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市場調查報告書
商品編碼
1647406
磁光電流互感器市場評估,依類型、應用、地區、機會和預測,2018年至2032年Magnetic Optical Current Transformers Market Assessment, By Type, By Application, By Region, Opportunities and Forecast, 2018-2032F |
全球磁光電流互感器市場預計將從2024年的2.5502億美元成長到2032年的4.8753億美元,在2025-2032年預測期內的年複合成長率為 8.44%。再生能源的整合、智慧電網的發展以及工業自動化程度的提高等多種因素推動對磁光電流互感器(MOCT)的需求。 MOCT 的出色準確性和安全性使其成為現代電網的理想選擇。此外,城市化和工業化的不斷發展需要改善電力基礎設施,進一步加速這些設備的採用。
與電網現代化相關的新趨勢為促進各領域對電湧防護解決方案的投資創造了有利的環境。這是因為再生能源經常受到電壓波動的影響,因此 MOCT 對於保護相關設備非常重要。
新的監管環境推動磁光電流互感器的應用,為未來幾年的市場成長帶來機會。此外,政府和監管機構實施更嚴格的電能品質和安全法規,要求在關鍵操作中使用 MOCT。政府已決定投資各種計畫來刺激市場對 MOCT 的需求。
例如,2024年5月,電力、天然氣和清潔能源供應商國家電網宣布計劃在未來五年內投資約750億美元,其中近一半將用於改善美國馬薩諸塞州和紐約州的能源系統。這項發展凸顯出,私人公司在能源分配方面的投資不斷增加,推動了市場對先進 MOCT 的需求。
在所有地區和國家提供所有區隔。
上述公司並未根據市場佔有率排序,並且可能會根據研究工作期間可用的資訊而變更。
Global magnetic optical current transformers market is projected to witness a CAGR of 8.44% during the forecast period 2025-2032, growing from USD 255.02 million in 2024 to USD 487.53 million in 2032. Several factors are driving the demand for magnetic optical current transformers (MOCTs), including integrating renewable energy, the development of smart grids, and advancements in industrial automation. MOCTs provide superior accuracy and safety features, making them ideal for modern electrical networks. Additionally, the growth of urbanization and industrialization necessitates improvements in electrical infrastructure, further increasing the adoption of these devices.
Emerging trends related to grid modernization create a favorable environment for boosting investment in surge protection solutions across various sectors. Integrating renewable energy into the electrical grid has heightened the demand for MOCTs in different regions, as renewable sources are often subject to voltage fluctuations, making MOCTs essential for protecting associated equipment.
The new regulatory landscape promotes the adoption of magnetic optical current transformers and opens opportunities for market growth in the coming years. Furthermore, governments and regulatory bodies are implementing stricter power quality and safety regulations requiring MOCTs in critical operations. The government decided to invest in different projects to propel the demand for MOCTs in the market.
For instance, in May 2024, National Grid, an electricity, natural gas, and clean energy delivery company, announced its plans to invest an estimated USD 75 billion over the next five years, with nearly half of the funding dedicated to the United States energy system improvements in Massachusetts and New York. This development highlights that rising investments by private companies in energy distribution contribute to the demand for advanced MOCTs in the market.
Increasing Adoption of Monitoring and Measurement Devices for AC and DC Currents Drive Market Growth
The growing complexity of electrical systems is driving the demand for advanced monitoring solutions. The utility sector is particularly concerned about the financial risks associated with damage from power fluctuations, heightening the need for reliable measuring equipment in transmission and distribution applications. Effective monitoring solutions are crucial for properly operating and protecting power systems.
MOCTs are recognized for their high accuracy compared to traditional transformers, contributing to their increasing market demand. The shift towards innovative technologies that involve upgrading power systems further fuels the need for advanced monitoring technologies. MOCTs are particularly well-suited for monitoring and measuring grid activities due to the product's superior performance characteristics, including enhanced isolation, reduced maintenance needs, and immunity to electromagnetic interference.
The features of MOCTs ensure the measurements remain accurate even in complex electrical networks of both AC and DC currents, promoting their adoption in various sectors, including renewable energy and industrial automation sectors. Furthermore, government initiatives aimed at improving safety standards and increasing regulations regarding the use of safety devices in different sectors are driving the demand for MOCTs in the market.
For instance, in August 2024, the Government of India introduced the Machinery and Electrical Equipment Safety (Omnibus Technical Regulation), which establishes mandatory safety standards for machinery and electrical equipment to mitigate the risks associated with electrical accidents in the different sectors. This development highlights the government's push toward adopting metering and safety devices, further enhancing the demand for MOCTs in the market.
Rising Investment in Power Infrastructure Creates Market Opportunity
The power sector has been focused on modernizing infrastructure, resulting in a surge of investment in innovative technologies. This modernization process involves the integration of digital technologies to enhance electrical systems, providing a more reliable and resilient power supply to various end-users and driving investment in smart grid solutions.
Adopting innovative technologies, such as MOCTs, improves the efficiency and reliability of power distribution by integrating multiple energy sources into a unified grid. This transition to renewable energy sources necessitates advanced monitoring solutions to effectively manage the variability and intermittency associated with different energy types.
Moreover, implementing MOCTs within smart grid systems facilitate real-time monitoring and communication, enhancing efficiency and resilience in power systems. MOCTs empower providers to proactively identify potential issues and optimize operations within grids. Consequently, MOCTs are becoming essential tools for ensuring grid resilience and management, thereby increasing their market demand.
For instance, in December 2024, the United States Department of Energy (DOE) announced a USD 28.7 million investment in a more resilient and equitable energy system to protect Florida communities and businesses against extreme weather events. This development creates a fruitful market opportunity for MOCTs to flourish in the coming years.
Fiber Type Magnetic Optical Current Transformers to Drive the Global Market
Fiber type MOCTs have a high adoption rate, making them a dominant segment in the global market. The device is suitable for high-voltage applications and environments with significant electrical noise and resists electromagnetic interference. The fiber type MOCTs provide accurate current measurements with high voltage tolerance and minimal saturation effects due to which magnetic optical current transformers are gaining traction in the market. Its robustness makes the device suitable for power stations and industrial applications in which reliability is paramount.
Fiber type MOCTs can measure both AC and DC currents with high accuracy. Owing to their advanced sensing capabilities, they are used in smart grid technologies, renewable energy integration, and advanced industrial automation systems. They offer precise and instantaneous current measurements, eliminating the shortcomings of conventional current transformers.
Furthermore, with the rise in the complexity of electrical infrastructure, the utility sector is adopting innovative technologies to enhance reliability and efficiency, boosting the demand for fiber type magnetic optical current transformers in the market.
North America Leads the Magnetic Optical Current Transformers Market
North America dominates the MOCTs market and is expected to continue doing so during the forecast period. The demand for MOCTs is fuelled by the region's commitment to integrating renewable energy sources, significant investments in modernizing electrical infrastructure, and increasing applications of electric equipment. Furthermore, the rising focus on enhancing grid reliability and integrating renewable energy sources contributes to the robust demand for magnetic optical current transformers in the market. Rapid technological advancements and urbanization contribute to the continuous growth of the North American MOCTs market.
Moreover, the utility sector seeks reliable solutions for current measurement in increasingly complex electrical networks, which drives the demand for magnetic optical current transformers in the market. The regional government is actively promoting renewable energy through incentives and regulations to reduce carbon emissions. This further creates the opportunity for magnetic optical current transformers market growth in the coming years.
For instance, in September 2024, The United States Department of Energy's (DOE) Office of Electricity (OE) released two Notices of Intent (NOIs) to issue funding for the support of research and development of groundbreaking electric grid technologies. Furthermore, the same year, OE intended to issue two more Notices of Funding Opportunity (NOFOs) totaling USD 13 million to promote a more reliable, resilient, secure, and affordable electric grid, driving the demand for MOCTs in the market.
Future Market Scenario (2025 - 2032F)
Ongoing improvement in sensing technology and the size of MOCTs will improve grid efficiency and the application of the device, driving its demand in the market.
A significant increase in investment in modernizing electrical grids will boost the MOCTs market size in the forecast period.
The utility sector heavily invests in power protection technologies to ensure a reliable power source.
Favorable government policies for improving electrical safety standards and modernizing infrastructure will propel the MOCTs market forward.
Key Players Landscape and Outlook
Continuous innovation characterizes the MOCTs domain globally, as the companies go all out in terms of energy efficiency, product life, and unique features. The market outlook remains positive, owing to increased demand for the integration of renewable energy and increased safety standards driving the demand for magnetic optical current transformers devices. Product launches, agreements, business expansions, collaborations, and developing technologies are projected to increase competition in the fast-paced market.
For instance, in 2024, NR Electric Co., Ltd. supplied control and protection systems and engineering design test systems for the STATCOM project. All the equipment is being used to put into operation the large-capacity Static Synchronous Compensator (STATCOM) project in Chile, marking a significant achievement in enhancing grid stability and power quality in the country and helping the company increase revenue.
For instance, in November 2024, Siemens Ltd received an investment approval of USD 12 million additional for the Kalwa transformer manufacturing facility in Maharashtra, India. This development, driven by energy transition and electrification trends, will help the company increase the production of Grid Technology products in the times ahead.
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.