表紙:エネルギー貯蔵市場の発展と応用:2023年
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エネルギー貯蔵市場の発展と応用:2023年

2023 Energy Storage Market Development and Application Research Report

出版日: | 発行: MIR Co., Ltd | ページ情報: 英文 83 Pages | 納期: 7営業日

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エネルギー貯蔵市場の発展と応用:2023年
出版日: 2023年06月26日
発行: MIR Co., Ltd
ページ情報: 英文 83 Pages
納期: 7営業日
  • 全表示
  • 概要
  • 図表
  • 目次
概要

当レポートでは、エネルギー貯蔵市場の動向を調査し、エネルギー貯蔵の定義、技術の分類・比較、中国のマクロ政策の影響、市場の現況と成長予測、主要な業界企業のプロファイルなどをまとめています。

目次

第1章 プロジェクト:イントロダクション

第2章 エネルギー貯蔵業界全体の概要

  • エネルギー貯蔵の定義と分類
  • さまざまなエネルギー貯蔵技術の差別化と比較分析

第3章 中国のエネルギー貯蔵のマクロ政策分析

  • 中国のエネルギー貯蔵のマクロ政策の分析
    • エネルギー貯蔵産業の全体的な発展
    • 基礎的な推進力解の分析:新しい電力システムの構築
    • エネルギー貯蔵産業の標準システムの構築と現状
    • エネルギー貯蔵産業の主要政策の解釈
  • 中国のエネルギー貯蔵産業の経済分析
    • マクロ経済の発展
    • マクロ経済の発展がエネルギー貯蔵産業に与える影響の分析
  • 中国のエネルギー貯蔵産業の社会分析
    • エネルギー貯蔵産業が社会環境に与える影響の分析
    • 新エネルギーの不安定性を解決するエネルギー貯蔵技術の開発
    • エネルギー貯蔵技術が炭素排出量取引を促進
  • 中国のエネルギー貯蔵産業の技術分析
    • エネルギー貯蔵の主要コア技術の分析
    • 業界の主な技術開発の動向
    • 技術リンクが産業発展に及ぼす影響の分析

第4章 世界のエネルギー貯蔵開発の分析

  • 世界のエネルギー貯蔵市場:規模の変化の分析
  • 市場区分別の発展状況と傾向分析
    • 物理エネルギー貯蔵
    • 電気化学エネルギー貯蔵
  • 主要国におけるエネルギー貯蔵開発の分析
    • 米国
    • 欧州

第5章 中国のエネルギー貯蔵開発の状況と将来の動向分析

  • 中国のエネルギー貯蔵産業の発展状況の分析
    • 揚水発電所が建設ピーク期に突入
    • 電気化学エネルギー貯蔵のためのさまざまな技術の急速な開発
    • リチウム電池技術が主流技術に
    • 複数の新興技術の急速な開発
  • 中国のエネルギー貯蔵需要の分析
    • 発電サイド
    • グリッドサイド
    • ユーザーサイド
  • 既存の問題と課題
    • 基本的、独創的、画期的なイノベーションの不十分さ
    • 風力発電、太陽光発電、その他の新エネルギー源は送電網への接続という大きな圧力下にあり、大規模プロモーションが制限されている
    • 電力取引市場:まだ成熟していない
    • セキュリティ上の問題:早急に解決する必要がある
    • エネルギー貯蔵産業チェーン:まだ閉ループを形成していない

第6章 中国における物理的エネルギー貯蔵の開発動向に関する分析

  • 揚水発電市場の規模と開発動向の分析
  • 圧縮空気エネルギー貯蔵市場の規模と開発動向の分析
  • フライホイールエネルギー貯蔵市場の規模と開発動向の分析

第7章 中国における電気化学エネルギー貯蔵の開発動向に関する分析

  • ナトリウム硫黄電池市場の規模と開発動向の分析
  • バナジウムレドックスフロー電池市場の規模と開発動向の分析
  • リン酸鉄リチウム電池エネルギー貯蔵市場の規模と開発動向の分析

第8章 中国のエネルギー貯蔵産業における主要企業の経営状況の分析

  • Hyperstrong
  • CRRC Zhuzhou Institute
  • Sungrow
  • Trina Energy Storage
  • KELONG
  • CATL
図表

List of Tables

  • Table 1: Differentiation and Comparative Analysis of Different Energy Storage Technologies
  • Table 2: Energy Storage - Driving Force for New Power System Construction
  • Table 3: Summary of Energy Storage Industry Policies from 2021 to 2023
  • Table 4: Interpretation of Key Policies
  • Table 5: Comparison of Electrolytic Capacitor/Film Capacitor Parameters
  • Table 6: Pumped Storage Projects Starting Construction/Commissioning in the First Half of 2023
  • Table 7: Benefits of Shared Energy Storage Core Provinces
  • Table 8: Major Players in Energy Storage Systems in 2022

List of Figures

  • Figure 1: China's Energy Storage Market Size and Forecast - Cumulative Installed Capacity
  • Figure 2: China's Energy Storage Market Size and Forecast - New Installed Capacity
  • Figure 3: New Energy Storage Standardized System Architecture
  • Figure 4: China's GDP in 2022
  • Figure 5: 2018-2022 China's Population
  • Figure 6: Key Technologies of Electrochemical Energy Storage Systems
  • Figure 7: Trends in the Proportion of Cumulative Installed Capacity of Different Technology Routes in China's Energy Storage Market
  • Figure 8: Structural Diagram of Energy Storage Container
  • Figure 9: Circuit Block Diagram of Energy Storage Container
  • Figure 10: Architecture Diagram of Energy Storage System
  • Figure 11: AC-DC Hybrid Microgrid Structure
  • Figure 12: Changes in Technical Solutions
  • Figure 13: BMS Function Trend of Battery Management System
  • Figure 14: Cumulative Installed Capacity and Forecast of the Global Energy Storage Market
  • Figure 15: the New Installed Capacity and Forecast of the Global Energy Storage Market
  • Figure 16: Cumulative Installed Capacity of the Global Energy Storage Segment in 2022 - GW
  • Figure 17: Cumulative Installed Capacity and Forecast of the Global Physical Energy Storage Market
  • Figure 18: Proportion of the Cumulative Installed Capacity of the Global Physical Energy Storage Market Segment in 2022
  • Figure 19: Cumulative Installed Capacity and Forecast of the Global Electrochemical Market
  • Figure 20: Proportion of Cumulative Installed Capacity of the Global Electrochemical Segment Market in 2022
  • Figure 21: New Installed Capacity and Forecast of the Global Electrochemical Energy Storage Market
  • Figure 22: Proportion of Newly Installed Global Energy Storage Capacity in 2022 - by Country
  • Figure 23: Scale and Forecast of New Installed Capacity in the US Energy Storage Market
  • Figure 24: Proportion of New Installed Capacity in the U.S. Energy Storage Market Segment in 2022
  • Figure 25: Scale and Forecast of New Installed Capacity in the European Energy Storage Market
  • Figure 26: Proportion of New Installed Capacity in the European Energy Storage Market Segment in 2022
  • Figure 27: Proportion of Cumulative Installed Capacity in China's Energy Storage Segment Market in 2022
  • Figure 28: Quantity and Investment of Approved Pumped Storage Projects
  • Figure 29: Lithium-Ion Battery Energy Storage Working Principle
  • Figure 30: Working Principle of Flow Battery Energy Storage
  • Figure 31: Working Principle of Sodium-Ion Battery Energy Storage
  • Figure 32: Working Principle of Lead-Acid Battery Energy Storage
  • Figure 33: Working Principle of Lead-Carbon Battery Energy Storage
  • Figure 34: Overview of Energy Storage Application Scenarios
  • Figure 35: Schematic Diagram of Renewable Energy Configuration for Energy Storage
  • Figure 36: Proportion of China's Main Energy Generation in 2022/2025
  • Figure 37: Schematic Diagram of Fire Storage Frequency Modulation Application
  • Figure 38: Schematic Diagram of Shared Energy Storage Application
  • Figure 39: Schematic Diagram of Shared Energy Storage Business Model
  • Figure 40: Schematic Diagram of Energy Storage Application in Power System
  • Figure 41: Schematic Diagram of Industrial and Commercial Energy Storage Applications
  • Figure 42: Schematic Diagram of Integrated Application of PV Storage and Charging
  • Figure 43: Proportion of Cumulative Installed Capacity in China's Physical Energy Storage Market Segment in 2022
  • Figure 44: Cumulative Installed Capacity and Forecast of China's Pumped Storage Market
  • Figure 45: Cumulative Installed Capacity and Forecast of China's Compressed Air Energy Storage Market
  • Figure 46: Cumulative Installed Capacity and Forecast of China's Flywheel Energy Storage Market
  • Figure 47: China's Electrochemical Energy Storage Industry Chain
  • Figure 48: Cumulative Installed Capacity and Forecast of China's Electrochemical Energy Storage Market
  • Figure 49: Proportion of Cumulative Installed Capacity of China's Electrochemical Energy Storage Market Segment in 2022
  • Figure 50: New Installed Capacity and Forecast of China's Electrochemical Energy Storage Market
  • Figure 51: Proportion of New Installed Capacity in China's Electrochemical Energy Storage Market Segment in 2022
  • Figure 52: Proportion of Energy Storage System integrators in Operation in 2022
  • Figure 53: Cumulative Installed Capacity of Sodium-Sulfur Battery Energy Storage in China
  • Figure 54: Cumulative Installed Capacity of Flow Battery Energy Storage in China
  • Figure 55: Cumulative Installed Capacity of Lithium Iron Phosphate Battery Energy Storage in China
  • Figure 56: Schematic Diagram of Sungrow's PV Storage and Charging System
目次
Product Code: MIR-2023-0626-0051

MIR's "2023 Energy Storage Market Development and Application Research Report" offers a comprehensive analysis of the energy storage landscape. It covers foundational aspects, energy storage types, China's policy influences, global trends, detailed breakdowns of energy storage technologies in China, and profiles of leading industry enterprises. Augmented by visuals, the report provides an in-depth look at the current status and future trends, making it an essential read for both industry experts and newcomers.

Expanded Report Description

MIR's "2023 Overall Energy Storage Market Development and Application Research Report" provides an all-encompassing look at the rapidly evolving world of energy storage. This extensive report covers key elements of energy storage, from the fundamentals to intricate technicalities and major players in the industry.

Project Introduction kicks off the report, outlining the research methods, territorial, amount, and time definitions, ensuring clarity and consistency in the content that follows. This foundational section is essential to comprehend the parameters and boundaries within which the research was conducted.

The report delves deep into the Overall Energy Storage Industry Overview, presenting clear definitions and classifications of energy storage types, from physical to electrochemical and other less prevalent methods. This section sets the stage for the report's later analyses by detailing the differentiation and comparative analyses of these energy storage technologies.

China's Energy Storage Macro Policy Analysis section offers a comprehensive breakdown of China's policies and directions in the realm of energy storage. This section articulates how the overarching development of the industry is influenced by governmental policies. Moreover, it brings to the fore the vital role energy storage plays in new power system construction, standardization efforts, and the interpretation of critical policy shifts.

Economic, social, and technical analyses offer insights into the multifaceted nature of the energy storage industry. From macroeconomic development impacts and social implications like carbon emission trading to the minutiae of core technologies and industry trends, these sections offer readers a complete understanding of energy storage's comprehensive landscape.

On the global stage, the report touches on the developments in the Global Energy Storage Market. It gives readers an understanding of the worldwide trends in energy storage, emphasizing the nuances of market segments and the progress in major economies, including the United States and Europe.

The section on China's Energy Storage Development Status and Future Trend Analysis is especially notable. Here, readers are introduced to the state of energy storage technologies in China, including pumped storage, lithium battery technology, and emerging tech. This section further delves into the demands, challenges, and hurdles faced by the industry.

Following this, the report homes in on specific types of energy storage. Both physical and electrochemical energy storage trends in China are detailed, with the latter emphasizing various battery types, including sodium-sulfur, vanadium redox flow, and lithium iron phosphate batteries.

The last section delivers an analysis of the operating conditions of China's foremost enterprises in the energy storage sector. From Hyperstrong to CATL, readers are furnished with company profiles, product information, and insights into their competitive advantages.

Throughout the report, a series of tables and figures augment the text, offering comparative analyses, policy summaries, market size forecasts, and technical schematics, to name a few. The visuals, ranging from China's Energy Storage Market Size and Forecast to intricate circuit diagrams of energy storage containers, give readers both the high-level view and granular details of the energy storage industry.

In conclusion, the "2023 Overall Energy Storage Market Development and Application Research Report" is a tour de force in energy storage research. Whether a seasoned expert in the field or a newcomer keen to understand the industry, this report is an invaluable resource.

Table of Content

Part I. Project Introduction

  • A. Research Methods
  • B. Territory Definition
  • C. Amount Definition
  • D. Time Definition

Part II. Overall Energy Storage Industry Overview

  • A. Definition and Classification of Energy Storage
    • A-1. Physical Energy Storage
    • A-2. Electrochemical Energy Storage
    • A-3. Other Energy Storage
  • B. Differentiation and Comparative Analysis of Different Energy Storage Technologies

Part III. China's Energy Storage Macro Policy Analysis

  • A. Analysis of China's Energy Storage Macro Policy
    • A-1. Overall Development of Energy Storage Industry
    • A-2. Fundamental Driving Force Analysis - New Power System Construction
    • A-3. Construction and Status Quo of Energy Storage Industry Standard System
    • A-4. Interpretation of Key Policies for Energy Storage Industry
  • B. Economic Analysis of China's Energy Storage Industry
    • B-1. Macroeconomic Development
    • B-2. Analysis of the Impact of Macroeconomic Development on the Energy Storage Industry
  • C. Social Analysis of China's Energy Storage Industry
    • C-1. Analysis of the Impact of the Energy Storage Industry on the Social Environment
    • C-2. Development of Energy Storage to Solve the instability of New Energy
    • C-3. Energy Storage Technology Promotes Carbon Emission Trading
  • D. Technical Analysis of China's Energy Storage Industry
    • D-1. Analysis of Key Core Technologies of Energy Storage
    • D-2. Main Technology Development Trends of the Industry
    • D-3. Analysis of the Impact of Technical Links on Industry Development

Part IV. Analysis of Global Energy Storage Development

  • A. Analysis of Changes in the Scale of the Global Energy Storage Market
  • B. Development Status and Trend Analysis of Market Segments
    • B-1. Physical Energy Storage
    • B-2. Electrochemical Energy Storage
  • C. Analysis of Energy Storage Development in Major Economies
    • C-1. United States
    • C-2. Europe

Part V. China's Energy Storage Development Status and Future Trend Analysis

  • A. Analysis of the Development Status of China's Energy Storage Industry
    • A-1. Pumped Storage Enters Peak Construction Period
    • A-2. Rapid Development of Various Technologies for Electrochemical Energy Storage
    • A-3. Lithium Battery Technology Has Become the Mainstream Technology
    • A-4. Rapid Development of Multiple Emerging Technologies
  • B. Analysis of Energy Storage Demand in China
    • B-1. Power Generation Side
    • B-2. Grid Side
    • B-3. User Side
  • C. Existing Problems and Challenges
    • C-1. Insufficient Basic, Original and Breakthrough Innovations
    • C-2. Wind Power, Photovoltaic and Other New Energy Sources Are Under Huge Pressure To Be Connected to the Grid, Which Restricts their Large-Scale Promotion
    • C-3. Power Trading Market Is Not Yet Mature
    • C-4. Security Issues Need to Be Resolved Urgently
    • C-5. Energy Storage Industry Chain Has Not Yet Formed A Closed Loop

Part VI. Analysis on the Development Trend of Physical Energy Storage in China

  • A. Analysis of Pumped Storage Market Size and Development Trend
  • B. Compressed Air Energy Storage Market Scale and Development Trend Analysis
  • C. Analysis of Flywheel Energy Storage Market Size and Development Trend

Part VII. Development Trend Analysis of Electrochemical Energy Storage in China

  • A. Analysis of Market Size and Development Trend of Sodium-Sulfur Battery
  • B. Analysis of Market Size and Development Trend of Vanadium Redox Flow Battery
  • C. Analysis of Market Size and Development Trend of Lithium Iron Phosphate Battery Energy Storage

Part VIII. Analysis of the Operating Conditions of Major Enterprises in China's Energy Storage Industry

  • A. Hyperstrong
    • A-1. Company Profile
    • A-2. Main Products
    • A-3. Competitive Advantage
    • A-4. Typical Case
    • A-5. Company News
  • B. CRRC Zhuzhou Institute
  • C. Sungrow
  • D. Trina Energy Storage
  • E. KELONG
  • F. CATL