市场调查报告书
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1457959
超导磁能储存(SMES)的全球市场:市场规模和占有率分析(依类型(低温SMES、高温SMES)和应用(电力系统、工业应用、研究))、工业需求预测(高达2030)Superconducting Magnetic Energy Storage Market Size and Share Analysis by Type (Low-Temperature SMES, High-Temperature SMES), Application (Power System, Industrial Use, Research) - Global Industry Demand Forecast to 2030 |
2023年全球超导磁储能(SMES)市场总规模将为572亿美元,在10年预测期内以8.4%的速度成长,到2030年将达到1001亿美元。 该产业成长的主要原因是不间断供电需求的增加、电网现代化力度的增加以及公用事业部门融资的增加。
电力系统推动产业发展
中小企业产业以电力系统为主导,预计在 10 年预测期内将以 8.6% 的速度成长。
主要原因是电网系统的发展以满足不断增长的电力需求。
越来越多的人接受低温 SMES 系统
由于与高温SMES相比,低温SMES具有更高的运转安全性,因此从2024年到2030年,低温SMES将以8.5%的速度成长。
除此之外,低温SMES能量密度高,可储存大量电力。 此外,由于它效率高,因此可以储存和回收电力,且能量损失较少。
区域市场:北美领先
北美是中小企业市场的领导者,到 2023 年将占 50% 的占有率。
亚太地区:成长最快的地区
亚太地区在这十年中将成长最快,达到 8.9%。 这是由于可再生资源的日益增加、对智慧电网和分散式能源储存系统的日益重视、不断增长的能源需求以及蓬勃发展的电子产业,这是由于中国、印度和韩国的人口增长和高製造能力。
本报告分析了全球超导磁储能(SMES)市场,描述了市场的基本结构和最新情况、主要推动和抑制因素以及全球、依地区和主要国家的市场规模趋势。 (基于金额,2017-2030 年)、依类型和应用划分的详细趋势、当前的市场竞争状况以及主要公司的概况。
The superconducting magnetic energy storage market had a total value of USD 57.2 billion in 2023 and it will power at a rate of 8.4% by the end of this decade, reaching USD 100.1billion by 2030. The main reasons for industry growth are the growing requirement for an incessant power supply, mounting efforts for modernization of the grid, and the growing fundings in the utilities sector.
Growth Drivers Drivers
The requirement for an incessant power supply is on the rise all over the world because of the snowballing population and urbanization.
Furthermore, for more than hundred years, electricity has been a basic requirement of economies, industries, and human society. For satisfying the mounting requirement, the role of energy storage is apparent.
Other factors that are responsible for the growth of the industry are the improved performance of these systems as opposed to the primitive technologies, for example rapid response, high efficiency, lengthier life cycle, low maintenance and high-power density.
Industry is Led by Power Systems
The industry is led by power systems, and it will power at a rate of 8.6% by the end of this decade.
The main reason for this is the development of the grid system for meeting the incessantly increasing electricity demand.
SMES systems are employed into significant amenities, for example and data centers and medical centers for offering power anytime, particularly throughout outages and grid emergencies.
The government incentives and policies for promoting the employment of energy storage technologies for improving the stability of the grid, enhance renewable energy use, and fulfill sustainability goals power this category.
Also, with tech progressions, the use of this technology in small- and large-scale power systems will increase in the future.
Growing Acceptance of Low-Temperature SMES Systems
The low-temperature SMES will grow at a rate of 8.5% from 2024 to 2030 due to the higher operational safety of this tech than its high temperature counterpart.
Apart from that, these have a higher energy density, because of which it can store plenty of power. Also, these are highly efficient, allowing the storage and recovery of electricity with small amount of energy loss.
This feature turns out to be significant for applications where energy conservation is important. Furthermore, it has a lengthier lifecycle, helping in decreasing the replacement and upkeep costs over time.
Regional Market is Led by North America
North America is the leader of the SMES market, with a 50% share in 2023, because of the mounting power utility network.
As stated by the U.S Energy Information Administration, the production and consumption of renewable energy reached 13% of the total energy production and consumption in 2022. The increase recently is because of the production of high solar, wind, and hydroelectricity.
APAC is the Fastest-Growing Region
APAC will grow the fastest at a rate of 8.9%, by the end of this decade. This is because of the growing obtainability of resources that are renewable in nature, growing emphasis on smart grids and distributed ESSs, growing demand for energy, prosperous electronics sector, flourishing population, and robust manufacturing competences of China, India, South Korea, and Japan.
China is the leading country in the region. It is undertaking several pilot programs and research initiatives to improve the competence and usefulness of these systems.
Furthermore, the count of cities is rising across APAC region, expanding the development prospects for the industry, as cities make use of more electricity than rural area.