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スーパーキャパシタ市場レポート:製品タイプ、モジュールタイプ、材料タイプ、最終用途産業、地域別、2024~2032年Supercapacitor Market Report by Product Type, Module Type, Material Type, End Use Industry, and Region 2024-2032 |
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スーパーキャパシタ市場レポート:製品タイプ、モジュールタイプ、材料タイプ、最終用途産業、地域別、2024~2032年 |
出版日: 2024年04月08日
発行: IMARC
ページ情報: 英文 137 Pages
納期: 2~3営業日
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世界のスーパーキャパシタ市場規模は2023年に53億米ドルに達しました。今後、IMARC Groupは、市場は2032年までに277億米ドルに達し、2024~2032年の間に19.5%の成長率(CAGR)を示すと予測しています。再生可能エネルギー導入の奨励、環境意識の高まり、気候変動の緩和を目的とした政府政策、スマートで環境に優しい公共交通ソリューションの台頭などが、市場成長を促進する主要要因の一つです。
スーパーキャパシタは、従来のキャパシタとバッテリーのギャップを埋めるエネルギー貯蔵デバイスです。一般的なキャパシタとは異なり、スーパーキャパシタは大幅に大量の電荷を蓄えることができ、キャパシタの高電力密度を維持しながらより大きなエネルギー密度を記載しています。そのため、バッテリーに比べて充電と放電のサイクルを素早く行うことができます。主に2つの電極、電解液、セパレーターで構成されています。主要利点のひとつは、短時間で大量のエネルギーを供給できることで、加速用の電気自動車や負荷平準化のための再生可能エネルギー・システムなど、素早いパワー・ブーストを必要とする用途に非常に効果的です。スーパーキャパシタはサイクル寿命が長く、温度変化の影響を受けにくいです。これらのユニークな特性により、スーパーキャパシタはエネルギー貯蔵システムの性能と寿命を向上させるために、しばしば電池と組み合わせて使用されます。
環境意識の高まりと気候変動の緩和を目的とした政府の政策により、再生可能エネルギーの導入奨励は世界的にエスカレートしています。その結果、再生可能エネルギー貯蔵への注目の高まりは、スーパーキャパシタ業界に強力な市場の促進要因を提供しています。都市部はますます混雑しており、公共交通インフラの改善が重視されています。スーパーキャパシタは、公共輸送をよりエネルギー効率が高く、迅速なものにする方法を記載しています。さらに、スマートで環境に優しい公共交通ソリューションの台頭がスーパーキャパシタ需要を刺激し、市場の注目すべき促進要因となっています。さらに、デジタル技術とクラウド・コンピューティングの普及は、データセンターの急激な成長をもたらしています。これらの施設では、停電時のデータ損失を防ぐために無停電電源装置(UPS)システムが必要となります。これとは別に、小型でありながら強力なエネルギー貯蔵装置への需要が、スーパーキャパシタの採用を促進しています。さらに、グリーン技術の採用に対する税制上の優遇措置、助成金、補助金の支給が、市場の明るい展望を生み出しています。
電気自動車の普及加速
電気自動車(EV)は、従来の内燃エンジン車に代わる持続可能な選択肢として、バッテリー技術の進歩や政府の支援策に刺激され、大きな支持を集めています。しかし、バッテリーの充電時間の延長と寿命の限界は、依然として消費者の懸念となっています。スーパーキャパシタは、こうした問題に対する有力な解決策を記載しています。急速な充放電サイクルに対応できるため、回生ブレーキや急加速などの用途に最適です。さらに、さまざまな自動車メーカーが、性能を最適化し、エネルギー貯蔵システム全体の寿命を延ばすために、バッテリーとスーパーキャパシタの両方を使用するハイブリッドシステムを模索しています。EVの普及は今後数年で飛躍的に高まると予測されるため、スーパーキャパシタの需要も比例して伸び、重要な市場の促進要因として機能すると予想されます。
家電製品の進歩
スマートフォン、ノートパソコン、ウェアラブルデバイスなどのコンシューマーエレクトロニクスは、過去10年間で驚異的な成長を遂げてきました。これらのガジェットがますます洗練されるにつれて、急速充電と高エネルギー出力を提供できるエネルギー貯蔵ソリューションに対する需要が高まっています。それに伴い、スーパーキャパシタはこの要件に完璧に適合しています。スーパーキャパシタは数秒で充電でき、デバイスの性能を向上させる高出力を提供し、動作寿命も長いです。さらに、民生用電子機器における急速充電技術の動向は、メーカーがスーパーキャパシタを実行可能で効率的なエネルギー貯蔵ソリューションとして探求することを後押ししています。このことは、民生用電子機器セグメントにおけるスーパーキャパシタの急成長市場を生み出し、業界の成長を促進しています。
産業オートメーションとIoT用途の増加
産業オートメーションとモノのインターネット(IoT)技術は、製造、医療、サプライチェーン管理などのセグメントに革命をもたらしています。これらの用途では、信頼性が高く、迅速で効率的なエネルギー貯蔵ソリューションを必要とするセンサーやその他の小型デバイスが必要とされることが多いです。急速充放電が可能でサイクル寿命が長いスーパーキャパシタは、このような厳しい環境に適しています。例えば自動化された工場では、スーパーキャパシタは機械を効率的に動かすために必要なエネルギーを素早く供給することができます。さらに、コンパクトで信頼性の高い電源を必要とするIoT機器での使用も増えています。産業オートメーションとIoTが拡大し続ける中、スーパーキャパシタを含む高度なエネルギー貯蔵ソリューションのニーズは拡大し、業界の強力な市場の促進要因として機能することになります。
The global supercapacitor market size reached US$ 5.3 Billion in 2023. Looking forward, IMARC Group expects the market to reach US$ 27.7 Billion by 2032, exhibiting a growth rate (CAGR) of 19.5% during 2024-2032. The growing encouragement for renewable energy adoption, the growing environmental awareness and governmental policies aimed at mitigating climate change, and the rise in smart, eco-friendly public transport solutions are among the key factors driving the market growth.
A supercapacitor is an energy storage device that bridges the gap between conventional capacitors and batteries. Unlike a typical capacitor, a supercapacitor can store a significantly larger amount of electrical charge, offering greater energy density while maintaining the high-power density of capacitors. This allows for quick charge and discharge cycles compared to batteries. It primarily consists of two electrodes, an electrolyte, and a separator. One key advantage is its ability to deliver bursts of energy within short periods, making it highly effective for applications that require quick power boosts, such as in electric vehicles for acceleration or in renewable energy systems for load leveling. Supercapacitors have a longer cycle life and are less sensitive to temperature changes, but they generally hold less energy than batteries. Due to these unique properties, supercapacitors are often used in combination with batteries to enhance the performance and lifespan of energy storage systems.
The encouragement for renewable energy adoption is escalating globally, driven by increasing environmental awareness and governmental policies aimed at mitigating climate change. Consequently, the growing focus on renewable energy storage is providing a robust market driver for the supercapacitor industry, as they offer a solution to one of the sector's most pressing challenges. With urban areas becoming increasingly congested, there is a growing emphasis on improving public transportation infrastructure. Supercapacitors offer a way to make public transit more energy-efficient and quick. Additionally, the rise in smart, eco-friendly public transport solutions is therefore fueling the demand for supercapacitors, serving as a noteworthy driver for the market. In addition, the proliferation of digital technologies and cloud computing has led to an exponential growth in data centers. These facilities require uninterrupted power supply (UPS) systems to protect against data loss in the event of power failures. Apart from this, the demand for small yet powerful energy storage units are driving the adoption of supercapacitors. Moreover, the provision of tax benefits, grants, and subsidies for the adoption of green technologies is creating a positive market outlook.
Acceleration of Electric Vehicle Adoption
Electric Vehicles (EVs) are gaining tremendous traction as a sustainable alternative to traditional combustion-engine vehicles, stimulated by advancements in battery technology and supportive government incentives. However, the extended charging times and limited lifespan of batteries remain a concern for consumers. Supercapacitors offer a compelling answer to these problems. They can handle quick charging and discharging cycles, making them perfect for applications, such as regenerative braking or quick acceleration. Additionally, various automakers are exploring hybrid systems that use both batteries and supercapacitors to optimize performance and extend the overall life of the energy storage system. With EV adoption predicted to rise exponentially in the coming years, the demand for supercapacitors is expected to grow proportionately, acting as a significant market driver.
Advancements in Consumer Electronics
Consumer electronics, such as smartphones, laptops, and wearable devices, have seen phenomenal growth in the past decade. As these gadgets become increasingly sophisticated, there's an escalating demand for energy storage solutions that can offer quick charging and high energy output. Along with this, supercapacitors fit this requirement perfectly. They can be charged in seconds, offer a high-power output for better device performance, and have a long operational life. Moreover, the trend toward fast-charging tech in consumer electronics is pushing manufacturers to explore supercapacitors as a viable, efficient energy storage solution. This creates a burgeoning market for supercapacitors in the consumer electronics sector, driving industry growth.
Increasing Industrial Automation and IoT Applications
Industrial automation and Internet of Things (IoT) technologies are revolutionizing sectors, including manufacturing, healthcare, and supply chain management. These applications often require sensors and other small devices that need reliable, quick, and efficient energy storage solutions. Supercapacitors, with their quick charge/discharge capabilities and long cycle life, are well-suited for these demanding environments. In automated factory settings, for example, supercapacitors can provide the quick bursts of energy needed to operate machinery efficiently. Additionally, they are also increasingly being used in IoT devices that require a compact, reliable power source. As industrial automation and IoT continue to expand, the need for advanced energy storage solutions, including supercapacitors is set to grow, serving as a strong market driver for the industry.
IMARC Group provides an analysis of the key trends in each segment of the global supercapacitor market report, along with forecasts at the global, regional and country levels for 2024-2032. Our report has categorized the market based on product type, module type, material type, and end use industry.
Electric Double-Layered Capacitors
Pseudocapacitors
Hybrid Capacitors
Pseudocapacitors represent the largest market share
The report has provided a detailed breakup and analysis of the market based on the product type. This includes electric double-layered capacitors, pseudocapacitors, and hybrid capacitors. According to the report, pseudocapacitors accounted for the largest market share.
Pseudocapacitors are a specialized subset of supercapacitors that offer higher energy density due to the faradaic reactions occurring at the electrode-electrolyte interface. This makes them particularly well-suited for applications where both high energy and high power density are required. One major market driver for pseudocapacitors is their growing use in portable electronics. As consumers demand devices with longer battery life and faster charging capabilities, pseudocapacitors are emerging as a reliable solution. Additionally, their potential for quick energy delivery makes them ideal for use in medical equipment, where immediate, reliable power can be crucial. In addition, the expanding field of Internet of Things (IoT) is another avenue where pseudocapacitors are increasingly being utilized, as these devices often require energy-efficient, long-lasting, and rapid-response power sources. Furthermore, ongoing research and development aimed at improving the material science behind pseudocapacitors are likely to further optimize their performance, thereby attracting even more industry interest.
Less than 25V
25-100V
More than 100V
Less than 25V account for the majority of the market share
A detailed breakup and analysis of the market based on the module type has also been provided in the report. This includes less than 25V, 25-100V, and more than 100V. According to the report, less than 25V accounted for the largest market share.
The less than 25V module type in the supercapacitor industry is witnessing considerable demand, driven largely by its versatile applicability in various end-use scenarios. Additionally, the growing consumer electronics sector, where these low-voltage modules are well-suited for gadgets is significantly supporting the market. These devices require energy storage solutions that offer quick charge and discharge cycles without compromising the lifespan, areas where less than 25V supercapacitors excel. Along with this, in industrial settings, low-voltage supercapacitors are increasingly being used in backup power supplies, sensors, and control systems. Their ability to deliver quick bursts of energy reliably makes them ideal for operational continuity in manufacturing processes. Moreover, the growth of IoT is another contributing factor, as low-voltage supercapacitors can be incorporated into compact IoT devices that need efficient, long-lasting power sources. Given these diverse applications that demand reliable and efficient low-voltage energy storage solutions, the market for less than 25V module type supercapacitors is poised for robust growth.
Carbon and Metal Oxide
Conducting Polymer
Composite Materials
Carbon and metal oxide represent the leading market share
The report has provided a detailed breakup and analysis of the market based on the material type. This includes carbon and metal oxide, conducting polymer, and composite materials. According to the report, carbon and metal oxide accounted for the largest market share.
The carbon and metal oxide material types are significant contributors to the advancements in the supercapacitor industry, each with its own set of market drivers. Carbon-based supercapacitors, particularly those using activated carbon, are favored for their high surface area, which allows for greater energy storage. They are widely used in consumer electronics, automotive applications, and renewable energy systems, owing to their cost-effectiveness and high electrical conductivity. On the other hand, metal oxide-based supercapacitors, such as those utilizing ruthenium oxide, are known for their high energy and power density. These are often sought after for specialized applications that demand higher performance metrics, including medical devices and aerospace applications. Apart from this, the ongoing research in nanotechnology is further enhancing the properties of these materials, making them more efficient and scalable. Moreover, as industries continue to seek sustainable and high-performance energy storage solutions, the demand for carbon and metal oxide material types is expected to grow. Collectively, these factors create a favorable market environment for the adoption of carbon and metal oxide materials in the supercapacitor industry.
Automotive and Transportation
Consumer Electronics
Power and Energy
Healthcare
Others
Consumer electronics account for the majority of the market share
A detailed breakup and analysis of the market based on the end use industry has also been provided in the report. This includes automotive and transportation, consumer electronics, power and energy, healthcare, and others. According to the report, consumer electronics accounted for the largest market share.
The consumer electronics sector is a significant market driver for the supercapacitor industry, due to the growing demand for fast-charging and energy-efficient devices. With the advent of increasingly sophisticated smartphones, laptops, and wearable technology, there is a compelling need for energy storage solutions that can keep up with rapid charging requirements while offering longevity. Supercapacitors, particularly those of lower voltage, meet these needs effectively, making them highly attractive for consumer electronics applications. Moreover, as devices become more compact and integrated, supercapacitors offer the advantage of a smaller form factor compared to traditional batteries, without compromising on the energy output. The trend towards wireless and portable gadgets is also bolstering the market for supercapacitors, as these devices often require bursts of high energy for optimal functionality. Additionally, consumer expectations for device performance are rising, setting higher standards for battery life and charging speed. Meeting these expectations with supercapacitors can offer a competitive edge to manufacturers, thereby fueling growth in this segment of the supercapacitor industry.
North America
United States
Canada
Asia Pacific
China
Japan
India
South Korea
Australia
Indonesia
Others
Europe
Germany
France
United Kingdom
Italy
Spain
Russia
Others
Latin America
Brazil
Mexico
Others
Middle East and Africa
Asia Pacific exhibits a clear dominance, accounting for the largest supercapacitor market share
The market research report has also provided a comprehensive analysis of all the major regional markets, which include North America (the United States and Canada); Asia Pacific (China, Japan, India, South Korea, Australia, Indonesia, and others); Europe (Germany, France, the United Kingdom, Italy, Spain, Russia, and others); Latin America (Brazil, Mexico, and others); and the Middle East and Africa. According to the report, Asia Pacific exhibited the largest market segment.
The Asia Pacific region is emerging as a significant market driver for the supercapacitor industry, propelled by various factors that include technological advancements, industrial growth, and government initiatives. One of the key drivers is the rapid adoption of electric vehicles (EVs) in countries, such as China and Japan. The need for fast-charging solutions and regenerative braking systems in EVs aligns well with the capabilities of supercapacitors, thereby increasing their demand. Additionally, Asia Pacific is a hub for consumer electronics manufacturing, another sector where supercapacitors are finding increased usage. With countries including South Korea and Taiwan being leaders in the production of smartphones and other portable devices, the need for efficient energy storage solutions is palpable. Furthermore, the rise in renewable energy projects, particularly in India and China, is driving the need for reliable energy storage, for which supercapacitors are highly suitable. Furthermore, governmental support in the form of subsidies and research grants is also encouraging industry players to invest in supercapacitor technology.
The key players are actively engaged in various activities to advance the technology and its applications. Numerous are focusing on research and development to enhance the energy storage capacity, power density, and overall performance of supercapacitors. Additionally, they are exploring ways to improve the cost-effectiveness and sustainability of manufacturing processes. In addition, companies are collaborating with academic and research institutions to gain insights into innovative materials and designs. This research-driven approach aims to optimize supercapacitors for diverse industries, including automotive, electronics, renewable energy, and consumer electronics. Apart from this, companies are developing supercapacitors for use in electric vehicles, where their quick charging and discharging capabilities can enhance regenerative braking systems and overall energy efficiency. Moreover, they are exploring integration into renewable energy systems to provide rapid energy storage and release, complementing the intermittent nature of solar and wind power generation.
AVX Corporation
Cap-XX Limited (Kyocera)
Eaton Corporation PLC
Elna Co. Ltd. (Taiyo Yuden)
Ioxus Inc. (XS Power Batteries)
Kemet Corporation (Yageo Corporation)
LS Mtron Ltd.
Nippon Chemi-Con Corporation
Panasonic Corporation
Seiko Instruments Inc.
Skeleton Technologies GmbH
Tesla Inc.
In February 2023, AVX Corporation revealed the first supercapacitors, also known as cylindrical, electrochemical, double-layer capacitors, that were automotive-qualified.
In July 2022, Skeleton Technologies GmbH and Siemens established a broad technological alliance for the design, organization, and construction of a fully automated, digital manufacturing facility to make supercapacitors in Germany.
In July 2020, Kemet Corporation (Yageo Corporation) announced the release of the C44U-M, C44P-R, and R75H family of metallized polypropylene dielectric film capacitors.