市場調查報告書
商品編碼
1322298
全球過程儀表市場:2023 年Global Process Instrumentation 2023 |
過程分析儀器 (PAI) 用於通過使用實驗室熟悉的分析技術快速測量關鍵參數來監視、建模、分析和控制製造過程。與實驗室版本相比,這些儀器旨在自動接受樣品並提供實時結果。其主要目的是確保工藝安全、優化操作並保持產品質量。憑藉數十年的廣泛研究和開發,PAI 已被各種製造行業廣泛採用,通過將分析測量納入製造工作流程來提高生產率並滿足法規和質量標準。
製造業相對不受最近金融和科技等其他行業裁員的影響,因為它們因供應鏈中斷而面臨訂單積壓。然而,隨著經濟狀況的變化和供應鏈問題基本上得到解決,零售商正在減少訂單,影響對製成品的需求。這將對勞動力和過程分析設備的需求產生負面影響,特別是作為製造合同。
儘管如此,近年來由於需求枯竭而帶來的強勁利潤帶來了健康的資產負債表和高自由現金流,特別是在高度依賴 PAI 的行業,例如化工和石油天然氣行業。儘管製藥行業表現出保守的採購行為,但對創新藥物的需求持續增長,推動了對 PAI 的潛在投資。此外,對能源效率和降低成本的日益關注促使公司將資本引導至新技術,以優化現有和未來的運營。
COVID-19 大流行和俄羅斯入侵烏克蘭等地緣政治衝突使生產實踐成為人們關注的焦點,影響了全球範圍內的食品加工。這些事件迫使企業重新考慮其運營,以緩解勞動力短缺、勞動力成本上升、供應鏈中斷以及影響原材料供應和成本以及能源價格的地緣政治問題。我是。過程分析技術(包括分析儀器)的實施是製造車間的重要工具。在線儀器提供實時數據,因此可以即時進行調整,而不是在實驗室中對成品進行質量控制測試以確定其是否通過規格。如果沒有 PAI,如果您的流程失敗,您可能會繼續生產不合格的產品,直到您可以將樣品帶到 QC 實驗室進行測試。PAI 可以實時通知您問題,減少延誤和浪費。因此,儘管在不久的將來行業可能出現衰退,但PAI 工具在利潤最大化、減少浪費、縮短交貨時間、提高產品產量、控制流程方面的重要性可能會增加,對連續製造和PAI 的投資可能會增加。這種增長將超越石油和天然氣生產、化學品和半導體等傳統行業,擴展到食品、製藥和生物技術等行業。
本報告調查了全球過程儀器市場,提供了市場整體需求趨勢的信息,以及光譜、電化學、材料表徵、色譜和質譜等各技術的競爭狀況和區域趨勢,我對此進行了總結。
Process analytical instruments (PAI) are used for monitoring, modeling, analyzing, and controlling manufacturing processes by promptly measuring critical parameters using analytical techniques familiar from the laboratory. In contrast to their laboratory counterparts, these instruments are designed to automatically receive samples and provide real-time results. Their primary goal is to ensure process safety, optimize operations, and maintain product quality. PAIs have been widely employed in various manufacturing industries, backed by extensive research and development spanning several decades, with the aim to incorporate analytical measurements into manufacturing workflows, thereby enhancing productivity, and meeting regulatory and quality standards.
In the face of backlogs resulting from supply chain disruptions, the manufacturing industry has been relatively insulated from the layoffs recently witnessed in other sectors such as finance and technology. However, as economic conditions shift and supply chain issues have largely resolved, retailers are reducing orders, affecting demand for manufactured goods. This will negatively impact both the workforce and the demand for process analytical instruments, particularly as the manufacturing sector contracts.
Despite this, the high revenues of recent years resulting from pent-up demand have led to healthy balance sheets and significant free cash flows, particularly in industries heavily reliant on PAIs like the chemical, and the oil and gas industries. Although the pharmaceutical industry has exhibited conservative purchasing behavior, the demand for innovative medicines continues to rise, fostering potential investments in PAIs. Additionally, the growing emphasis on energy efficiency and cost reduction has prompted companies to divert cash to newer technologies to optimize existing and future operations.
The COVID-19 pandemic and geopolitical conflicts, such as the Russian invasion of Ukraine, have brought manufacturing practices into sharp focus, and even impacted the processing of food on a global basis. These events have compelled companies to reassess their operations to mitigate labor shortages, high labor costs, supply chain disruptions, and geopolitical issues affecting raw material access and costs, and energy prices. The implementation of process analytical technologies encompassing analytical instrumentation is a critical tool in manufacturing settings. In-line instrumentation provides real-time data, enabling immediate adjustments, as opposed to quality control testing of finished products in the lab to determine if they pass specifications. Without PAIs, if a process fails, it may continue producing out-of-spec products until samples can be taken to the QC lab and tested. PAIs can provide real-time notification of problems, reducing delays and waste. Therefore, despite potential industrial declines in the near future, the significance of PAI tools in maximizing profits, reducing waste, shortening lead times, and increasing product yields will drive growing investments in continuous manufacturing and PAIs to control processes. This growth will not be limited to traditional fields like oil and gas production, chemicals, and semiconductors, but also extend to industries such as food, pharmaceuticals, and biotechnology.
SDi's “Global Process Instrumentation 2023” observes the dynamics and numerous market trends influencing the industry and analyzes their effect on sales growth for instruments used to monitor in real-time and allow for fast process decision and optimization. As the leading provider of market research on analytical instrumentation, SDi has crafted this report to evaluate and explain what is currently driving this important market. The process analytical instrument market in this report includes process electrochemistry, spectroscopy, chromatography, and other products. These instruments are categorized into five different technology groups that compose the overall market.
Market demand segmented by technique, region, sector, and industry along with yearly market forecasts through 2027. The market estimates have been newly updated with 2022 as the base year and estimates are provided for the following techniques:
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Market opportunities and threats for process analytical instruments and regional trends for the United States & Canada, Europe, China, Japan, India & Other Asia-Pacific, Latin America & the Rest of the World.
Market shares of participating suppliers in each technology category employed by the process analytical instrument industry. Some of the top vendors in the overall market are presented below, in alphabetical order:
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