市場調查報告書
商品編碼
1603749
2030 年推力計市場預測:按類型、技術、應用和地區分類的全球分析Thrust Meter Market Forecasts to 2030 - Global Analysis By Type (Combined and Separate), Technology (Optical Sensor Technology, Strain Gauge Technology, Piezoelectric Sensors, Load Cells and Other Technologies), Application and by Geography |
根據 Stratistics MRC 的數據,全球推力計市場在預測期內將以 7.3% 的複合年成長率成長。
推力計是一種高精度設備,用於航太航太應用,用於測量引擎產生的推力。推力計在測試和開發階段至關重要,因為需要準確的推力輸出讀數來評估電動引擎、火箭引擎和噴射引擎等推進系統的有效性和性能。此外,這些儀表通常安裝在測試台或設施上,以測量引擎推向表面時所施加的力。
根據國際航空運輸協會(IATA)的數據,2023年全球航空需求激增,接近疫情前水平,總運輸量較2022年增加36.9%。
對精確推力評估的需求不斷增加
在航太、汽車、船舶和能源等領域,操作精度對於提高性能和安全性變得越來越重要。準確的推力測量使工程師能夠研究不同條件下的引擎行為,從而實現更好的設計和操作規劃。例如,推力計可以幫助最佳化引擎調整,以提高汽車應用中的加速度和燃油經濟性。此外,隨著越來越多的產業意識到資料驅動決策的好處,對高保真推力測量系統的需求只會增加。
初期投資成本高
購買和安裝推力計的初始成本可能難以承受,特別是對於中小企業 (SME) 而言。這種成本障礙可能會阻止沒有必要資金購買先進測量設備的潛在買家。特別是在成本敏感的行業,當初始成本較高導致投資回收期較長時,公司保護其投資是一項挑戰。此外,由於許多組織選擇不符合行業標準的不太準確和更便宜的替代品,整體市場成長可能會受到影響。
可再生能源技術的利用
世界向再生能源來源的轉變正在為推力計創造新的應用,特別是在風能和水力發電領域。準確的推力測量對於最大限度地提高渦輪機效率和確保有效的能源產出至關重要。隨著各國致力於減少碳排放並轉向清潔能源來源,這些應用中對推力計的需求預計將會增加。此外,製造商可以考慮與可再生能源公司合作,創建符合特定性能標準的客製化解決方案。
市場參與企業之間的競爭
競爭激烈的推力計產業有許多老字型大小企業和新興競爭對手爭奪市場佔有率。這種激烈的競爭帶來的價格戰有可能縮小製造商的利潤率。公司可能面臨降價以保持競爭力的壓力,並且對創新和研發(R&D)的投資可能有限。此外,還存在犧牲產品品質或客戶服務來維持市場佔有率的風險,這可能會損害公司的聲譽並導致其失去客戶。
COVID-19 的爆發對推力計市場產生了重大影響,主要是因為供應鏈中斷和全球停工導致工業活動暫時下降,從而減少了對推力測量設備的需求。在航太工業中,推力計的主要最終用戶飛機生產和測試放緩,迫使許多製造設施關閉。此外,隨著產業開始適應新常態,越來越重視自動化和遠端監控解決方案,需求也逐漸恢復。這項變更促使使用先進的推力計,旨在提高系統安全性和效率。
預計合併後的業務將成為預測期內最大的業務
在推力計市場中,複合細分市場佔有最大佔有率。為了實現更徹底的性能監控,本部分討論將多種功能或測量功能組合到一個設備中的推力測量系統。當需要靜態和動態推力測量時,例如在汽車和航太工業中,組合推力計特別有用。此外,它可以在各種操作條件下提供準確可靠的資料,這對於確保安全、最佳引擎性能以及遵守嚴格的監管要求至關重要。
光學感測器技術領域預計在預測期內複合年成長率最高
在推力計市場中,光學感測器技術領域預計將以最高的複合年成長率成長。該技術使用基於光的感測器來提供高精度的推力測量,使其在精度至關重要的應用中特別有用,例如航太和高性能汽車行業。光學感測器在現代推力測量應用中的吸引力因高靈敏度、快速反應時間以及即使在困難條件下也能工作的能力等優點而增加。此外,隨著行業對效率和精度的關注,對光學感測器技術的需求預計將急劇增加,從而刺激該市場的投資和創新。
由於成熟的發電、汽車和航太工業,北美預計將在推力計市場中佔據最大佔有率。波音和洛克希德馬丁等大型國防承包商和航太製造商的存在對尖端推力測量技術產生了強烈需求,以確保業務效率和安全。該領域的市場得到嚴格的安全法和對研發的大力關注的進一步支持。此外,北美是全球市場的主要企業,因為其先進的基礎設施和技術力促進了創造性推力計量解決方案的採用。
推力計市場預計將以亞太地區最高的複合年成長率成長。中國和印度等國的快速工業化和大規模基礎設施建設投資是這一成長的主要推動力。隨著這些國家的汽車和航太工業不斷發展,以確保最高性能並符合安全標準,對精密推力測量解決方案的需求也在增加。此外,最尖端科技的採用和對能源效率的日益重視正在推動該領域的市場擴張。推力計需求的不斷成長也得益於亞太地區商業太空產業的成長,使其成為全球市場未來成長的關鍵地區。
According to Stratistics MRC, the Global Thrust Meter Market is growing at a CAGR of 7.3% during the forecast period. A thrust meter is a high-precision device used in aerospace and aviation applications to measure the thrust produced by engines. Thrust meters are vital during the testing and development stages because precise thrust output readings are necessary to evaluate the effectiveness and performance of propulsion systems, including electric, rocket, and jet engines. Moreover, these meters, which are usually installed in a test stand or facility, measure the force that the engine applies when thrusting against a surface.
According to the International Air Transport Association (IATA), global air travel demand surged in 2023, nearing pre-pandemic levels, with a 36.9% rise in total traffic from 2022.
Growing need for precise thrust assessment
Precision in operations is becoming more and more important in sectors like aerospace, automotive, marine, and energy in order to improve performance and safety. Engineers can examine engine behavior under various circumstances with the help of precise thrust measurements, which results in better designs and operational plans. Thrust meters, for example, aid in engine tuning optimization for improved acceleration and fuel efficiency in automotive applications. Additionally, the demand for high-fidelity thrust measurement systems will only increase as more industries realize the benefits of making decisions based on data.
Expensive initial investment costs
Purchasing and installing thrust meters can come with unaffordable upfront costs, especially for small and medium-sized businesses (SMEs). This cost barrier may put off prospective purchasers who lack the funds necessary to purchase sophisticated measurement equipment. It can be challenging for businesses to defend the investment when high upfront costs result in longer payback periods, particularly in cost-sensitive industries. Furthermore, the growth of the market as a whole may be impacted as a result of numerous organizations choosing less precise, less expensive substitutes that don't adhere to industry standards.
Utilizing renewable energy technologies
The global shift towards renewable energy sources is creating new applications for thrust meters, particularly in wind and hydroelectric power generation. Precise thrust measurement is essential for maximizing turbine efficiency and guaranteeing effective energy generation. The need for thrust meters in these applications is anticipated to rise as nations make commitments to lowering carbon emissions and switching to cleaner energy sources. Moreover, manufacturers can look into working together with renewable energy firms to create customized solutions that satisfy particular performance standards.
Rivalry among market participants
There are many well-established companies and fresh competitors fighting for market share in the fiercely competitive thrust meter industry. Price wars brought on by this fierce competition may cause manufacturers' profit margins to shrink. Businesses may experience pressure to cut prices in order to stay competitive, which can limit their capacity to make investments in innovation and research and development (R&D). Additionally, businesses run the risk of sacrificing product quality or customer service in an effort to hold onto market share, which could harm their reputation and lose customers.
The COVID-19 pandemic had a major effect on the thrust meter market, mostly because of supply chain disruptions and worldwide lockdowns that temporarily decreased industrial activity and the need for thrust measurement devices. A significant end-user of thrust meters, the aerospace industry, saw a slowdown in aircraft production and testing, and numerous manufacturing facilities were forced to cease operations. Furthermore, demand gradually recovered as industries started to adjust to the new normal, with a greater emphasis on automation and remote monitoring solutions. This change prompted the use of sophisticated thrust meters intended to improve system safety and efficiency.
The Combined segment is expected to be the largest during the forecast period
In the market for thrust meters, the combined segment has the largest share. In order to enable more thorough performance monitoring, this segment discusses thrust measurement systems that combine several functions or measurement capabilities into a single device. When both static and dynamic thrust measurements are needed, as in the automotive and aerospace industries, combined thrust meters are especially useful. Moreover, they are crucial for guaranteeing safety, optimum engine performance, and adherence to strict regulatory requirements because of their capacity to deliver accurate and trustworthy data under a variety of operating circumstances.
The Optical Sensor Technology segment is expected to have the highest CAGR during the forecast period
In the thrust meter market, the optical sensor technology segment is anticipated to grow at the highest CAGR. This technology is especially useful in applications where accuracy is crucial, like the aerospace and high-performance automotive industries, because it uses light-based sensors to provide extremely accurate thrust measurements. The appeal of optical sensors for contemporary thrust measurement applications is increased by their benefits, which include high sensitivity, quick reaction times, and the capacity to function in difficult conditions. Additionally, the need for optical sensor technology is expected to increase dramatically as industries place a greater emphasis on efficiency and accuracy, spurring investment and innovation in this market.
Due to its established power generation, automotive, and aerospace industries, North America is expected to hold the largest share of the thrust meter market. The existence of large defense contractors and aerospace manufacturers like Boeing and Lockheed Martin creates a strong need for cutting-edge thrust measurement technologies to guarantee operational efficiency and safety. The market in this area is further supported by strict safety laws and a strong focus on research and development. Furthermore, North America is a major player in the global market landscape because of its sophisticated infrastructure and technological prowess, which also make it easier for creative thrust meter solutions to be adopted.
The thrust meter market is anticipated to grow at the highest CAGR in the Asia Pacific region. Rapid industrialization and large investments in infrastructure development in nations like China and India are the main drivers of this growth. The need for precise thrust measurement solutions is growing as these countries' automotive and aerospace industries grow in order to guarantee peak performance and adherence to safety standards. Moreover, the adoption of cutting-edge technologies and increased emphasis on energy efficiency fuel market expansion in this area. The increased demand for thrust meters is also a result of the growing commercial space industry in Asia Pacific, which makes it a crucial region for future growth in the global market.
Key players in the market
Some of the key players in Thrust Meter market include Leutert Company, Shoyo Engineering Co., Ltd, RCbenchmark, Binsfeld Engineering Inc., Tecnoveritas, Insatech Marine, VAF Instruments, S-Keeper 7, TomTom-ToolsGmbH, Lockheed Martin Corporation, Woodward, Inc., TE Connectivity Ltd., Honeywell International Inc, Kistler Group and Siemens AG.
In September 2024, Lockheed Martin and Tata Advanced Systems Limited have entered into a teaming agreement to expand upon the companies' business relationship through the C-130J Super Hercules tactical airlifter. This announcement marks a significant step in enhancing India's defence and aerospace capabilities while also deepening India-U.S. strategic ties.
In August 2024, Woodward, Inc. and Hexcel Corporation announced a definitive agreement to combine in an all-stock merger of equals to create a premier integrated systems provider serving the aerospace and industrial sectors. The combined company, to be named Woodward Hexcel, will focus on technology-rich innovations to deliver smarter, cleaner, and safer customer solutions.
In July 2024, Boson Energy and Siemens AG have signed a Memorandum of Understanding (MoU) to facilitate collaboration on technology that converts non-recyclable waste into clean energy. The collaboration aims to advance sustainable, local energy security, enabling hydrogen-powered electric vehicle charging infrastructure without compromising grid stability or impacting consumer prices.