機械能源儲存（MES）技術取得突破

長期能源儲存的進步增加了大規模可再生能源部署的未來成長潛力

本研究分析了機械能源儲存(MES) 技術的突破性進展。隨著可再生能源成本的下降，清潔能源系統對全球電力結構的貢獻將大幅增加，到2022年將達到30%左右。因此，對能源儲存技術的需求正在迅速成長。

MES 技術是滿足此需求的理想能源儲存解決方案系列，因為它可以解決電網穩定性、電能品質和可靠性問題。大多數MES系統的特點是儲能時間長、使用壽命長，使其適合電網規模的能源管理解決方案。這些技術也被用來提供電網穩定性和各種配套服務。

本研究概述了 MES 技術，描述了其主要特徵，並確定了該領域的當前趨勢。我們也關注這些技術的應用領域，並與競爭儲存解決方案進行比較分析。確定了該行業的主要相關人員，並檢驗了驅動和限制市場成長的因素。我們也考察專利格局和該領域的最新發展，包括徹底改變的 MES 技術。最後，確定並總結了該行業變化帶來的成長機會，供市場參與者和相關人員利用。

目錄

戰略問題

• 為什麼成長如此困難？ ：阻礙成長的因素
• The Strategic Imperative 8（TM）
• 機械能源儲存（MES）技術產業三大戰略挑戰的影響
• 成長機會推動Growth Pipeline Engine（TM）
• 調查方法

成長機會分析

• 分析範圍
• 分割
• 生長促進因子
• 成長抑制因素

MES：技術簡介

• MES系統需求
• 能源儲存在現代電網中的作用
• 各種應用中能源儲存解決方案的關鍵要求
• PHS-技術概述
• PHS-主要特性
• CAES-技術概述
• CAES-關鍵特性
• FES-技術概述
• FES-主要特性
• GES-技術概述
• GES-關鍵特性
• LAES-技術概述
• LAES-主要特點
• 領先的長期能源儲存技術比較

創新生態系統

• 北美和歐洲引領 MES資金籌措和支持舉措
• MES領域重要企業
• MES專利形勢

成長機會領域

• 成長機會一：電動車快充網路
• 成長機會2：微電網和分散式能源系統
• 成長機會3：下一代混合小靈通及可再生能源發電計劃

附錄

• 技術成熟度等級 (TRL)：解釋

下一步

Advancements in Long-duration Energy Storage Enhance Future Growth Potential for Large-scale Renewable Energy Adoption

This study analyzes breakthrough advancements in mechanical energy storage (MES) technologies. With the decreasing cost of renewable energy, the contribution of clean energy systems to the global electricity mix has significantly increased, reaching around 30% in 2022. This, in turn, has led to an exponential surge in the demand for energy storage technologies.

MES technologies are a set of energy storage solutions ideally placed to meet this demand as they can address grid stability, power quality, and reliability concerns. A defining feature of most MES systems is their extensive storage durations and exceptionally long life, which makes them suitable for grid-scale energy management solutions. These technologies are also being deployed to provide stability to the grid and a range of ancillary services.

This study provides an overview of MES technologies, describing key attributes and identifying the current trends in this space. It also looks at the application areas for these technologies, providing a comparative analysis against competing storage solutions. The study identifies key stakeholders in this space and examines the factors driving and restraining the growth of this market. The patent landscape and the latest developments in this area, including disruptive MES technologies, have also been discussed. The study concludes by identifying the growth opportunities emerging from the changes in this space for market players and stakeholders to leverage.

Table of Contents

Strategic Imperatives

• Why Is It Increasingly Difficult to Grow?The Strategic Imperative 8™: Factors Creating Pressure on Growth
• The Strategic Imperative 8™
• The Impact of the Top 3 Strategic Imperatives on the Mechanical Energy Storage (MES) Technology Industry
• Growth Opportunities Fuel the Growth Pipeline Engine™
• Research Methodology

Growth Opportunity Analysis

• Scope of Analysis
• Segmentation
• Growth Drivers
• Growth Restraints

MES: Technology Snapshot

• Need for MES Systems
• Role of Energy Storage in Modern Grid
• Key Requirement of Energy Storage Solutions for Various Applications
• PHS-Technology Overview
• PHS-Key Attributes
• CAES-Technology Overview
• CAES-Key Attributes
• FES-Technology Overview
• FES-Key Attributes
• GES-Technology Overview
• GES-Key Attributes
• LAES-Technology Overview
• LAES-Key Attributes
• Comparison of Key Long-duration Energy Storage Technologies

Innovations Ecosystem

• North America and Europe Lead the Way in MES Funding and Supportive Initiatives
• Important Players in the MES Space
• MES Patent Landscape

Growth Opportunity Universe

• Growth Opportunity 1: Electric Vehicle Fast-charging Network
• Growth Opportunity 2: Microgrids and Distributed Energy Systems
• Growth Opportunity 3: Next-generation Hybrid PHS and Renewable Energy Projects

Appendix

• Technology Readiness Levels (TRL): Explanation

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