提高电网弹性：现代可靠电力系统的新兴技术

下一代技术趋势：提高电网电力系统稳定性的应用

旨在提高电网弹性的新兴技术正在迅速发展，这得益于对能源系统可靠性、效率和永续性更高需求的推动。技术创新、不断增长的能源需求以及再生能源来源的引入，为公用事业公司采用创新解决方案以实现更具适应性的电网提供了强大的动力。全球智慧电网市场预计将以11.4%的复合年增长率成长，从2024年的713.4亿美元增至2032年的2,164亿美元。电网弹性细分市场预计将以13.3%的复合年增长率成长，从2024年的200.2亿美元增至2032年的796.8亿美元。极端天气事件频繁、基础设施老化以及日益严重的网路安全威胁推动电网弹性技术的发展，所有这些都需要强大的解决方案来确保可靠的电力供应。此外，可再生能源的整合、监管要求以及向分散式能源系统的转变也进一步推动了其应用。西门子能源股份公司、通用电气 (GE)、施耐德电气、日立能源和伊顿是提供电网弹性技术的主要供应商。

本研究分析了电网弹性领域的关键技术，包括相计量单元 (PMU)、高压直流电 (HVDC)、分散式能源 (DER) 和需量反应管理系统 (DRMS)，并探讨了这些技术在提高电网弹性方面的有效性。

该研究检视了推动成长的因素，包括增加可再生能源整合、透过人工智慧和物联网加强电网管理以及能源储存创新，同时也提供了阻碍市场发展的观点以及这些因素将如何影响当前趋势和未来发展的检验。

此外，还提供了电网弹性领域的专利、创新概念、主要产业参与企业、金融投资和主要成长机会的全面概述。

目录

策略要务

• 为何成长变得越来越困难？
• The Strategic Imperative 8
• 三大策略要务对电网弹性新兴技术的影响
• 推动成长Growth Pipeline Engine（TM）机会

调查方法

成长机会分析

• 分析范围

成长引擎

• 成长动力
• 成长抑制因素

数位技术在电网系统中的影响、趋势、区域采用和应用

• 电网弹性：主要优势和重要性
• 电网稳定性的关键参数
• 提高电网弹性的新兴技术
• 电网弹性：技术比较分析
• 用于比较不同电网稳定性和强化技术的基准化分析参数
• 电网弹性新兴技术的未来方向
• 各国/地区电网及储能投资
• 电网基础设施投资：区域分析

创新生态系统

• 德国西门子能源股份公司
• 通用电气 GE，美国
• 其他值得关注的电网弹性解决方案供应商
• 专利情况
• 电网弹性解决方案供应商：资金筹措信息

提高电网弹性的成长机会领域：现代可靠电力系统的新兴技术

• 成长机会1：先进电力电子技术：提升电网稳定性
• 成长机会2：能源储存技术：提高电网弹性
• 成长机会3：电力系统中的 AI/ML：优化电网运营

附录

• 技术就绪程度 (TRL)：描述

后续步骤Next steps

• 成长机会的益处和影响
• 后续步骤Next steps
• 免责声明

Next-generation Technology Trends: Applications leading to stability enhancement of power grid systems

Emerging technologies aimed at improving grid resilience are rapidly evolving, driven by the need for improved reliability, efficiency, and sustainability in energy systems. Innovations in technology, growing energy demands, and the incorporation of renewable energy sources are strong incentives for utilities to implement creative solutions for more adaptive grids. The global smart grid market is expected to grow from $71.34 billion in 2024 to $216.40 billion by 2032, at a CAGR of 11.4%. Its grid resilience segment is expected to grow from $20.02 billion in 2024 to $79.68 billion in 2032, at a CAGR of 13.3%. Grid resilience technologies are driven by the growing frequency of extreme weather events, aging infrastructure, and rising cybersecurity threats, all of which demand robust solutions to ensure reliable power delivery. In addition, the integration of renewable energy, regulatory mandates, and the shift to distributed energy systems further propel their adoption. Siemens Energy AG, General Electric (GE), Schneider Electric, Hitachi Energy, and Eaton are some of the major vendors offering grid resilience technologies.

This study analyzes prominent technologies within the grid resilience sector, including phasor measurement units (PMUs), high-voltage direct current (HVDC), distributed energy resources (DERs), and demand response management systems (DRMS). It explores the effectiveness of these technologies in enhancing grid resilience.

The study examines the factors propelling growth, such as advancements in renewable energy integration, enhanced grid management through AI and IoT, and innovations in energy storage. It also offers perspectives on the challenges hindering market progress and how these elements influence current trends and future developments.

Moreover, the study provides a comprehensive overview of patents, innovative concepts, key industry participants, financial investments, and significant opportunities for growth in the grid resilience space.

Emerging technologies aimed at improving grid resilience are rapidly evolving, driven by the need for improved reliability, efficiency and sustainability in energy systems. Innovations in technology, growing energy demands, and the incorporation of renewable energy sources are a strong incentive for utilities to implement creative solutions for more adaptive grids.

The increasing deployment of energy storage systems is significantly enhancing grid resilience by offering dependable backup during outages and facilitating the integration of renewable energy sources. These systems promote superior energy management, lower operational expenses, and bolster grid stability, thereby fostering greater operational efficiency and long-term sustainability.

Decentralized grid technologies, such as microgrids and distributed energy resources (DERs), are transforming the methods of energy production and distribution. These systems provide local and flexible energy solutions, enhancing grid security, minimizing transmission losses and improving resilience against natural disasters or supply interruptions.

Advanced sensors and real-time monitoring technologies transform grid operations by enabling more accurate fault detection and predictive maintenance. Using continuous data collection, these technologies enable utilities to respond more quickly to problems, improve grid performance and minimize downtime, thereby ensuring consistent and reliable power supply.

The analysis explores developments in key emerging technologies and their impact on grid resilience. It includes the following modules:

• Role of the key emerging technologies on grid resilience
• Technologies comparative analysis
• Key Company Profiles
• Regional developments, patents, and funding
• Future roadmap
• Growth opportunities

Table of Contents

Strategic Imperatives

• Why Is It Increasingly Difficult to Grow?
• The Strategic Imperative 8
• The Impact of the Top 3 Strategic Imperatives on Emerging Technologies for Grid Resilience
• Growth Opportunities Fuel the Growth Pipeline Engine

Research Methodology

Growth Opportunity Analysis

• Scope of Analysis

Growth Generator

• Growth Drivers
• Growth Restraints

Impact of Digital Technologies, Trends, Regional Adoption, and Applications in Power Grid Systems

• Power Grid Resilience: Key Benefits and Importance
• Prominent Parameters Used to Express Grid Stability
• Emerging Technologies for Enhancing Grid Resilience
• Grid Resilience: Technology Comparative Analysis
• Benchmarking Parameters Used for Comparison of Various Grid Stability-enhancing Technologies
• Future Direction of Emerging Technologies for Power Grid Resilience
• Investment in Power Grids and Storage, by Country/Region
• Grid Infrastructure Investments: Geographic Analysis

Innovation Ecosystem

• Siemens Energy AG, Germany
• General Electric GE, US
• Other Prominent Grid Resilience Solution Providers
• Patent Landscape
• Grid Resilience Solution Providers: Funding Information

Growth Opportunity Universe in Enhancing Grid Resilience: Emerging Technologies for Modern and Reliable Power Systems

• Growth Opportunity 1: Advanced Power Electronics: Enhancing Grid Stability
• Growth Opportunity 2: Energy Storage Technologies: Boosting Grid Resilience
• Growth Opportunity 3: AI/ML in Power Systems: Optimizing Grid Operations

Appendix

• Technology Readiness Levels TRL: Explanation

Next Steps

• Benefits and Impacts of Growth Opportunities
• Next Steps
• Legal Disclaimer