清洁能源微电网市场预测-全球清洁能源微电网部署预测(2022-2031)
市场调查报告书
商品编码
1090231

清洁能源微电网市场预测-全球清洁能源微电网部署预测(2022-2031)

Clean Energy Microgrids Market Forecast - Global Clean Energy Microgrid Deployment Forecasts, 2022-2031

出版日期: | 出版商: Guidehouse Insights | 英文 52 Pages; 50 Tables, Charts & Figures | 订单完成后即时交付

价格

在极端天气、地震和野火等世界各地电网面临的威胁日益增加的情况下,微电网提供的弹性预计将提供非凡的价值。

本报告调查全球清洁能源微电网市场,并提供预测期内的市场预测和商业模式等信息。

目录

第 1 章执行摘要

  • 微电网清洁能源
  • 全球视野

第二章市场概述

  • 市场定义
  • 用于微电网的清洁能源 DER 选项
  • 清洁能源微电网配置
  • 市场促进因素
    • 降低储能成本
    • 微电网控制器功能升级
    • 模块化微电网的推进
    • 远程微电网推动柴油补偿
  • 市场壁垒
    • 在微电网中引入可再生能源的问题
    • 对复原力的价值缺乏共识
    • 需要简化互连程序
    • 控制器性能、成本、兼容性
  • 为微电网选择清洁能源 DER 选项的标准

第三章市场预测

  • 调查方法
  • 全球市场概览
    • 清洁能源微电网容量预测
    • 清洁能源微电网支出预测
    • 清洁能源微电网容量:按清洁能源构成
    • 清洁能源微电网支出:按商业模式分类
  • 区域市场概况
    • 北美
    • 欧洲
    • 亚太地区
    • 拉丁美洲
    • 中东/非洲

第 4 章结论/建议

第5章首字母缩略语列表

第6章目录

第 7 章图表

第八章调查范围、来源及调查方法、备忘

Product Code: MF-CEM-22

In response to emerging threats to power grids globally-extreme weather events, earthquakes, and wildfires-the resiliency that microgrids provide offers special value. Microgrids can enable the integration of mixed asset fleets of distributed energy resources (DER) at the distribution grid, so they can subsequently be controlled as an ensemble. DER can be aggregated and used optimally through the microgrid platform, which allows for enhanced energy resiliency and reliability.

However, not all microgrids are powered by clean energy. Previously, diesel-based generators were deployed as assets for providing backup power supply and ensuring power reliability, as were other fossil fuel sources such as propane and kerosene. While these generator types provide reliability, they do not contribute to carbon reduction. Reducing carbon emissions while ensuring energy resilience requires clean energy microgrids.

This Guidehouse Insights report provides a market forecast of the global deployment of clean energy microgrids over the period 2022-2031. Clean energy microgrids are segmented based on their composition into 50%-clean energy microgrids-assets that leverage the natural gas infrastructure for delivering power, such as microturbines and fuel cells-and 100%-clean energy microgrids, which deliver power via solar, wind, and storage. Guidehouse Insights further reports on the business models that are used for deploying the clean energy microgrids over the forecast period.

KEY QUESTIONS ADDRESSED:

  • What is driving the adoption of clean energy microgrids?
  • What market barriers are clean energy microgrids facing?
  • What are the key criteria for the selection and deployment of DER in clean energy microgrids?
  • How does the clean energy microgrid market vary by region?
  • What is the expected clean energy microgrid deployment capacity and spending in 2031?
  • How many clean energy microgrids will depend on natural gas infrastructure in 2031?
  • Which business models are expected to account for most of clean energy microgrid deployment in 2031?

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. Clean Energy Resources for Microgrids
  • 1.2. Global Outlook

2. Market Overview

  • 2.1. Market Definition
  • 2.2. Clean Energy DER Options for Microgrids
  • 2.3. Clean Energy Microgrid Configurations
  • 2.4. Market Drivers
    • 2.4.1. Energy Storage Cost Reduction
    • 2.4.2. Upgrades Made to Microgrid Controller Functionality
    • 2.4.3. Impetus for Modular Microgrids
    • 2.4.4. Remote Microgrids Facilitating Diesel Offsets
  • 2.5. Market Barriers
    • 2.5.1. Complications with Renewable Energy Deployment in Microgrids
    • 2.5.2. Lack of Consensus on the Value of Resiliency
    • 2.5.3. Need for Streamlined Interconnection Procedures
    • 2.5.4. Controller Performance, Costs, and Compatibility
  • 2.6. Selection Criteria of Clean Energy DER Options for Microgrids

3. Market Forecasts

  • 3.1. Methodology
  • 3.2. Global Market Overview
    • 3.2.1. Clean Energy Microgrid Capacity Forecast
    • 3.2.2. Clean Energy Microgrid Spending Forecast
    • 3.2.3. Clean Energy Microgrid Capacity by Clean Energy Composition
    • 3.2.4. Clean Energy Microgrid Spending by Business Model
  • 3.3. Regional Market Overview
    • 3.3.1. North America
    • 3.3.2. Europe
    • 3.3.3. Asia Pacific
    • 3.3.4. Latin America
    • 3.3.5. Middle East and Africa

4. Conclusions and Recommendations

5. Acronym and Abbreviation List

6. Table of Contents

7. Table of Charts and Figures

8. Scope of Study Sources and Methodology, Notes

LIST OF CHARTS AND FIGURES

  • Clean Energy Microgrids Capacity by Region, World Markets: 2022-2031
  • Clean Energy Microgrids Spending by Region, World Markets: 2022-2031
  • Clean Energy Microgrid Capacity by Percentage Clean, World Markets: 2022-2031
  • Clean Energy Microgrid Spending by Business Model, World Markets: 2022-2031
  • Clean Energy Microgrid Capacity by Percentage Clean, North America: 2022-2031
  • Clean Energy Microgrid Spending by Business Model, North America: 2022-2031
  • Clean Energy Microgrid Capacity by Percentage Clean, Europe: 2022-2031
  • Clean Energy Microgrid Spending by Business Model, Europe: 2022-2031
  • Clean Energy Microgrid Capacity by Percentage Clean, Asia Pacific: 2022-2031
  • Clean Energy Microgrid Spending by Business Model, Asia Pacific: 2022-2031
  • Clean Energy Microgrid Capacity by Percentage Clean, Latin America: 2022-2031
  • Clean Energy Microgrid Spending by Business Model, Latin America: 2022-2031
  • Clean Energy Microgrid Capacity by Percentage Clean, Middle East & Africa: 2022-2031
  • Clean Energy Microgrid Spending by Business Model, Middle East & Africa: 2022-2031
  • Sample DER Assets for Microgrids with Point of Common Coupling
  • Technology Maturation Index for DER

LIST OF TABLES

  • Clean Energy Microgrids Capacity by Region, World Markets: 2022-2031
  • Clean Energy Microgrids Spending by Region, World Markets: 2022-2031
  • Clean Energy Microgrid Capacity by Percentage Clean, World Markets: 2022-2031
  • Clean Energy Microgrid Spending by Percentage Clean, World Markets: 2022-2031
  • Clean Energy Microgrid Capacity by Business Model, World Markets: 2022-2031
  • Clean Energy Microgrid Spending by Business Model, World Markets: 2022-2031
  • Clean Energy Microgrid Capacity by Percentage Clean, North America: 2022-2031
  • Clean Energy Microgrid Spending by Percentage Clean, North America: 2022-2031
  • Clean Energy Microgrid Capacity by Business Model, North America: 2022-2031
  • Clean Energy Microgrid Spending by Business Model, North America: 2022-2031
  • Clean Energy Microgrid Capacity by Percentage Clean, Europe: 2022-2031
  • Clean Energy Microgrid Spending by Percentage Clean, Europe: 2022-2031
  • Clean Energy Microgrid Capacity by Business Model, Europe: 2022-2031
  • Clean Energy Microgrid Spending by Business Model, Europe: 2022-2031
  • Clean Energy Microgrid Capacity by Percentage Clean, Asia Pacific: 2022-2031
  • Clean Energy Microgrid Spending by Percentage Clean, Asia Pacific: 2022-2031
  • Clean Energy Microgrid Capacity by Business Model, Asia Pacific: 2022-2031
  • Clean Energy Microgrid Spending by Business Model, Asia Pacific: 2022-2031
  • Clean Energy Microgrid Capacity by Percentage Clean, Latin America: 2022-2031
  • Clean Energy Microgrid Spending by Percentage Clean, Latin America: 2022-2031
  • Clean Energy Microgrid Capacity by Business Model, Latin America: 2022-2031
  • Clean Energy Microgrid Spending by Business Model, Latin America: 2022-2031
  • Clean Energy Microgrid Capacity by Percentage Clean, Middle East & Africa: 2022-2031
  • Clean Energy Microgrid Spending by Percentage Clean, Middle East & Africa: 2022-2031
  • Clean Energy Microgrid Capacity by Business Model, Middle East & Africa: 2022-2031
  • Clean Energy Microgrid Spending by Business Model, Middle East & Africa: 2022-2031
  • Biomass Steam Turbine SWOT Analysis
  • Energy Storage SWOT Analysis
  • Fuel Cell SWOT Analysis
  • Hydro SWOT Analysis
  • Solar PV SWOT Analysis
  • Wind SWOT Analysis
  • Microturbine SWOT Analysis
  • Natural Gas Genset SWOT Analysis