市場調查報告書
商品編碼
1261627
2022-2028 年全球超導線材市場規模、份額、行業趨勢分析報告(按類型、銷售渠道(直接/間接))、最終用戶(醫療、能源、研究、運輸、其他)、區域展望和預測Global Superconducting Wire Market Size, Share & Industry Trends Analysis Report By Type, By Sales Channel (Direct and Indirect), By End User (Medical, Energy, Research, Transportation, and Others), By Regional Outlook and Forecast, 2022 - 2028 |
預計 2028 年超導線材市場規模將達到 16 億美元,預測期內復合年增長率為 9.1%。
超導線材市場的發展主要是由於對使用超導體的MRI系統的需求增加以及計算機芯片製造技術的改進對超導體的需求增加。 此外,這些超導線體積小且具有高功率傳輸能力。 超導線用於高場磁體、磁共振成像 (MRI) 和核磁共振 (NMR) 磁體等應用。 作為計算機芯片設計技術的組成部分的超導線材也正在取得重大技術改進。
COVID-19 影響分析
在超導線材市場,由於 COVID-19 大流行,業務明顯停滯不前。誕生了。 隨著組織迅速過渡到數字化企業,對半導體設備的需求也在增加。 因此,市場進入者必須應對全球宏觀經濟問題和地緣政治貿易爭端造成的不確定性。 由此可見,雖然疫情最初對市場產生了負面影響,但各行業同步向數字化轉型,為市場創造了增長機會。
市場增長因素
採用超導線替代傳統導線的工作正在取得進展
超導性已被證明可以減少能量損失,從而以比傳統電線配置更少的基礎設施進行長距離傳輸大量能量。 與普通電線相比,高溫超導電線可以最大限度地減少電纜、變壓器、故障限流器、發電機等中的傳輸損耗。 此外,由於高溫超導線鋪設在地下而不是架空,因此減少了普通導線所需的電磁干擾。 因此,整個行業中超導線材的廣泛應用是市場擴張的推動力。
超導線研究預算的擴大
東芝能源系統與解決方案公司 (Toshiba ESS) 已開始使用超導線製作超導電機原型,以滿足移動領域的需求。 該超導電機具有重量輕、輸出功率高、旋轉速度快等特點,最大輸出功率可達2兆瓦,有望應用於大規模移動出行。 此外,在整個預測期內,預計將增加針對醫療保健和運輸行業的磁懸浮研發項目,為市場進入者創造有利可圖的機會。
市場製約因素
缺乏超導相關領域的技術能力
磁懸浮、空中發電機、聚變反應堆、火箭推進、發電機、高場磁鐵等,大部分應用仍處於產品開發的早期階段,大量投資用於尋找新的超導材料。 I在這裡。 終端用戶參與不足也是降低超導線材可靠性的一個因素。 所有這些因素都極大地阻礙了預測期內超導線材市場的擴張。
輸入 Outlook
根據類型,超導線材市場分為低溫超導體 (LTS)、中溫超導體 (MTS) 和高溫超導體 (HTS)。 在2021年的超導線材市場中,高溫超導體(HTS)領域取得了可觀的增長。 使用超導技術的海上風電場的擴張預計將推動對高溫超導體的需求。 一種稱為高溫超導體的超導線主要由陶瓷材料製成,並使用第一代 (1G HTS) 和第二代 (2G HTS) 方法製造。
最終用戶視角
按最終用戶劃分,超導線材市場分為醫療、能源、交通、研究和其他領域。 2021年,超導線材市場將在醫療領域佔據最大的收入份額。 超導線材在核磁共振 (NMR) 和磁共振成像 (MRI) 設備中的使用正在推動這一領域的增長。 醫療專業人員可以在非侵入性生物磁設備的幫助下測試和診斷病情。 具有適度高臨界溫度的超導化合物是二硼化鎂 (MgB2)。
銷售渠道前景
根據銷售渠道,超導線材市場分為直接和間接。 在2021年的超導線材市場中,間接部分正在獲得可觀的增長速度。 第三方,例如員工和銷售合作夥伴,間接營銷公司的產品和服務。 為了集中管理資源和增加利潤,企業除了直接銷售外,還經常採用間接銷售。 例如,一家進行國際銷售的公司可能會製造軟件或硬件並採用間接銷售技術。 許多市場進入者都是跨國公司,他們的超導線材大部分出口,因此他們使用間接營銷。 隨著越來越多的公司進入市場,該行業有望進一步發展。
區域展望
按地區劃分,對北美、歐洲、亞太地區和拉美地區的超導線材市場進行了分析。 歐洲部分在 2021 年獲得了超導線材市場最高的收入份額。 該地區的市場受到聚變研究投資增加和交通部門脫碳嘗試的推動。 此外,超導線材預計將增加其在汽車中的使用,因為它們受到大氣的干擾較少,並且可以以非常高的速度加速車輛。
The Global Superconducting Wire Market size is expected to reach $1.6 billion by 2028, rising at a market growth of 9.1% CAGR during the forecast period.
Electrical cables consisting of superconductive material are known as superconducting wires. These wires have no electrical resistance when cooled past their transition temperatures. Although traditional superconductors like niobium-titanium are most frequently used, high-temperature superconductors like yttrium barium copper oxide (YBCO) are starting to gain popularity. Its primary use is in superconducting magnets applications generally utilized in medical and scientific equipment where strong magnetic fields are required. The market for superconducting wire is primarily driven by the increasing use of superconducting wire in place of conventional wires and the development of offshore wind farms that use superconducting technologies.
Niobium-titanium, as well as other superconductors, make up the superconducting wire. YBCO, a high-temperature superconductor, currently offers numerous advantages over copper and aluminum, including significantly greater current densities as well as zero power dissipation. Superconducting cables are used in the smart grid, electric motors, transformers, and power storage devices. High-temperature superconducting wires, low-temperature superconducting wires, and the medium-temperature superconducting wire are the three main varieties of superconducting wires, respectively, based on the temperature at which the conductor must be chilled to become a superconductor.
The development of the superconducting wire market is primarily being driven by rising demand for MRI systems based on superconductors and improvements in the technology for creating computer chips, which has increased demand for superconductors. Moreover, these superconducting wires are small and have a high power transfer capacity. High-field magnet applications, magnetic resonance imaging (MRI), and nuclear magnetic resonance (NMR) magnets are just a few of the uses for superconducting wires. In addition, superconducting wire, a component of computer chip design technology, is also undergoing significant technical improvement.
COVID-19 Impact Analysis
The COVID-19 pandemic severely hampered business operations in the market for superconducting wire, the adoption of 5G technologies, the growing digitization of the world's economies, and significant investments in data centers opened up new business opportunities. The need for semiconductor devices is rising as organizations rapidly shift into digital enterprises. As a result, market participants must overcome the uncertainty caused by international macroeconomic issues and geopolitical trade disputes. Therefore, it is evident that the pandemic initially had a negative impact on the market, but the simultaneous shift of various industries toward digitalization presented growth opportunities for the market.
Market Growth Factors
Increasing use of superconducting wires in place of regular wires
Superconductivity has been demonstrated to reduce energy losses for transporting a significant quantity of energy over vast distances with less infrastructure development than traditional wire configurations. Compared to normal wires, high-temperature superconducting wires can assure minimal power transmission losses through cables, transformers, fault current limiters, and generators. In addition, since high-temperature superconducting wires are buried or laid on the ground instead of overhead, superconductors also reduce the need for electromagnetic disruptions, which are necessary for normal wires. Therefore, the increased usage of superconducting wires across industries for various purposes is propelling the expansion of the market.
Expanding research spending on superconducting wires
Toshiba Energy Systems & Solutions Company (Toshiba ESS) announced the creation of a prototype superconducting motor employing superconducting wires to address the needs of the mobility sector. Large mobility applications can benefit from the lightweight, high-output density, and high-speed rotation of this superconducting motor, which has the highest capacity of 2 MW. Throughout the projection period, it is also projected that additional magnetic levitation research and development projects for the healthcare and transportation industries would provide market participants with lucrative chances.
Market Restraining Factors
A shortage of technical skills in areas connected to superconductivity
The majority of applications, such as maglev, airborne generators, fusion reactors, rocket propulsion, generators, and high-field magnets, are still in the early stages of product development, and significant investments are being made in the search for new superconducting materials. Insufficient participation from end users is another factor that reduces the dependability of superconducting wires. All these factors significantly hamper the expansion of the superconducting wires market during the forecasted period.
Type Outlook
Based on type, the superconducting wire market is categorized into low temperature superconductor (LTS), medium temperature superconductor (MTS), and high temperature superconductor (HTS). The high temperature semiconductor (HTS) segment procured a considerable growth rate in the superconducting wire market in 2021. The demand for high temperature superconductors is anticipated to be driven by the expansion of offshore wind farms that use superconducting technology. One form of superconducting wire, known as a high temperature superconductor, is made primarily of ceramic materials and is created using the First Generation (1G HTS) as well as Second Generation methods (2G HTS).
End User Outlook
On the basis of end user, the superconducting wire market is divided into medical, energy, transportation, research, and others. The medical segment acquired the largest revenue share in the superconducting wire market in 2021. The use of superconducting wires in nuclear magnetic resonance (NMR) as well as magnetic resonance imaging (MRI) apparatus are propelling the growth of the segment. Medical experts can examine and diagnose conditions with the help of non-invasive biomagnetic equipment. A superconductor compound with a reasonably high critical temperature is magnesium diboride (MgB2).
Sales Channel Outlook
Based on sales channel, the superconducting wire market is segmented into direct and indirect. The indirect segment garnered a remarkable growth rate in the superconducting wire market in 2021. A third party, like an associate or sales partner, indirectly sells a company's goods or services. In order to combine their resources and boost profits, businesses frequently combine indirect sales alongside direct sales. For example, businesses selling to other countries make software or hardware and may employ indirect sales techniques. Since most market participants are multinational companies or export most of their superconducting wires, they use indirect sales. The segment would grow further as more companies emerge in the market.
Regional Outlook
On the basis of region, the superconducting wire market is analyzed across North America, Europe, Asia Pacific, and LAMEA. The Europe segment procured the highest revenue share in the superconducting wire market in 2021. The market in this region is being driven by rising investments in nuclear fusion-based research and rising attempts to decarbonize the transportation sector. Furthermore, due to their capacity to boost a vehicle's speed at very high velocities with less interference from the atmosphere, superconductors are also anticipated to see an increase in automobile use.
The market research report covers the analysis of key stake holders of the market. Key companies profiled in the report include Bruker Corporation, Furukawa Electric Co., Ltd., Fujikura Ltd., Eaton Corporation PLC, FUJI ELECTRIC CO., LTD., Phoenix Contact GmbH & Co. KG, Sumitomo Electric Industries, Ltd., Nexans SA, LS Cable & System Ltd., and MetOx Technologies, Inc.
Market Segments covered in the Report:
By Type
By Sales Channel
By End User
By Geography
Companies Profiled
Unique Offerings from KBV Research
List of Figures