturbine SWOT Analysis
  • Natural Gas Genset SWOT Analysis
  • Solar PV SWOT Analysis
  • Wind SWOT Analysis
目次
Product Code: MF-DERM-20

The driving force behind microgrid deployments is the growth in a wide variety of distributed energy resources (DER). As one of many options to aggregate and optimize DER, the microgrid platform allows for new levels of resilience and reliability. These options are of special value in light of emerging threats to global power grids, extreme weather events, earthquakes, wildfires, and terrorist threats. At the same time, microgrids can help organize mixed asset fleets of DER at the distribution network level. With the right set of controls technologies, this platform can not only offer value streams to site hosts and other microgrid customers but also provide value upstream to the larger grid. It is in this latter function that microgrids overlap with other networking platforms such as virtual power plants (VPPs) and DER management systems.

The availability of government support for microgrids is clearly affected by the design of incentives and subsidies for the gamut of available DER technologies that could be integrated into a microgrid. Support for DER assets will increase the viability of microgrids in any particular region. However, some forms of support can counterintuitively limit future microgrid applications. Furthermore, in some cases, a decline in subsidy support, particularly for renewable generation technologies, can surprisingly create incentives for microgrids.

This Guidehouse Insights report focuses on how each of the following nine DER assets are being deployed across each region of the world: biomass, diesel generation sets (gensets), energy storage, fuel cells, hydropower, microturbines, natural gas gensets, solar PV, and wind. This report provides capacity and revenue forecasts for these technologies from 2020 through 2029.

KEY QUESTIONS ADDRESSED:

  • Which DER technologies will be the most commonly deployed assets in 2020?
  • How does the mix of DER assets incorporated into microgrids change over time?
  • What are the key standards that affect microgrid integration with DER assets?
  • Why are solar PV and energy storage the leading DER choices for microgrids?
  • Which regions of the world lean toward which DER options?
  • Which DER technology is the leading source of revenue by 2029?
  • What is the total value of leading DER assets being rolled into microgrids in each year over the coming decade?

WHO NEEDS THIS REPORT:

  • Manufacturers of DER technologies
  • Energy storage vendors
  • Solar PV companies
  • Microgrid developers
  • Microgrid integrators
  • Utilities
  • Regulators
  • University researchers
  • Investor community

Table of Contents

1. Executive Summary

  • 1.1. Distributed Energy Resources for Microgrids
  • 1.2. Market Forecast

2. Market Issues

  • 2.1. Microgrid Definitions, Policy Trends, and Technology Standards
  • 2.2. Shifting Government Support Structures for DER Technologies
    • 2.2.1. Market Drivers
    • 2.2.2. Market Barriers
  • 2.3. Key Technology Standards
    • 2.3.1. Underwriters Laboratories 1741 Safety Standards for Grid Devices
    • 2.3.2. The IEEE 1547 Standards Series
    • 2.3.3. IEEE Standards for Energy Storage
    • 2.3.4. DOE Microgrid Controller Standards
    • 2.3.5. International Electrotechnical Commission Standards for T&D Systems and Interoperability
    • 2.3.6. EMerge Alliance Direct Current Standards
  • 2.4. Policy Support for Microgrids
    • 2.4.1. Top Country Markets

3. Technology Issues

  • 3.1. DER Inventory and Value Analysis
    • 3.1.1. Biomass
    • 3.1.2. Diesel Gensets
    • 3.1.3. Energy Storage
    • 3.1.4. Fuel Cells
    • 3.1.5. Hydropower
    • 3.1.6. Microturbines
    • 3.1.7. Natural Gas Gensets
    • 3.1.8. Solar PV
    • 3.1.9. Wind
  • 3.2. Assessing DER Options for Microgrid Applications

4. Key Industry Players

  • 4.1. DER Microgrid Innovators
    • 4.1.1. Biomass - Husk Power
    • 4.1.2. Diesel Gensets - PowerSecure
    • 4.1.3. Energy Storage - Tesla Energy
    • 4.1.4. Fuel Cells - Bloom Energy
    • 4.1.5. Microturbines - Capstone Turbine Corporation
    • 4.1.6. Natural Gas Gensets - Tecogen
    • 4.1.7. Hydro - BladeRunner Energy
    • 4.1.8. Solar PV - REC Solar
    • 4.1.9. Wind Turbines - Bergey Windpower

5. Market Forecasts

  • 5.1. Forecast Methodology
    • 5.1.1. Microgrid Capacity
    • 5.1.2. DER Asset Revenue
  • 5.2. DERM: Technology Segment Forecasts
  • 5.3. DERM Inventory Forecast
    • 5.3.1. Biomass Steam Turbines
    • 5.3.2. Diesel Gensets
    • 5.3.3. Energy Storage
    • 5.3.4. Fuel Cells
    • 5.3.5. Hydro
    • 5.3.6. Microturbines
    • 5.3.7. Natural Gas Gensets
    • 5.3.8. Solar PV
    • 5.3.9. Wind
  • 5.4. Conclusions and Recommendations

6. Acronym and Abbreviation List

7. Table of Contents

8. Table of Charts and Figures

9. Scope of Study, Sources and Methodology, Notes

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