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市场调查报告书
商品编码
1671215
全球电容器组市场:依设计类型、功能类型、额定电压、安装类型、最终用户、地区、机会、预测,2018 -2032年Capacitor Banks Market Assessment, By Design Type, By Function Type, By Voltage Rating, By Installation Type, By End-user By Region, Opportunities and Forecast, 2018-2032F |
全球电容器组市场规模预计将从2024年的42.6亿美元成长到2032年的60.3亿美元,在2025-2032年预测期内的年复合成长率为 4.42%。近年来,由于能源需求的增加以及向更有效率、更可靠的电力系统的转变,电容器组市场大幅扩张。电容器组已成为现代电网中无功补偿和电压稳定的关键单元。除此之外,工业和公用事业应用采用先进技术,需要稳定的电源供应,推动电容器组市场的需求。
电容器组管理电压波动和谐波失真的能力推动电容器组市场的成长。新兴经济体的快速工业化和城市化预计将在未来几年保持电容器组市场规模的强劲扩张。智慧电网的日益普及以及对先进电能品质解决方案的投资推动对电容器组的需求。此外,各国正计划升级电网以提高可靠性并最大限度地减少能源损失,这进一步推动了对电容器组的需求。
例如,国际再生能源机构在2024年9月报告指出,主要公用事业公司计划在未来几年内每年在清洁发电和智慧电网基础设施上共同投资超过1,160亿美元。该承诺目的是解决老化的电网系统问题,加速太阳能和风能等再生能源的整合,并实现全球气候变迁目标。在需求不断成长的情况下,增强电网弹性和扩大清洁能源容量对于确保能源安全非常重要。这一发展表明电力行业优先投资发电能力,这将推动电容器组的市场需求。
本报告研究了全球电容器组市场,提供市场概况,及依设计类型、功能类型、额定电压、安装类型、最终用户、区域的趋势,和参与市场的公司概况。
Global capacitor banks market is projected to witness a CAGR of 4.42% during the forecast period 2025-2032, growing from USD 4.26 billion in 2024 to USD 6.03 billion in 2032. The market for capacitor banks has seen significant expansion in recent years due to rising energy requirements and a shift toward more efficient and reliable power systems. The capacitor banks are emerging as critical units in contemporary electric networks to ensure reactive power compensation and voltage stability. Apart from this, industrial and utility applications are embracing the advanced technologies that demand a stable power supply, thus propelling the demand for capacitor banks in the market.
Capacitor banks can manage voltage fluctuations and harmonic distortions, which drives growth in the capacitor bank market. Rapid industrialization and urbanization in developing economies are expected to sustain a robust expansion of the capacitor bank market size in the coming years. The increasing adoption of smart grids and investments in sophisticated power quality solutions fuel demand for capacitor banks. Additionally, various countries plan to upgrade their power distribution networks to improve reliability and minimize energy losses, further driving demand for capacitor banks.
For instance, in September 2024, the International Renewable Energy Agency reported that major utility companies planned to jointly invest over USD 116 billion annually in clean power generation and smart grid infrastructure in the coming years. This commitment aims to address aging grid systems, accelerate the integration of renewables like solar and wind, and meet global climate targets. Enhanced grid resilience and expanded clean energy capacity are critical to ensuring energy security amid rising demand. This development indicates that the power sector is prioritizing investments in generation capacity, which will subsequently drive the demand for capacitor banks in the market.
Rising Investment in High-Quality Power Supply Systems Augmenting Market Size
The industrial and commercial sectors are becoming more reliant on advanced technologies and adopting the sensitive electronic equipment that is used in their operations. In addition, the rise in the adoption of industrial automation leads to the need for high-quality power supply systems. Innovative technologies and equipment require a stable, efficient, and reliable power supply, which has significantly driven the demand for capacitor banks in the market. The sectors are focusing on maintaining stable voltage levels and improving power quality, which leads to an increase in investment in capacitor bank equipment.
Additionally, the growing emphasis on energy efficiency and sustainability has led to the adoption of capacitor banks in power distribution networks to minimize losses and optimize energy use. Furthermore, the expansion of transmission and distribution of power networks further amplifies the need for capacitor banks. The capacitor banks can dynamically respond to grid conditions, which makes them ideal for supporting the high-quality power supply system.
For instance, in August 2024, the United States Department of Energy (DOE) decided to invest around USD 2.2 billion in the nation's grid for eight projects across 18 states. The investment will maintain the grid stability and protect against growing threats of extreme weather events to meet load growth from increased manufacturing and commercial sectors. The rising demand for a stable power supply drives the demand for capacitor banks in the market.
Integration of Renewable Energy in Power Grids Creates Market Opportunity
Globally, power sector is prioritizing the adoption of renewable energy sources into the electrical grid. Countries are setting ambitious renewable energy targets as part of their climate commitments and sustainability goals, which could be attained by adopting the proper energy mix in power generation. Renewable energy sources often produce variable output, which could lead to fluctuations in power quality. Capacitor banks play a critical role in stabilizing voltage levels and improving power factor correction, which makes them essential for effective renewable energy integration and management.
Capacitor banks stabilize the grid by injecting reactive power as needed in the application, which ensures consistent voltage levels during transmission and distribution. Capacitor banks enable better management of energy distribution and storage solutions and ensure that excess energy generated from renewable sources can be efficiently utilized. The advanced capacitor banks assist in mitigating harmonics fluctuations and improving the overall efficiency and reliability of the grid, which drives its demand in the market.
For instance, the growth in renewable energy in the United States is expected to be increased by investments in solar and wind energy. Companies are entering into business deals to increase the production of renewable energy in the country. According to the Energy Information Administration (EIA), In February 2025, the United States electric power generation is projected to grow by 2% in 2025 and 1% in 2026, following a 3% increase in 2023, driven largely by surging renewable energy adoption. This would mark the first three-year consecutive growth streak since 2005-2007 if achieved. Solar's share of generation is set to rise from 5% in 2024 to 8% in 2026, fueled by a 45% expansion in solar capacity over the same period. Meanwhile, natural gas' contribution is expected to decline from 43% to 39% as rising prices curb its competitiveness. These trends underscore a pivotal shift toward renewables in the United States energy transition.
Fuse Less Segment is Expected to be the Fastest Growing Segment Among Design Type
Fuse-less capacitor banks are expected to achieve a higher adoption rate during the forecast period, positioning this segment as the fastest-growing in the coming years. By eliminating the need for fuse replacement, fuse-less designs reduce downtime and maintenance costs, which are key drivers of their market demand. Additionally, these capacitor banks ensure a continuous energy flow and effectively manage voltage fluctuations, further boosting their appeal in industries reliant on stable power supply.
Fuse-less designs often integrate advanced protective features and real-time monitoring systems, enhancing reliability and performance in critical applications such as data centres and smart grids. Their compact form factor also simplifies installation in space-constrained environments, broadening their applicability across sectors like renewable energy and urban infrastructure. Collectively, these advantages, such as lower maintenance, operational efficiency, and adaptability, are accelerating demand for fuse-less capacitor banks globally.
Asia-Pacific Leads the Capacitor Banks Market
The Asia-Pacific has dominated the capacitor bank market due to rapid industrialization and substantial investments in clean infrastructure projects. In countries like China, India, and Japan, urbanization and industrialization have significantly increased energy consumption, driving the demand for capacitor banks to stabilize grids and improve power quality.
Furthermore, the Asia-Pacific market is witnessing immense growth in the installation of renewable energy sources, such as solar and wind energy. The transition to greener energy sources requires a stable grid with constant voltage levels and reliable power flow, driving the demand for capacitor banks in the market. The growing focus on technological innovation and smart technologies in industries and the power sector is driving increased demand for capacitor banks to enhance power distribution efficiency. Favorable government policies that support manufacturing advancements and technological upgrades are further fostering the growth of the capacitor banks market.
Additionally, developing countries are increasingly investing in renewable energy infrastructure to expand power generation and transmission capacities. This shift toward sustainable energy solutions is accelerating the adoption of capacitor banks, which play a critical role in stabilizing grids and managing energy flow.
For instance, in November 2024, China is accelerating its renewable energy transformation with the release of the "Renewable Energy Substitution Initiative" issued by the National Development and Reform Commission (NDRC) and five other agencies. This plan, issued by the NDRC and other agencies, aims to increase renewable energy consumption to 1 billion tons of standard coal equivalent (SCE) by 2025 (a 30% rise from 2023) and 5 billion tons SCE by 2030 (a 36% increase from 2025). The strategy shifts focus from capacity expansion to fostering systemic demand through infrastructure upgrades, industrial electrification, and green technologies. This initiative underscores China's commitment to integrating renewables into its economic framework for long-term sustainability.
Future Market Scenario (2025 - 2032F)
Massive investments in infrastructure projects across the region are driving the demand for capacitor banks in the coming years.
Governments are focusing on modernizing existing facilities to maintain a stable power supply, fostering the demand for capacitor banks in the forecast period.
The adoption of smart technologies and the Internet of Things (IoT) is creating the demand for capacitor banks in the market.
The industrial sector is heavily investing in automation, which drives the demand for capacitor banks in the market.
Key Players Landscape and Outlook
To maintain a competitive edge in the capacitor bank market, manufacturers are employing several key strategies. These include product innovation and investing in R&D to develop advanced technologies that offer higher power ratings, improved efficiency, and enhanced performance. Companies are forming strategic partnerships and expanding into new geographic regions to increase their market reach and secure a competitive advantage. Additionally, manufacturers are focusing on securing raw materials and enhancing their product portfolios to sustain growth in the coming years. Emphasis is also placed on product quality, pricing strategies, and customer relationships to strengthen market positions. The market is expected to become increasingly competitive due to product launches, agreements, business expansions, collaborations, and technological developments.
For instance, in February 2024, Powerside announced the launch of a new capacitor bank named Pole-MVar a tuned-filter capacitor bank. The capacitor bank is designed to manage conflicting issues of harmonic distortion and harmonic resonance in a compact pole-mounted unit. The new product will be able to manage power system stability issues. This development helped the company to increase its product portfolio and its market presence.
All segments will be provided for all regions and countries covered
Companies mentioned above DO NOT hold any order as per market share and can be changed as per information available during research work.