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市场调查报告书
商品编码
1497716

全球先进电容器市场、市场规模和占有率分析:依类型、电极材料和应用分类 - 收入估算和需求预测(截至 2030 年)

Advanced Capacitors Market Size and Share Analysis by Type, Electrode Material, Application - Global Industry Revenue Estimation and Demand Forecast to 2030
出版日期: | 出版商: Prescient & Strategic Intelligence | 英文 240 Pages | 商品交期: 2-3个工作天内

价格
简介目录

主要亮点

2023年全球先进电容器市场规模为44.272亿美元,预计2030年将达到100.185亿美元,复合年增长率为12.7%。

虽然能源是现代社会生存所必需的,但能源的过度消耗却导致了温室效应的加剧。

近年来,各种应用不仅对电容器的依赖迅速增加,对二次电池的依赖也迅速增加。

采用改进的发射器和感测器系统以确保更高的性能。

超级电容器具有许多优点,包括高效的充放电循环、重量、宽工作温度和低维护成本。

由于都市化进程的加速和经济的扩张,全世界对燃料的依赖程度非常高。

随着人们注重改善生活方式,每年的汽车产量和销售持续成长。

汽车电气化是一项重大举措,旨在减少对化石燃料的依赖,同时考虑到环境问题。

我们正在引入创新技术,以提高车辆效率,同时保持乘客和驾驶员的舒适度。

重要考虑因素

2023年,亚太地区将成为该产业的最大贡献者,预计未来几年将以15%的复合年增长率进一步成长。

这是由于该地区混合动力汽车和纯电动汽车的使用增加、许多汽车製造商的存在以及对最新汽车技术的接受。

该地区汽车销售的成长可归因于生活方式的改变。

为了交通便利,人们比以往任何时候都更渴望购买汽车。因此,近年来小型汽车的平均行驶里程激增。

到 2023 年,双层电容器类别将占据行业最大占有率,达到 60%,并且很可能在这十年中保持最大占有率。

这主要是由于该类型在混合动力电动车中的广泛使用。

双层电容器正在获得认可,并有望在某些应用中替代或补充传统电池。

双层电容器比电池充电更快、功率密度更高、寿命週期更长。

未来几年,碳类别预计将成为该行业的最大贡献者,复合年增长率为 14%。

这主要是由于具有碳电极的改进电容器的电气性能得到改善。

与先进电容器相关的价格的很大一部分可归因于从炭和生物炭产品中获得的活性碳材料,这些产品是天然石油和天然气部分燃烧的副产品。

生物炭是透过生物质资源热解生产的,目前以椰子壳为主要材料。

汽车业预计到2030年将产生40亿美元的收入,成为对收入贡献最大的产业。

製造商不断开发新技术以确保汽车平稳运行。

未来几年,人们对开发传统汽车的电气化版本的兴趣将会越来越大。

本报告研究和分析了全球先进电容器市场,提供了市场动态、依地区和细分市场划分的市场收入以及竞争格局等资讯。

目录

第1章 调查范围

第2章 研究方法

第3章 执行摘要

第4章 市场指标

第5章 产业展望

  • 市场动态
    • 趋势
    • 促进因素
    • 抑制因素/课题
    • 促进/抑制因素影响分析
  • COVID-19 的影响
  • 波特五力分析

第6章 世界市场

  • 概述
  • 市场收入:依类型分类(2017-2030)
  • 市场收入:依电极材料分类(2017-2030)
  • 市场收入:依应用分类(2017-2030)
  • 市场收入:依地区(2017-2030)

第7章 北美市场

  • 概述
  • 市场收入:依类型分类(2017-2030)
  • 市场收入:依电极材料分类(2017-2030)
  • 市场收入:依应用分类(2017-2030)
  • 市场收入:依国家分类 (2017-2030)

第8章 欧洲市场

  • 概述
  • 市场收入:依类型分类(2017-2030)
  • 市场收入:依电极材料分类(2017-2030)
  • 市场收入:依应用分类(2017-2030)
  • 市场收入:依国家分类 (2017-2030)

第9章 亚太市场

  • 概述
  • 市场收入:依类型分类(2017-2030)
  • 市场收入:依电极材料分类(2017-2030)
  • 市场收入:依应用分类(2017-2030)
  • 市场收入:依国家分类 (2017-2030)

第10章 拉丁美洲市场

  • 概述
  • 市场收入:依类型分类(2017-2030)
  • 市场收入:依电极材料分类(2017-2030)
  • 市场收入:依应用分类(2017-2030)
  • 市场收入:依国家分类 (2017-2030)

第11章 中东/非洲市场

  • 概述
  • 市场收入:依类型分类(2017-2030)
  • 市场收入:依电极材料分类(2017-2030)
  • 市场收入:依应用分类(2017-2030)
  • 市场收入:依国家分类 (2017-2030)

第12章 美国市场

  • 概述
  • 市场收入:依类型分类(2017-2030)
  • 市场收入:依电极材料分类(2017-2030)
  • 市场收入:依应用分类(2017-2030)

第13章 加拿大市场

  • 概述
  • 市场收入:依类型分类(2017-2030)
  • 市场收入:依电极材料分类(2017-2030)
  • 市场收入:依应用分类(2017-2030)

第14章 德国市场

  • 概述
  • 市场收入:依类型分类(2017-2030)
  • 市场收入:依电极材料分类(2017-2030)
  • 市场收入:依应用分类(2017-2030)

第15章 法国市场

  • 概述
  • 市场收入:依类型分类(2017-2030)
  • 市场收入:依电极材料分类(2017-2030)
  • 市场收入:依应用分类(2017-2030)

第16章 英国市场

  • 概述
  • 市场收入:依类型分类(2017-2030)
  • 市场收入:依电极材料分类(2017-2030)
  • 市场收入:依应用分类(2017-2030)

第17章 义大利市场

  • 概述
  • 市场收入:依类型分类(2017-2030)
  • 市场收入:依电极材料分类(2017-2030)
  • 市场收入:依应用分类(2017-2030)

第18章 西班牙市场

  • 概述
  • 市场收入:依类型分类(2017-2030)
  • 市场收入:依电极材料分类(2017-2030)
  • 市场收入:依应用分类(2017-2030)

第19章 日本市场

  • 概述
  • 市场收入:依类型分类(2017-2030)
  • 市场收入:依电极材料分类(2017-2030)
  • 市场收入:依应用分类(2017-2030)

第20章 中国市场

  • 概述
  • 市场收入:依类型分类(2017-2030)
  • 市场收入:依电极材料分类(2017-2030)
  • 市场收入:依应用分类(2017-2030)

第21章 印度市场

  • 概述
  • 市场收入:依类型分类(2017-2030)
  • 市场收入:依电极材料分类(2017-2030)
  • 市场收入:依应用分类(2017-2030)

第22章澳洲市场

  • 概述
  • 市场收入:依类型分类(2017-2030)
  • 市场收入:依电极材料分类(2017-2030)
  • 市场收入:依应用分类(2017-2030)

第23章 韩国市场

  • 概述
  • 市场收入:依类型分类(2017-2030)
  • 市场收入:依电极材料分类(2017-2030)
  • 市场收入:依应用分类(2017-2030)

第24章 巴西市场

  • 概述
  • 市场收入:依类型分类(2017-2030)
  • 市场收入:依电极材料分类(2017-2030)
  • 市场收入:依应用分类(2017-2030)

第25章 墨西哥市场

  • 概述
  • 市场收入:依类型分类(2017-2030)
  • 市场收入:依电极材料分类(2017-2030)
  • 市场收入:依应用分类(2017-2030)

第26章 沙乌地阿拉伯市场

  • 概述
  • 市场收入:依类型分类(2017-2030)
  • 市场收入:依电极材料分类(2017-2030)
  • 市场收入:依应用分类(2017-2030)

第27章南非市场

  • 概述
  • 市场收入:依类型分类(2017-2030)
  • 市场收入:依电极材料分类(2017-2030)
  • 市场收入:依应用分类(2017-2030)

第28章 阿联酋市场

  • 概述
  • 市场收入:依类型分类(2017-2030)
  • 市场收入:依电极材料分类(2017-2030)
  • 市场收入:依应用分类(2017-2030)

第29章 竞争格局

  • 市场公司及其产品列表
  • 各大公司的竞争对标
  • 各大公司产品对标
  • 近年来的策略发展

第30章 公司简介

  • Maxwell Technologies Korea Co. Ltd.
  • CAP-XX Limited
  • Panasonic Corporation
  • Eaton Corporation plc
  • Nippon Chemi-Con Corporation
  • Cornell Dubilier Electronics Inc.
  • IOXUS
  • KYOCERA AVX Components Corporation
  • NAWATECHNOLOGIES Limited
  • Skeleton Technologies
  • TDK Corporation
  • Murata Manufacturing Co Ltd.
  • KEMET Corporation (A YAGEO Company)

第31章 附录

简介目录
Product Code: 12901

Key Highlights

The advanced capacitors market generated a value of USD 4,427.2 million in 2023, which will increase to USD 10,018.5 million, powering at a 12.7% CAGR, by 2030.

Energy is necessary to uphold the existence of contemporary society, while its extreme consumption resulted in the rising greenhouse effect.

The dependence on rechargeable batteries as well as capacitors for different applications has been growing rapidly in the last few years.

Improved types of transmitter and sensor systems are being employed to guarantee greater performance.

Supercapacitors have many benefits in terms of efficient charged discharge cycles, weight, wide operating temperatures, and low maintenance.

The reliance on fuel is very high globally because of the high level of urbanization as well as economic expansion.

The count of vehicles produced and sold yearly has been observing a continuous increase as people are focused on enhancing their lifestyles.

Vehicle electrification is the main initiative being taken to decrease the reliance on fossil fuels while taking into consideration the connected environmental worries.

Innovative technologies are being introduced to enhance the effectiveness of vehicles while preserving comfort for the passengers and driver.

Key Insights

In 2023, APAC accounted for the largest contributor to the industry, and it will further advance at a 15% compound annual growth rate in the coming years.

This is because of the increasing utilization of HEVs and BEVs, the presence of many automakers, and the acceptance of the latest automotive technologies, in this region.

The rising sales of automotive in this region can be attributed to the shifting lifestyles.

Individuals are more eager than ever to purchase personal automobiles for easier mobility. Thus, the average distance traveled by light-duty automobiles has been observing a surge in the last few years.

The double-layer capacitors category accounted for the largest share of the industry in 2023, of 60%, and it is likely to remain the largest throughout this decade.

This is mainly because of the extensive utilization of these types in hybrid electric vehicles.

The promise of double-layer capacitors to replace or complement traditional batteries in some applications boosts their acceptance.

They charge quicker than batteries, possess a great power density, and have a greater life cycle.

The carbon category will be the largest contributor to the industry, and grow at a 14% CAGR, in the coming years.

This is mainly because of the greater electrical possessions of improved capacitors with carbon electrodes.

A substantial portion of the price related to advanced capacitors can be attributed to the active carbon material obtained from char, which is a byproduct of the partial combustion of natural oils and gas, and biochar products.

Biochar is created via the pyrolysis of biomass sources, with coconut shells presently being employed as the main material.

The automotive category is likely to be the highest revenue contributor in 2030, with USD 4 billion.

Manufacturers are constantly trying to develop new technologies to guarantee the smooth running of automobiles.

They are showing an increasing interest in developing electrified versions of their traditional automobiles in the years to come.

Table of Contents

Chapter 1. Research Scope

  • 1.1. Research Objectives
  • 1.2. Market Definition
  • 1.3. Analysis Period
  • 1.4. Market Size Breakdown by Segments
    • 1.4.1. Market size breakdown, by type
    • 1.4.2. Market size breakdown, by electrode material
    • 1.4.3. Market size breakdown, by application
    • 1.4.4. Market size breakdown, by region
    • 1.4.5. Market size breakdown, by country
  • 1.5. Market Data Reporting Unit
    • 1.5.1. Value
  • 1.6. Key Stakeholders

Chapter 2. Research Methodology

  • 2.1. Secondary Research
    • 2.1.1. Paid
    • 2.1.2. Unpaid
    • 2.1.3. P&S Intelligence database
  • 2.2. Primary Research
  • 2.3. Market Size Estimation
  • 2.4. Data Triangulation
  • 2.5. Currency Conversion Rates
  • 2.6. Assumptions for the Study
  • 2.7. Notes and Caveats

Chapter 3. Executive Summary

Chapter 4. Market Indicators

Chapter 5. Industry Outlook

  • 5.1. Market Dynamics
    • 5.1.1. Trends
    • 5.1.2. Drivers
    • 5.1.3. Restraints/challenges
    • 5.1.4. Impact analysis of drivers/restraints
  • 5.2. Impact of COVID-19
  • 5.3. Porter's Five Forces Analysis
    • 5.3.1. Bargaining power of buyers
    • 5.3.2. Bargaining power of suppliers
    • 5.3.3. Threat of new entrants
    • 5.3.4. Intensity of rivalry
    • 5.3.5. Threat of substitutes

Chapter 6. Global Market

  • 6.1. Overview
  • 6.2. Market Revenue, by Type (2017-2030)
  • 6.3. Market Revenue, by Electrode Material (2017-2030)
  • 6.4. Market Revenue, by Application (2017-2030)
  • 6.5. Market Revenue, by Region (2017-2030)

Chapter 7. North America Market

  • 7.1. Overview
  • 7.2. Market Revenue, by Type (2017-2030)
  • 7.3. Market Revenue, by Electrode Material (2017-2030)
  • 7.4. Market Revenue, by Application (2017-2030)
  • 7.5. Market Revenue, by Country (2017-2030)

Chapter 8. Europe Market

  • 8.1. Overview
  • 8.2. Market Revenue, by Type (2017-2030)
  • 8.3. Market Revenue, by Electrode Material (2017-2030)
  • 8.4. Market Revenue, by Application (2017-2030)
  • 8.5. Market Revenue, by Country (2017-2030)

Chapter 9. APAC Market

  • 9.1. Overview
  • 9.2. Market Revenue, by Type (2017-2030)
  • 9.3. Market Revenue, by Electrode Material (2017-2030)
  • 9.4. Market Revenue, by Application (2017-2030)
  • 9.5. Market Revenue, by Country (2017-2030)

Chapter 10. LATAM Market

  • 10.1. Overview
  • 10.2. Market Revenue, by Type (2017-2030)
  • 10.3. Market Revenue, by Electrode Material (2017-2030)
  • 10.4. Market Revenue, by Application (2017-2030)
  • 10.5. Market Revenue, by Country (2017-2030)

Chapter 11. MEA Market

  • 11.1. Overview
  • 11.2. Market Revenue, by Type (2017-2030)
  • 11.3. Market Revenue, by Electrode Material (2017-2030)
  • 11.4. Market Revenue, by Application (2017-2030)
  • 11.5. Market Revenue, by Country (2017-2030)

Chapter 12. U.S. Market

  • 12.1. Overview
  • 12.2. Market Revenue, by Type (2017-2030)
  • 12.3. Market Revenue, by Electrode Material (2017-2030)
  • 12.4. Market Revenue, by Application (2017-2030)

Chapter 13. Canada Market

  • 13.1. Overview
  • 13.2. Market Revenue, by Type (2017-2030)
  • 13.3. Market Revenue, by Electrode Material (2017-2030)
  • 13.4. Market Revenue, by Application (2017-2030)

Chapter 14. Germany Market

  • 14.1. Overview
  • 14.2. Market Revenue, by Type (2017-2030)
  • 14.3. Market Revenue, by Electrode Material (2017-2030)
  • 14.4. Market Revenue, by Application (2017-2030)

Chapter 15. France Market

  • 15.1. Overview
  • 15.2. Market Revenue, by Type (2017-2030)
  • 15.3. Market Revenue, by Electrode Material (2017-2030)
  • 15.4. Market Revenue, by Application (2017-2030)

Chapter 16. U.K. Market

  • 16.1. Overview
  • 16.2. Market Revenue, by Type (2017-2030)
  • 16.3. Market Revenue, by Electrode Material (2017-2030)
  • 16.4. Market Revenue, by Application (2017-2030)

Chapter 17. Italy Market

  • 17.1. Overview
  • 17.2. Market Revenue, by Type (2017-2030)
  • 17.3. Market Revenue, by Electrode Material (2017-2030)
  • 17.4. Market Revenue, by Application (2017-2030)

Chapter 18. Spain Market

  • 18.1. Overview
  • 18.2. Market Revenue, by Type (2017-2030)
  • 18.3. Market Revenue, by Electrode Material (2017-2030)
  • 18.4. Market Revenue, by Application (2017-2030)

Chapter 19. Japan Market

  • 19.1. Overview
  • 19.2. Market Revenue, by Type (2017-2030)
  • 19.3. Market Revenue, by Electrode Material (2017-2030)
  • 19.4. Market Revenue, by Application (2017-2030)

Chapter 20. China Market

  • 20.1. Overview
  • 20.2. Market Revenue, by Type (2017-2030)
  • 20.3. Market Revenue, by Electrode Material (2017-2030)
  • 20.4. Market Revenue, by Application (2017-2030)

Chapter 21. India Market

  • 21.1. Overview
  • 21.2. Market Revenue, by Type (2017-2030)
  • 21.3. Market Revenue, by Electrode Material (2017-2030)
  • 21.4. Market Revenue, by Application (2017-2030)

Chapter 22. Australia Market

  • 22.1. Overview
  • 22.2. Market Revenue, by Type (2017-2030)
  • 22.3. Market Revenue, by Electrode Material (2017-2030)
  • 22.4. Market Revenue, by Application (2017-2030)

Chapter 23. South Korea Market

  • 23.1. Overview
  • 23.2. Market Revenue, by Type (2017-2030)
  • 23.3. Market Revenue, by Electrode Material (2017-2030)
  • 23.4. Market Revenue, by Application (2017-2030)

Chapter 24. Brazil Market

  • 24.1. Overview
  • 24.2. Market Revenue, by Type (2017-2030)
  • 24.3. Market Revenue, by Electrode Material (2017-2030)
  • 24.4. Market Revenue, by Application (2017-2030)

Chapter 25. Mexico Market

  • 25.1. Overview
  • 25.2. Market Revenue, by Type (2017-2030)
  • 25.3. Market Revenue, by Electrode Material (2017-2030)
  • 25.4. Market Revenue, by Application (2017-2030)

Chapter 26. Saudi Arabia Market

  • 26.1. Overview
  • 26.2. Market Revenue, by Type (2017-2030)
  • 26.3. Market Revenue, by Electrode Material (2017-2030)
  • 26.4. Market Revenue, by Application (2017-2030)

Chapter 27. South Africa Market

  • 27.1. Overview
  • 27.2. Market Revenue, by Type (2017-2030)
  • 27.3. Market Revenue, by Electrode Material (2017-2030)
  • 27.4. Market Revenue, by Application (2017-2030)

Chapter 28. U.A.E. Market

  • 28.1. Overview
  • 28.2. Market Revenue, by Type (2017-2030)
  • 28.3. Market Revenue, by Electrode Material (2017-2030)
  • 28.4. Market Revenue, by Application (2017-2030)

Chapter 29. Competitive Landscape

  • 29.1. List of Market Players and their Offerings
  • 29.2. Competitive Benchmarking of Key Players
  • 29.3. Product Benchmarking of Key Players
  • 29.4. Recent Strategic Developments

Chapter 30. Company Profiles

  • 30.1. Maxwell Technologies Korea Co. Ltd.
    • 30.1.1. Business overview
    • 30.1.2. Product and service offerings
    • 30.1.3. Key financial summary
  • 30.2. CAP-XX Limited
    • 30.2.1. Business overview
    • 30.2.2. Product and service offerings
    • 30.2.3. Key financial summary
  • 30.3. Panasonic Corporation
    • 30.3.1. Business overview
    • 30.3.2. Product and service offerings
    • 30.3.3. Key financial summary
  • 30.4. Eaton Corporation plc
    • 30.4.1. Business overview
    • 30.4.2. Product and service offerings
    • 30.4.3. Key financial summary
  • 30.5. Nippon Chemi-Con Corporation
    • 30.5.1. Business overview
    • 30.5.2. Product and service offerings
    • 30.5.3. Key financial summary
  • 30.6. Cornell Dubilier Electronics Inc.
    • 30.6.1. Business overview
    • 30.6.2. Product and service offerings
    • 30.6.3. Key financial summary
  • 30.7. IOXUS
    • 30.7.1. Business overview
    • 30.7.2. Product and service offerings
    • 30.7.3. Key financial summary
  • 30.8. KYOCERA AVX Components Corporation
    • 30.8.1. Business overview
    • 30.8.2. Product and service offerings
    • 30.8.3. Key financial summary
  • 30.9. NAWATECHNOLOGIES Limited
    • 30.9.1. Business overview
    • 30.9.2. Product and service offerings
    • 30.9.3. Key financial summary
  • 30.10. Skeleton Technologies
    • 30.10.1. Business overview
    • 30.10.2. Product and service offerings
    • 30.10.3. Key financial summary
  • 30.11. TDK Corporation
    • 30.11.1. Business overview
    • 30.11.2. Product and service offerings
    • 30.11.3. Key financial summary
  • 30.12. Murata Manufacturing Co Ltd.
    • 30.12.1. Business overview
    • 30.12.2. Product and service offerings
    • 30.12.3. Key financial summary
  • 30.13. KEMET Corporation (A YAGEO Company)
    • 30.13.1. Business overview
    • 30.13.2. Product and service offerings
    • 30.13.3. Key financial summary

Chapter 31. Appendix

  • 31.1. Abbreviations
  • 31.2. Sources and References
  • 31.3. Related Reports