市場調查報告書
商品編碼
1447149
2030 年牽引變壓器市場預測:按類型、電壓、車輛、安裝位置、技術和地區進行的全球分析Traction Transformer Market Forecasts to 2030 - Global Analysis By Type (Tap Changing, Rectifier and Tapped), Voltage, Rolling Stock, Mounting Position, Technology and By Geography |
根據Stratistics MRC預測,2023年全球牽引變壓器市場規模將達16億美元,預計2030年將達到25億美元,預測期內年複合成長率為7.1%。
牽引變壓器是電氣化鐵路系統中的關鍵部件,可將電網的高壓電力轉換為電氣化列車高效運行所需的特定電壓。它們通常安裝在列車內部或軌道沿線,確保牽引系統的最佳供電,使列車平穩且有效率地運行。該裝置將在電氣化鐵路網路中發揮至關重要的作用,透過推廣電力火車頭的使用來提高能源效率並減少對環境的影響。
根據世界銀行數據,全球都市化將從2019年的54.38%躍升至2022年的54.83%,最終在2032年達到55.28%。因此,隨著鐵路計劃數量的不斷增加,牽引變壓器正在得到更廣泛的採用和實施。
電氣化鐵路系統需求不斷成長
隨著世界各國優先考慮永續交通,從傳統鐵路網路向電氣化鐵路網路的轉變正在加速。對牽引變壓器的需求不斷成長,這對於高效的電力轉換和供電至關重要。這一趨勢是由環境問題、政府舉措以及對節能交通解決方案的追求所推動的。鐵路電氣化計劃投資的增加以及技術進步正在推動市場成長。
初始成本高
由於初始成本高昂,政府和公司不願投資電氣化鐵路系統,可能導致計劃延誤或縮減。這種財務障礙可能會限制市場的成長潛力並阻礙向永續交通的過渡。克服初始成本高的挑戰對於普及和促進節能環保的電氣化鐵路網路的廣泛採用至關重要。
開發更有效率、更輕的牽引變壓器
提高效率有助於減少電氣化鐵路系統的能源消耗,並實現永續性目標。輕量材料的使用提高了整體系統性能並簡化了安裝。這項創新滿足了現代交通對緊湊、敏捷解決方案的需求。隨著鐵路網路越來越重視能源效率和簡化營運,牽引變壓器線圈架市場正在蓬勃發展。
嚴格的監管要求
複雜而嚴格的法規可能會大大減慢涉及牽引變壓器的電氣化鐵路計劃的核准流程。合規性挑戰和漫長的授權期限增加了計劃成本,並給投資者帶來了不確定性。監管負擔可能會阻礙鐵路營運商和政府推行電氣化舉措,阻礙市場成長。這種負面影響阻礙了環保和節能鐵路系統的及時實施。
COVID-19 的影響
全球供應鏈中斷、勞動力短缺和經濟不確定性正在減緩牽引變壓器的生產和部署。計劃延誤、預算限制和交通基礎設施投資減少正在影響市場成長。然而,疫情加速了向永續交通的轉變,並凸顯了電氣化的重要性。
預計整流器部分在預測期內將是最大的
預計整流器領域將出現良好成長。該技術可以精確控制電動火車的供電並最佳化性能和能源效率。先進的整流器整合提高了牽引變壓器的整體可靠性和操作彈性。隨著全球電氣化鐵路網需求的不斷增加,整流器對市場產生重大影響,確保可靠、高效的供電。
高鐵板塊預計在預測期內年複合成長率最高
由於對先進高效牽引變壓器技術的需求不斷增加,預計高速列車領域在預測期內將出現最高的年複合成長率。高速列車需要專門的牽引變壓器,能夠處理更高的電壓並在高速行駛時提供無縫供電。隨著各國投資擴大其高鐵網路,對尖端牽引變壓器解決方案的需求正在推動市場成長。
由於對高效和永續運輸解決方案的需求正在推動該地區牽引變壓器的採用,預計亞太地區在預測期內將佔據最大的市場佔有率。都市化、人口成長和環境問題等因素正在加速向電氣化鐵路系統的過渡。此外,在雄心勃勃的鐵路電氣化計劃的支持下,中國和印度是市場擴張的主要貢獻者。
預計北美地區在預測期內的年複合成長率最高,因為該地區專注於減少碳排放和提高能源效率,牽引變壓器在電氣化鐵路系統中的重要性日益增加。美國和加拿大等國家正在進行的基礎設施發展和現代化努力是市場擴張的主要動力。
According to Stratistics MRC, the Global Traction Transformer Market is accounted for $1.6 billion in 2023 and is expected to reach $2.5 billion by 2030 growing at a CAGR of 7.1% during the forecast period. A traction transformer is a critical component in electric rail systems, converting high-voltage electrical power from the grid into the specific voltage required for efficient operation of electric trains. Typically installed onboard or along the track, it ensures optimal power supply to traction systems, enabling trains to run smoothly and efficiently. This device plays a pivotal role in electrified rail networks, enhancing energy efficiency and reducing environmental impact by facilitating the use of electric locomotives.
According to World Bank figures, the worldwide urbanization rate climbed rapidly from 54.38% in 2019 to 54.83% in 2022, eventually reaching 55.28% in 2032. As a result, the growing number of rail projects is leading to greater adoption and implementation of traction transformers on a broad scale
Growing demand for electrified rail systems
As nations worldwide prioritize sustainable transportation, the shift from traditional to electrified rail networks intensifies. Traction transformers, integral to converting and supplying power efficiently, experience heightened demand. This trend is driven by environmental concerns, government initiatives, and the pursuit of energy-efficient transit solutions. The increased investment in rail electrification projects, coupled with advancements in technology boosts the market growth.
High initial cost
Governments and businesses may hesitate to invest in electrified rail systems due to the substantial upfront expenses, leading to delayed or scaled-back projects. This financial barrier limits the market's growth potential and can hinder the transition towards sustainable transportation. Overcoming the challenge of high initial costs becomes crucial to foster widespread adoption of traction transformers and facilitate the broader implementation of energy-efficient and eco-friendly electrified rail networks.
Development of more efficient and lightweight transformers
Enhanced efficiency contributes to reduced energy consumption in electrified rail systems, aligning with sustainability goals. The adoption of lightweight materials improves overall system performance and facilitates easier installation. This innovation addresses the need for compact and agile solutions in modern transportation. As rail networks increasingly prioritize energy efficiency and streamlined operations, the market for traction transformers propel.
Stringent regulatory requirements
Complex and rigorous regulations can significantly slow down the approval process for electrified rail projects, including traction transformers. Compliance challenges and prolonged permit acquisition timelines increase project costs and create uncertainties for investors. The regulatory burden may discourage rail operators and governments from pursuing electrification initiatives, hindering the market's growth. This negative effect impedes the timely implementation of environmentally friendly and energy-efficient rail systems.
Covid-19 Impact
Disruptions in global supply chains, labor shortages, and economic uncertainties have slowed down manufacturing and deployment of traction transformers. Project delays, budget constraints, and reduced investments in transportation infrastructure have affected market growth. However, the pandemic has also accelerated the shift towards sustainable transportation, emphasizing the importance of electrification.
The rectifier segment is expected to be the largest during the forecast period
The rectifier segment is estimated to have a lucrative growth, as this technology enables precise control of power delivery to electric trains, optimizing performance and energy efficiency. The integration of advanced rectifiers enhances the overall reliability and operational flexibility of traction transformers. As the demand for electrified rail networks grows globally, the rectifier's impact on the market is substantial, ensuring a reliable and efficient power supply.
The high-speed trains segment is expected to have the highest CAGR during the forecast period
The high-speed trains segment is anticipated to witness the highest CAGR growth during the forecast period, owing to increased demand for advanced and efficient transformer technologies. High-speed trains require specialized traction transformers capable of handling higher voltages and ensuring seamless power supply at elevated speeds. As countries invest in expanding their high-speed rail networks, the market experiences growth has driven by the need for cutting-edge traction transformer solutions.
Asia Pacific is projected to hold the largest market share during the forecast period owing to the demand for efficient and sustainable transportation solutions has driven the adoption of traction transformers in the region. Factors such as urbanization, population growth, and environmental concerns are accelerating the shift towards electrified rail systems. Furthermore, china and India are major contributors to the market expansion, supported by ambitious railway electrification projects.
North America is projected to have the highest CAGR over the forecast period, owing to the region's focus on reducing carbon emissions and enhancing energy efficiency has heightened the importance of traction transformers in electrified rail systems. Ongoing infrastructure developments and modernization efforts in countries like the United States and Canada are key contributors to the market expansion
Key players in the market
Some of the key players in the Traction Transformer Market include Alstom, ABB, Siemens, Mitsubishi Electric, Hitachi, TBEA, Efacec, Cegelsa , Tamini Transformers, EBG Transformers, Erico, Crompton Greaves, China XD Electric, Hyundai Electric, Bombardier Transportation, Skoda Transportation, Stadler Rail, Vossloh Locomotive, Wilson Transformers and Setrans Holding AS.
In February 2024, ABB to acquire SEAM Group to expand electrification service offering, the acquisition will complement ABB's Electrification Service offering, bringing significant additional expertise to customers in the areas of predictive, preventive, and corrective maintenance
In January 2024, Alstom signs contract with The Royal Commission for AlUla for the Tramway Project in the Kingdom of Saudi Arabia worth more than €500 million. The fully integrated Alstom tramway system will feature 20 state-of-the-art Citadis B battery-trams.
In January 2024, Alstom and Skanska introduce a new report outlining an efficient solution for the new railway connection between Oslo and Stockholm. The report has been generated following an in-depth study and collaboration between the two companies