市場調查報告書
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1423759
2030 年旋轉不斷電系統(UPS) 市場預測:按類型、額定功率功率、應用和地區分類的全球分析Rotary Uninterruptible Power Supply Market Forecasts to 2030 - Global Analysis By Type, Power Rating, Application and By Geography |
根據Stratistics MRC預測,2023年全球旋轉式不斷電系統(UPS)市場規模將達7億美元,預計2030年將達到12億美元,預測期內複合年成長率為6.9%。
旋轉式不斷電系統(UPS) 是一種先進的電氣設備,旨在確保在斷電或故障期間為關鍵系統提供持續可靠的供電。該系統由連接到飛輪的高速電動馬達組成,飛輪充當能源儲存裝置。它特別適合需要不斷電系統的關鍵任務應用,例如資料中心、醫院和工業設施。
NAM 的數據顯示,全球貿易額從 2000 年的 4.8 兆美元增至 2017 年的 12.2 兆美元,增加了一倍多。
可靠性和連續性要求
在當今依賴技術的世界中,對持續執行時間的需求增加了可靠電源解決方案的重要性。這種可靠性對於即使短暫斷電也可能導致重大財務損失或危及安全的應用尤其重要。此外,它還擅長在電源故障和停電時提供即時、無縫的電源備份,從而滿足這些苛刻的需求,從而推動了市場的成長。
高成本
與其他 UPS 技術相比,旋轉 UPS 系統通常具有更大的實體佔地面積,並且需要專用的安裝空間,從而導致與場地準備相關的額外成本。與提高旋轉式 UPS 系統的效率和功能相關的研發成本進一步推高了價格。此外,旋轉式UPS系統的維護和營運成本通常較高,這阻礙了市場規模的發展。
技術進步
包括遠端監控和預測性維護功能在內的智慧功能對於尋求主動電源管理解決方案的現代企業來說變得至關重要。數位控制系統和智慧監控等先進功能的整合提高了旋轉式 UPS 系統的整體效能和效率。此外,持續的研發工作重點是提高旋轉式 UPS 系統對各種動態負載條件的適應性,進而推動市場擴張。
對環境造成的影響
旋轉式 UPS 系統對環境的影響是與飛輪旋轉相關的能源消耗,這會增加溫室氣體排放並加劇氣候變遷。原料的提取和製造過程可能會導致環境污染和棲息地破壞。因此,這些系統可能含有鉛酸電池等有害物質和其他有毒物質,阻礙了市場的成長。
COVID-19 的影響
COVID-19 大流行對旋轉不斷電系統(UPS) 市場產生了負面影響,帶來了影響需求和供應的挑戰。全球供應鏈的中斷,特別是製造和運輸部門的中斷,導致 UPS 系統的生產和交付延遲。此外,遠端工作的轉變減少了對某些關鍵基礎設施的直接需求,進一步阻礙了 UPS 市場。
數位旋轉部分預計將在預測期內成為最大的部分
由於將先進數位控制系統與傳統旋轉式 UPS 設計整合以提高整體性能和可靠性的技術,數位旋轉式細分市場預計將佔據最大佔有率。透過整合數位智慧,這些 UPS 系統可以動態適應不斷變化的負載條件,並確保準確、高效的電力傳輸。此外,它還提供增強的診斷功能,實現預測性維護,並最大限度地減少停機時間,從而推動該領域的成長。
資料中心產業預計在預測期內複合年成長率最高
資料中心產業在預測期內將經歷最高的複合年成長率,因為它是現代資訊技術基礎設施的支柱,需要可靠、持續的電力來保護關鍵操作並防止資料遺失,預計該行業的複合年成長率將會上升。這些系統可確保電力故障期間的無縫電力轉換。此外,旋轉式 UPS 處理大型動態負載的能力與資料中心常見的可變電力需求相匹配,從而推動了該領域的成長。
由於快速工業化、都市化加快以及對可靠電力基礎設施的需求不斷成長,亞太地區在預測期內佔據了最大的市場佔有率。包括中國、印度、日本和韓國在內的亞太國家正在經歷資料中心建設、工業成長和技術進步的激增。此外,其快速傳輸能源和處理重負載的能力使其成為抗災基礎設施的關鍵組成部分,並支持該地區的成長。
由於技術創新和對可靠電力解決方案的迫切需求,預計北美在預測期內將呈現最高的複合年成長率。該地區的主要企業包括 ABB Ltd.、施耐德電氣公司、通用電氣公司和 Hitec Electric。此外,對永續性和減少環境影響的關注導致了 UPS 產業能源儲存和轉換技術的創新,推動了該地區的擴張。
According to Stratistics MRC, the Global Rotary Uninterruptible Power Supply (UPS) Market is accounted for $0.7 billion in 2023 and is expected to reach $1.2 billion by 2030 growing at a CAGR of 6.9% during the forecast period. A rotary uninterruptible power supply (UPS) is a sophisticated electrical device designed to ensure continuous and reliable power supply to critical systems in the event of an electrical outage or disturbance. The system consists of a high-speed electric motor connected to a flywheel, which acts as an energy storage device. They are particularly suitable for mission-critical applications where uninterrupted power is essential, such as data centers, hospitals, and industrial facilities.
According to NAM, world trade has more than doubled from USD 4.8 trillion in 2000 to USD 12.2 trillion in 2017.
Reliability and continuity requirements
The need for continuous uptime in today's technology-dependent world has heightened the significance of reliable power solutions. This reliability is particularly crucial in applications where even the briefest power interruption can result in significant financial losses or compromise safety. In addition, they excel at meeting these stringent demands by offering instantaneous and seamless power backup during electrical disturbances or outages, which propels market growth.
High cost
Rotary UPS systems typically have larger physical footprints compared to other UPS technologies, requiring dedicated space for installation, which results in additional expenses related to site preparation. The research and development costs associated with improving the efficiency and functionality of rotary UPS systems further add to their high price. Moreover, the maintenance and operational costs of rotary UPS systems are usually higher, which hinders the market size.
Technological advancements
Smart functionalities, including remote monitoring and predictive maintenance capabilities, are becoming essential for modern businesses seeking proactive power management solutions. The integration of advanced features, such as digital control systems and intelligent monitoring, enhances the overall performance and efficiency of rotary UPS systems. Further, ongoing research and development efforts focus on improving the adaptability of rotary UPS systems to diverse and dynamic load conditions, which boosts market expansion.
Environmental impact
The environmental impact of rotary UPS systems is their energy consumption, which involves the rotation of a flywheel, leading to increased greenhouse gas emissions and contributing to climate change. The extraction of the raw materials and the manufacturing processes can result in environmental pollution as well as habitat destruction. Therefore, these systems may contain hazardous materials such as lead-acid batteries or other toxic substances, which impede market growth.
Covid-19 Impact
The COVID-19 pandemic has had negative impacts on the Rotary Uninterruptible Power Supply (UPS) market, introducing challenges that affected both supply and demand aspects. Disruptions in the global supply chain, particularly in the manufacturing and transportation sectors, led to delays in the production and delivery of UPS systems. Additionally, the shift towards remote work reduced immediate demand for certain types of critical infrastructure, further hampering the UPS market.
The digital rotary segment is expected to be the largest during the forecast period
The digital rotary segment is estimated to hold the largest share due to a technology that integrates advanced digital control systems with the traditional rotary UPS design, enhancing overall performance and reliability. By integrating digital intelligence, these UPS systems can dynamically adjust to changing load conditions, ensuring precise and efficient power delivery. Moreover, they provide enhanced diagnostic capabilities, enabling predictive maintenance and minimizing downtime, which is boosting this segment's expansion.
The data centers segment is expected to have the highest CAGR during the forecast period
The data centers segment is anticipated to have highest CAGR during the forecast period due to the fact that they serve as the backbone of modern information technology infrastructure and require highly reliable and continuous power to safeguard critical operations and prevent data loss. These systems ensure seamless power transitions during electrical disturbances. Furthermore, the rotary UPS's ability to handle large and dynamic loads aligns with the variable power demands typically encountered in data centers, thereby driving segment growth.
Asia Pacific commanded the largest market share during the extrapolated period owing to rapid industrialization, increasing urbanization, and a growing demand for reliable power infrastructure. Countries in Asia-Pacific, including China, India, Japan, and South Korea, are witnessing a surge in data center construction, industrial growth, and technological advancements. In addition, its capacity for rapid energy transfer and ability to handle large loads make it a crucial component of disaster-resilient infrastructure, which is propelling the growth of this region.
North America is expected to witness highest CAGR over the projection period, owing to technological innovation and the critical need for reliable power solutions. This region is home to some of the key players, such as ABB Ltd., Schneider Electric SE, General Electric Company, and Hitec Electric. Additionally, the focus on sustainability and reduced environmental impact is leading to innovations in energy storage and conversion technologies within the UPS sector driving this region's expansion.
Key players in the market
Some of the key players in the Rotary Uninterruptible Power Supply (UPS) Market include Hitec Holdings, Rolls Royce Holdings, Hitzinger, Piller Power System, IEM Power System, Power Systems & Control, ABB, Vycon, Thycon, Powerthru, Ausonia and Falcon Electric, Inc.
In January 2024, ABB announced that it has agreed to acquire Canadian company Real Tech, a leading supplier of innovative optical sensor technology that enables real-time water monitoring and testing.
In December 2023, ABB has signed an agreement with UK-based gravity energy storage firm Gravitricity to explore how hoist expertise and technologies can accelerate the development and implementation of gravity energy storage systems in former mines.