過程分析設備：市場佔有率分析、產業趨勢與統計、成長預測（2024-2029）

Process Analytical Instrumentation - Market Share Analysis, Industry Trends & Statistics, Growth Forecasts (2024 - 2029)

出版日期: 2024年09月02日 | 出版商:

Mordor Intelligence | 英文 180 Pages | 商品交期: 2-3個工作天內

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簡介目錄

過程分析設備市場規模預計到2024年為56.7億美元，預計到2029年將達到81.9億美元，在預測期內（2024-2029年）複合年成長率為7.61%。

主要亮點

製程氣體層析法是程式工程中廣泛使用的分析方法。這是最常用的氣體分析方法，因為它允許同時分析多種成分。氣相層析有很長的停機時間並且需要大量的監控。氣相層析由一個製程模組化烘箱組成，可以用不同的模組進行維修或更換。此外，它還可以減少設備停機時間並提高流程生產力。
製造業自動化的進步正在支持這個新興市場的開拓。由於工業4.0世界的影響，製造業正走向自動化。過程分析儀器非常適合這種不斷發展的趨勢。例如，透過整合基本現場匯流排和電子設備說明語言等數位通訊技術和標準，可以對儀器收集的資訊進行結構化並輕鬆訪問，以增強流程並實現持續的準確性。
例如，程式工程中設備的使用增加、全球對藥品的高投資、藥品安全方面的嚴格監管、對食品品質的日益重視、原油和頁岩氣產量的增加以及質譜儀的使用增加等因素。技術進步正在推動所研究市場的成長。光譜儀正在環境、石化、食品安全、冶金、地球化學、臨床毒理學和其他研究領域中得到應用。這些產品主要用於中國、印度和拉丁美洲等市場，以協助遵守日益嚴格的國際環境和消費者安全法規。
分析儀器的軟體許可應被視為所研究市場的關鍵問題之一，因為許可因公司而異。例如，有些允許您在其他電腦上使用該軟體進行資料處理，而有些則要求您為此目的購買第二個許可證。因此，此類問題可能會對預測期內的市場成長產生負面影響。
COVID-19 大流行期間，全球經濟面臨壓力。經過多年的強勁成長，全球貿易放緩，主要是由於歐洲和美國問題的累積。類似的問題未來可能會出現在新興國家。然而，這些短期動態應該凸顯全球貿易體系的長期結構性變化，預計這將有利於所研究的市場。

過程分析設備市場趨勢

製藥和生物技術領域市場顯著成長

生物製藥製造業依靠分析測試來提高生產力、製程最佳化和監控、生技藥品和生物學名藥表徵以及即時產品品管。所有這些對於在生物製藥製造中創建更簡化的流程至關重要，從而降低成本、更一致的產品品質和更有效率的整體製造。
製藥業一直在尋求提高產品品質的方法。隨著設備變得更加精密和準確，製藥業變得更加重視效率。因此，藥品研發的投資不斷增加，預計將為所研究市場的成長提供良好的前景。
此外，層析法和光譜學等重要的分析工具正在取得新的進展。 GC 用於後製，因為層析法(GC) 設備可以分析小而輕的化合物。換句話說，GC是品管中的一個標準流程。然而，在製藥業，氣相層析的主要用途是鑑定揮發性雜質。
光譜學有多種技術，每種技術在不同的製造階段都表現出色。雖然一些技術被廣泛接受，例如近紅外線(NIR) 和傅立葉轉換紅外線(FTIR) 吸收光譜，但兆赫赫茲拉曼光譜等新技術的廣泛採用也可能有利於藥品製造。
最近，光譜學也開始關注藥物的結構組成和分佈。它也應用於品管，幫助檢驗製造過程和最終產品是否滿足嚴格的合規性和監管控制。這些趨勢可能有利於研究市場的未來成長。
2023年4月，印度科技部長宣布了SUPREME計畫。該舉措旨在為該部支持建立的分析儀器設施（AIF）的維護和升級提供財政支援。透過 SUPREME，政府不僅將幫助維護和修復這些設施，還將透過取得額外的附件來幫助加強它們。

預計北美將佔據主要市場佔有率

北美製程分析技術 (PAT) 和設備供應商在過去幾年中不斷提高其技術的易用性、準確性、可靠性和有效性。該行業的公司引入了技術開發和其他創新，以更好地支援實驗室和 QA/QC業務。
在石油和天然氣、金屬和採礦以及製藥等行業，傳統的製造流程涉及生產成品並在實驗室進行測試以確保品質。然而，這些傳統方法存在一些缺點，例如重複製造困難、不斷最佳化製程以及可能出現批次不良等。為了克服這些缺點，美國食品藥物管理局（FDA）引入了一種名為PAT的新技術，並改變了其操作形式。
美國FDA 概述了實施 PAT 的法規結構。透過此框架，FDA 尋求激勵製藥業改善生產過程。北美由於美國和加拿大的存在，在全球過程分析儀器市場中佔據主要佔有率，這兩個國家在研發上投入大量資金，在生命科學、石油天然氣、材料等領域佔有很大佔有率。和生物製藥業。根據Pharmaceutical Commerce稱，美國的藥品市場正在成長。
全部區域新藥核准不斷增加，推動了對醫藥解決方案的需求。這種激增強調了對過程分析設備的需求。這些儀器在分析藥品製造過程中溶液的化學成分和物理性質方面發揮重要作用。 2024 年 6 月，沃特世公司宣布了最新創新產品 Xevo MRT。這款桌上型質譜儀 (MS) 不僅樹立了新的基準，而且還滿足了大量人口和流行病學研究的需求。 Xevo MRT MS 以多功能桌上型形式結合了多重反射飛行時間(MRT) 和混合四極飛行時間(QTof) 技術。 Waters 的 Xevo MRT 質譜儀利用新一代 MRT 技術提供卓越的解析度和速度，確保最高的分析效能。

過程分析儀器產業概述

過程分析設備市場較為分散，有多家主要公司在營運。這些公司不斷投資於策略合作夥伴關係和產品開拓，以增加市場佔有率。市場上主要企業包括 ABB Ltd、西門子股份公司、布魯克公司、艾默生電氣公司和 Endress &Hauser。近期市場趨勢如下：

2024 年 4 月 -美國藥典 (USP) 宣佈設立關於製程分析技術 (PAT) 的專用通則。該舉措旨在定義 PAT、概述其關鍵屬性、確定其推動因素並強調製藥業的實際應用。本章的主要目標是與目前的科學和監管基準保持一致，重點是藥品生產中的即時監控、控制和品質保證。它還深入探討了 PAT 在增強流程理解和最佳化方面的作用，特別是在連續流程驗證 (CPV) 和即時發布檢驗(RTRT) 方面。
2024 年 4 月 - 維美德宣布已完成對西門子股份公司製程氣體層析法與整合業務的收購。西門子股份公司的該部門專門從事 MAXUM II氣相層析平台、系統整合和客戶服務。氣相層析在各個生產階段的氣體和蒸發液體的化學成分分析中發揮著至關重要的作用。該業務利用化學加工、液化天然氣 (LNG)、精製和生質燃料的豐富專業知識，為客戶提供重要的見解，以提高全球的品質、永續性和安全性。

其他好處：

Excel 格式的市場預測 (ME) 表
3 個月的分析師支持

Key Highlights

Process gas chromatography is a vastly used analysis for process engineering. It is the most utilized method for gas analysis since it permits multiple components to be analyzed alongside. Gas chromatographs have plenty of downtime and need a lot of supervision. The gas chromatograph consists of a process modular oven choice that another module may fix and replace. Furthermore, this may decrease equipment downtime and improve process productivity.
The growth of automation in the manufacturing industry has driven the development of the market studied. With the worldwide impact of Industry 4.0, the manufacturing industry is going toward automation. Process analytical instruments are a good fit with this evolving trend. For instance, integrating digital communication technologies and standards such as foundation fieldbus and electronic device description language constructs the information collected by the instruments and makes it readily accessible to enhance the process and deliver persistent accuracy.
In current years, the growth in the market studied has been driven by factors like the increasing use of the equipment in process engineering, high investments in pharmaceuticals worldwide, strict regulations on drug safety, growing emphasis on the quality of food products, rising crude and shale gas production, and technological advancements in mass spectrometers. Spectrometers are discovering applications in environmental, petrochemical, food safety, metallurgical, geochemical, and clinical toxicology research. These products are primarily used in markets such as China, India, and Latin America to help comply with growing stringent international environmental and consumer safety regulations.
Software licensing of analytical instrumentation should be considered among the major challenges to the market studied, as different companies have different licenses. For instance, some allow the use of software on other computers for data processing, while others require the purchase of a second license for this purpose. Hence, such issues may negatively impact the growth of the market studied during the forecast period.
During the COVID-19 pandemic, the global economy was under stress. After many years of strong growth, global trade slowed, mainly due to the accumulation of problems in Europe and the United States. Similar issues might arise in emerging economies in the future. However, these short-term dynamics should clarify the longer-term structural changes in the global trading system, which is anticipated to work in favor of the market studied.

Process Analytical Instrumentation Market Trends

Pharmaceutical and Biotechnology Segment Observing Significant Market Growth

The biopharmaceutical manufacturing industry relies on analytical testing to help improve productivity, optimize and monitor processes, characterize biologics and biosimilars, and provide real-time product quality control. All these are essential in creating a more streamlined process within biomanufacturing, resulting in lower costs, more consistent product quality, and more efficient manufacturing across the board.
The pharmaceutical industry has always searched for ways to improve product quality. Over time, as instrument accuracy and precision have improved, the industry has begun focusing more on efficiency. Hence, the growing investments in pharmaceutical research and development are expected to create a favorable outlook for the growth of the market studied.
Furthermore, crucial analytical tools like chromatography and spectroscopy are gaining new ground. Since chromatography (GC) machines can analyze tiny and light compounds, GC is used in post-production. In other words, GC is a standard process during quality control. However, identifying volatile impurities is the primary use of GC within the pharmaceutical industry.
There are several optical spectroscopy techniques, and each excels at various manufacturing stages. While some methods enjoy wide acceptance, such as near-infrared (NIR) and Fourier transform infrared (FTIR) absorption spectroscopy, broader adoption of newer techniques, such as terahertz Raman spectroscopy, can also benefit pharmaceutical production.
More recently, spectroscopy has also begun to focus on the structural composition and distribution of pharmaceutical products. It has additional applications in quality control, which help validate that manufacturing processes and end products meet strict compliance and regulatory controls. Such trends will favor the growth of the market studied in the future.
In April 2023, India's Science and Technology Minister unveiled the SUPREME program. This initiative aims to offer financial backing to maintain and upgrade analytical instrumentation facilities (AIFs) established with the ministry's backing. Through SUPREME, the government will not only aid in the maintenance and repair of these facilities but also support their enhancement by acquiring additional attachments.

North America Projected to Hold a Significant Market Share

Process analytical technology (PAT) and instrument vendors across North America have continually advanced their technology's usability, accuracy, reliability, and efficacy in the past few years. Companies in this industry have introduced technological developments and other innovations to better support lab and QA/QC operations.
In industries such as oil and gas, metal and mining, and pharmaceuticals, the traditional production processes involve manufacturing the finished products and laboratory analysis to verify their quality. However, these traditional methods have some drawbacks, such as recurring manufacturing difficulties, constant process optimization, and the probability of failed batches. Thus, to overcome these glitches, the new technology known as PAT was introduced by the US Food and Drug Administration (FDA) to change the mode of operation.
The US FDA has outlined a regulatory framework for PAT implementation. With this framework, the FDA tries to motivate the pharmaceutical industry to enhance the production process. Owing to the existence of the United States and Canada, which are countries that spend a substantial amount on research and development and hold a prominent share in the life sciences, oil and gas, materials sciences, pharma, and biopharma industries, North America holds a major share of the global process analytical instrumentation market. According to Pharmaceutical Commerce, the pharmaceutical market is on the rise in the United States.
The approval of new drugs is on the rise across regional countries, propelling the demand for pharmaceutical solutions. This surge underscores the need for process analytical instruments. These instruments play a crucial role in analyzing the chemical composition and physical properties of solutions during drug manufacturing. In June 2024, Waters Corporation introduced its latest innovation, the Xevo MRT. This benchtop mass spectrometer (MS) not only sets new benchmarks but also caters to the demands of large-scale populations and epidemiology studies. The Xevo MRT MS is a fusion of multi-reflecting time-of-flight (MRT) and hybrid quadrupole time-of-flight (QTof) technologies housed in a versatile benchtop design. By harnessing next-generation MRT technology, the Waters Xevo MRT Mass Spectrometer achieves exceptional resolution and speed, ensuring top-notch analytical performance.

Process Analytical Instrumentation Industry Overview

The process analytical instrumentation market is fragmented, with several major companies operating in it. These companies continuously invest in strategic partnerships and product developments to increase their market share. Major players in the market include ABB Ltd, Siemens AG, Bruker Corporation, Emerson Electric Co., and Endress & Hauser. Some of the recent developments in the market are:

April 2024 - The United States Pharmacopeia (USP) announced that it was crafting a dedicated General Chapter on Process Analytical Technology (PAT). This initiative seeks to define PAT, outline its key attributes, identify its enablers, and shed light on its practical applications within the pharmaceutical industry. The chapter's primary goal is to harmonize with prevailing scientific and regulatory benchmarks, with a strong emphasis on real-time monitoring, control, and quality assurance across pharmaceutical manufacturing. It also delves into the realm of PAT's role in enhancing process understanding and optimization, notably in Continuous Process Verification (CPV) and Real-Time Release Testing (RTRT).
April 2024 - Valmet announced that it had finalized its acquisition of Siemens AG's Process Gas Chromatography & Integration business. This sector of Siemens AG specializes in the MAXUM II Gas Chromatograph platform, Systems Integration, and Customer Services. Gas chromatographs play a pivotal role in analyzing the chemical composition of gases and evaporable liquids across various production phases. Leveraging extensive expertise in chemical processes, liquefied natural gas (LNG), refining, and biofuels, this business equips its clients with crucial insights to enhance quality, sustainability, and safety globally.

Additional Benefits:

The market estimate (ME) sheet in Excel format
3 months of analyst support

1 INTRODUCTION

1.1 Study Assumptions and Market Definition
1.2 Scope of the Study

2 RESEARCH METHODOLOGY

3 EXECUTIVE SUMMARY

4 MARKET INSIGHTS

4.1 Market Overview
4.2 Industry Value Chain Analysis
4.3 Industry Attractiveness - Porter's Five Forces Analysis
- 4.3.1 Bargaining Power of Suppliers
- 4.3.2 Bargaining Power of Buyers
- 4.3.3 Threat of New Entrants
- 4.3.4 Threat of Substitutes
- 4.3.5 Degree of Competition
4.4 Impact of Microeconomic Factors on the Market

5 MARKET DYNAMICS

5.1 Market Drivers
- 5.1.1 Introduction of High-efficiency Motors
- 5.1.2 Increasing Adoption of Power Management and Predictive Maintenance Solutions
5.2 Market Challenges
- 5.2.1 Dynamic Global Economy

6 MARKET SEGMENTATION

6.1 By Type
- 6.1.1 Gas Chromatographs
- 6.1.2 Gas Analyzers
- 6.1.3 Liquid Analyzers
- 6.1.4 Spectrometers
6.2 By End-user Industry
- 6.2.1 Oil and Gas
- 6.2.2 Chemicals & Petrochemicals
- 6.2.3 Pharmaceutical & Biotechnology
- 6.2.4 Metal & Mining
- 6.2.5 Water & Wastewater
- 6.2.6 Other End-user Industries
6.3 By Geography
- 6.3.1 North America
- 6.3.2 Europe
- 6.3.3 Asia-Pacific
- 6.3.4 Rest of the World

7 COMPETITIVE LANDSCAPE

7.1 Company Profiles
- 7.1.1 ABB Ltd
- 7.1.2 Siemens AG
- 7.1.3 Bruker Corporation
- 7.1.4 Emerson Electric Co.
- 7.1.5 Endress & Hauser AG
- 7.1.6 Extrel CMS LLC
- 7.1.7 Focused Photonics Inc.
- 7.1.8 Hach Company
- 7.1.9 Horiba Ltd
- 7.1.10 Mettler Toledo
- 7.1.11 MKS Instruments Inc.
- 7.1.12 Neo Monitors AS
- 7.1.13 Schneider Electric SE
- 7.1.14 ServomexGroup Limited
- 7.1.15 SICK AG