美国MaaS（微电网即服务）市场规模、份额和趋势分析报告：按电网类型、服务类型和细分市场预测，2025-2030 年

美国MaaS（微电网即服务）市场趋势：

预计到 2024 年，美国微电网即服务 (MaaS) 市场规模将达到 9.532 亿美元，2025 年至 2030 年的复合年增长率为 12.0%。

市场成长的驱动力源于对可再生能源整合日益增长的需求、对弹性电力基础设施的需求以及政府的支持性政策和奖励。 MaaS（微电网即服务）是承包解决方案，涵盖微电网的设计、安装、营运和维护，无需领先资本投入即可提供能源可靠性和弹性。它主要部署在工业、商业、军事和教育机构等领域。此模式支持脱碳目标，提高电网独立性，并改善能源成本的可预测性。

2023年1月，AlphaStruxure宣布了一项协议，将在约翰·F·甘乃迪国际机场建设、设计和运营微电网基础设施。新一号航站楼（NTO）的微电网基础设施将提供弹性、永续、成本可预测且本地生产的能源。

在能源基础设施领域，微电网即服务 (MaaS) 已成为提供可靠、高效且弹性电力解决方案的关键，尤其适用于医院、军事基地、大学和资料中心等关键设施。 MaaS 使这些设施能够在停电和高峰需求期间独立于主电网运作，确保持续运作和能源安全。涵盖从设计到安装、资金筹措和维护等各环节的承包模式，消除了前期投资需求，并使先进的能源系统更容易取得。人们对气候适应能力的日益关注、电网基础设施的老化以及对不间断电源日益增长的需求，正在推动公共和私营部门采用 MaaS。

在商业和工业环境中，MaaS 透过整合太阳能、风能和电池储能等可再生能源来支持脱碳目标。这使企业能够优化能源使用，减少温室气体排放，并实现企业永续性目标。 MaaS 系统也透过抑低尖峰负载、需量反应和负载最佳化来管理能源成本。此模式提供可预测的长期营运成本，并协助企业从资本密集型模式转向以服务为基础的能源策略。

微电网也在服务不足和偏远地区得到应用，因为这些地区无法扩展传统电网。行动旅游即服务 (MaaS) 供应商正在提供可扩展的本地电力系统，以支援经济发展并改善生活品质。数位能源管理平台、基于人工智慧的控制系统和电池效率等技术进步正在加速 MaaS 的普及，并使其更具适应性和数据驱动性。

目录

第一章调查方法与范围

第二章执行摘要

第三章美国微电网即服务 (MaaS) 市场变数、趋势与范围

• 市场展望
  • 母市场展望
  • 相关市场展望
• 产业价值链分析
• 法律规范
• 市场动态
  • 市场驱动因素分析
  • 市场限制因素分析
  • 产业挑战
  • 行业机会
• 产业分析工具
  • 波特五力分析
  • 宏观环境分析

第四章美国微电网即服务 (MaaS) 市场：按电网类型进行的估算和趋势分析

• 细分仪表板
• 美国微电网即服务 (MaaS) 市场：2024 年和 2030 年按电网类型分類的趋势分析和市场占有率
• 岛
• 并联型

第五章美国微电网即服务 (MaaS) 市场：按服务类型进行的估算和趋势分析

• 细分仪表板
• 美国微电网即服务 (MaaS) 市场：2024 年和 2030 年按服务类型分類的趋势分析和市场占有率
• SaaS（Software as a Service）
• 监控服务
• 维运服务

第六章美国MaaS（微电网即服务）市场：竞争格局

• 主要市场参与企业的近期趋势和影响分析
• 公司分类
• 公司热图
• Position Analysis, 2024
• 战略地图
  • 扩张
  • 合併与收购
  • 伙伴关係和合作
• 公司简介
  • ABB Ltd.
  • Aggreko
  • AlphaStruxure
  • Ameresco
  • Anbaric Development Partners, LLC.
  • Eaton
  • General Electric Company
  • Parento Energy
  • PowerSecure, Inc.
  • Schneider Electric
  • Siemens
  • Spirae, LLC

U.S. Microgrid As A Service Market Trends:

The U.S. microgrid as a service market size was valued at USD 953.2 million in 2024 and is projected to grow at a CAGR of 12.0% from 2025 to 2030. The market growth is being driven by increasing demand for renewable energy integration, the need for resilient power infrastructure, and supportive government policies and incentives. Microgrid as a service is a turnkey solution that includes design, installation, operation, and maintenance of microgrids, providing energy reliability and resilience without the need for upfront capital investment. It is primarily deployed across sectors such as industrial, commercial, military, and educational institutions. This model supports decarbonization goals, enhances grid independence, and improves energy cost predictability.

In January 2023, AlphaStruxure announced an agreement to construct, design, and operate microgrid infrastructure at the John F. Kennedy International Airport. The microgrid infrastructure at New Terminal One (NTO) will provide resilient, sustainable, cost-predictable, and locally generated energy.

In the energy infrastructure sector, microgrid as a service (MaaS) has become essential for delivering reliable, efficient, and resilient power solutions, especially for critical facilities such as hospitals, military bases, universities, and data centers. MaaS enables these institutions to operate independently from the main grid during outages or peak demand, ensuring continuous operation and energy security. Its turnkey model-covering design, installation, financing, and maintenance-eliminates upfront capital requirements, making advanced energy systems more accessible. Rising concerns over climate resilience, aging grid infrastructure, and increasing demand for uninterrupted power drive widespread MaaS adoption in both public and private sectors.

In commercial and industrial settings, MaaS supports decarbonization goals by integrating renewable energy sources such as solar, wind, and battery storage. It allows companies to optimize energy use, reduce greenhouse gas emissions, and meet corporate sustainability targets. MaaS systems also manage energy costs through peak shaving, demand response, and load optimization. The model offers predictable long-term operating expenses, enabling businesses to shift from a capital-intensive model to a service-based energy strategy.

Microgrids are also being adopted in underserved or remote communities, where traditional grid expansion is impractical. MaaS providers offer scalable, localized power systems that support economic development and improve quality of life. Technological advancements in digital energy management platforms, AI-based control systems, and battery efficiency are accelerating MaaS deployment, making it more adaptive and data-driven.

U.S. Microgrid As A Service Market Report Segmentation

This report forecasts revenue growth at U.S. level and provides an analysis of the latest industry trends in each of the sub-segments from 2018 to 2030. For this study, Grand View Research has segmented the U.S. microgrid as a service industry report based on grid type and service type.

• Grid Type Outlook (Revenue, USD Million, 2018 - 2030)
• Islanded
• Grid Connected
• Service Type Outlook (Revenue, USD Million, 2018 - 2030)
• Software as a Service
• Monitoring & Control Service
• Operation & Maintain Service

Table of Contents

Chapter 1. Methodology and Scope

• 1.1. Market Segmentation & Scope
• 1.2. Market Definition
• 1.3. Information Procurement
  • 1.3.1. Purchased Database
  • 1.3.2. GVR's Internal Database
  • 1.3.3. Secondary Raw Materials & Third-Party Perspectives
  • 1.3.4. Primary Research
• 1.4. Information Analysis
  • 1.4.1. Data Analysis Models
• 1.5. Market Formulation & Data Visualization
• 1.6. Data Validation & Publishing

Chapter 2. Executive Summary

• 2.1. Market Snapshot
• 2.2. Segment Snapshot
• 2.3. Competitive Landscape Snapshot

Chapter 3. U.S. Microgrid as a Service Market Variables, Trends & Scope

• 3.1. Market Lineage Outlook
  • 3.1.1. Parent Market Outlook
  • 3.1.2. Related Market Outlook
• 3.2. Industry Value Chain Analysis
• 3.3. Regulatory Framework
• 3.4. Market Dynamics
  • 3.4.1. Market Driver Analysis
  • 3.4.2. Market Restraint Analysis
  • 3.4.3. Industry Challenges
  • 3.4.4. Industry Opportunities
• 3.5. Industry Analysis Tools
  • 3.5.1. Porter's Five Forces Analysis
  • 3.5.2. Macro-environmental Analysis

Chapter 4. U.S. Microgrid as a Service Market: Grid Type Estimates & Trend Analysis

• 4.1. Segment Dashboard
• 4.2. U.S. Microgrid as a Service Market: Grid Type Movement Analysis & Market Share, 2024 & 2030
• 4.3. Islanded
  • 4.3.1. Islanded Market Revenue Estimates and Forecasts, 2018 - 2030 (USD Million)
• 4.4. Grid Connected
  • 4.4.1. Grid Connected Market Revenue Estimates and Forecasts, 2018 - 2030 (USD Million)

Chapter 5. U.S. Microgrid as a Service Market: Service Type Estimates & Trend Analysis

• 5.1. Segment Dashboard
• 5.2. U.S. Microgrid as a Service Market: Service Type Movement Analysis & Market Share, 2024 & 2030
• 5.3. Software as a Service
  • 5.3.1. Software as a Service Market Revenue Estimates and Forecasts, 2018 - 2030 (USD Million)
• 5.4. Monitoring & Control Service
  • 5.4.1. Monitoring & Control Service Market Revenue Estimates and Forecasts, 2018 - 2030 (USD Million)
• 5.5. Operation & Maintenance Service
  • 5.5.1. Operation & Maintenance Service Market Revenue Estimates and Forecasts, 2018 - 2030 (USD Million)

Chapter 6. U.S. Microgrid as a Service Market - Competitive Landscape

• 6.1. Recent Developments & Impact Analysis, By Key Market Participants
• 6.2. Company Categorization
• 6.3. Company Heat Map
• 6.4. Position Analysis, 2024
• 6.5. Strategy Mapping
  • 6.5.1. Expansion
  • 6.5.2. Mergers & Acquisition
  • 6.5.3. Partnerships & Collaborations
• 6.6. Company Profiles
  • 6.6.1. ABB Ltd.
    • 6.6.1.1. Participant's overview
    • 6.6.1.2. Financial performance
    • 6.6.1.3. Film Type benchmarking
    • 6.6.1.4. Recent developments
  • 6.6.2. Aggreko
    • 6.6.2.1. Participant's overview
    • 6.6.2.2. Financial performance
    • 6.6.2.3. Film Type benchmarking
    • 6.6.2.4. Recent developments
  • 6.6.3. AlphaStruxure
    • 6.6.3.1. Participant's overview
    • 6.6.3.2. Financial performance
    • 6.6.3.3. Film Type benchmarking
    • 6.6.3.4. Recent developments
  • 6.6.4. Ameresco
    • 6.6.4.1. Participant's overview
    • 6.6.4.2. Financial performance
    • 6.6.4.3. Film Type benchmarking
    • 6.6.4.4. Recent developments
  • 6.6.5. Anbaric Development Partners, LLC.
    • 6.6.5.1. Participant's overview
    • 6.6.5.2. Financial performance
    • 6.6.5.3. Film Type benchmarking
    • 6.6.5.4. Recent developments
  • 6.6.6. Eaton
    • 6.6.6.1. Participant's overview
    • 6.6.6.2. Financial performance
    • 6.6.6.3. Film Type benchmarking
    • 6.6.6.4. Recent developments
  • 6.6.7. General Electric Company
    • 6.6.7.1. Participant's overview
    • 6.6.7.2. Financial performance
    • 6.6.7.3. Film Type benchmarking
    • 6.6.7.4. Recent developments
  • 6.6.8. Parento Energy
    • 6.6.8.1. Participant's overview
    • 6.6.8.2. Financial performance
    • 6.6.8.3. Film Type benchmarking
    • 6.6.8.4. Recent developments
  • 6.6.9. PowerSecure, Inc.
    • 6.6.9.1. Participant's overview
    • 6.6.9.2. Financial performance
    • 6.6.9.3. Film Type benchmarking
    • 6.6.9.4. Recent developments
  • 6.6.10. Schneider Electric
    • 6.6.10.1. Participant's overview
    • 6.6.10.2. Financial performance
    • 6.6.10.3. Film Type benchmarking
    • 6.6.10.4. Recent developments
  • 6.6.11. Siemens
    • 6.6.11.1. Participant's overview
    • 6.6.11.2. Financial performance
    • 6.6.11.3. Film Type benchmarking
    • 6.6.11.4. Recent developments
  • 6.6.12. Spirae, LLC
    • 6.6.12.1. Participant's overview
    • 6.6.12.2. Financial performance
    • 6.6.12.3. Film Type benchmarking
    • 6.6.12.4. Recent developments

List of Tables

• Table 1 List Of Abbreviations
• Table 2 U.S. Macroeconomic Outlook
• Table 3 U.S. Microgrid as a Service Market Estimates and Forecasts by Grid Type, 2018 - 2030 (USD Million)
• Table 4 U.S. Microgrid as a Service Market Estimates and Forecasts by Service Type, 2018 - 2030 (USD Million)

List of Figures

• Fig. 1 Market Research Process
• Fig. 2 Data Triangulation Techniques
• Fig. 3 Primary Research Pattern
• Fig. 4 Market Research Approaches
• Fig. 5 QFD Modeling for Market Share Assessment
• Fig. 6 Information Procurement
• Fig. 7 Market Formulation and Validation
• Fig. 8 Data Validating & Publishing
• Fig. 9 Market Segmentation & Scope
• Fig. 10 US Microgrid as a Service Market Snapshot
• Fig. 11 Segment Snapshot (1/2)
• Fig. 12 Segment Snapshot (1/2)
• Fig. 13 Competitive Landscape Snapshot
• Fig. 14 Parent Market Outlook
• Fig. 15 US Microgrid as a Service Market Value, 2024 (USD Million)
• Fig. 16 US Microgrid as a Service Market - Value Chain Analysis
• Fig. 17 US Microgrid as a Service Market - Market Dynamics
• Fig. 18 US Microgrid as a Service Market - PORTER's Analysis
• Fig. 19 US Microgrid as a Service Market - PESTEL Analysis
• Fig. 20 US Microgrid as a Service Market Estimates & Forecasts, By Grid Type: Key Takeaways
• Fig. 21 US Microgrid as a Service Market Share, By Grid Type, 2024 & 2030
• Fig. 22 Islanded Market Estimates & Forecasts, 2018 - 2030 (USD Million)
• Fig. 23 Grid Connected Market Estimates & Forecasts, 2018 - 2030 (USD Million)
• Fig. 24 US Microgrid as a Service Market Estimates & Forecasts, By Service Type: Key Takeaways
• Fig. 25 US Microgrid as a Service Market Share, By Service Type, 2024 & 2030
• Fig. 26 Software as a Service Market Estimates & Forecasts, 2018 - 2030 (USD Million)
• Fig. 27 Monitoring & Control Service Market Estimates & Forecasts, 2018 - 2030 (USD Million)
• Fig. 28 Operation & Maintenance Service Market Estimates & Forecasts, 2018 - 2030 (USD Million)