市场调查报告书
商品编码
1465981
质量流量控制器的全球市场:按流量、材料、介质类型、连接技术、最终用途和应用分类 - 2024-2030 年预测Mass Flow Controller Market by Flow Rate, Material, Media Type, Connectivity Technology, End-Use, Application - Global Forecast 2024-2030 |
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预计2023年全球质量流量控制器市场规模为10.9亿美元,预计2024年将达11.5亿美元,2030年将达到15.7亿美元,复合年增长率为5.33%。
质量流量控制器 (MFC) 是一种用于测量、控制和调节气体流量的设备,在某些特殊版本中也用于测量、控制和调节液体流量。 MFC 旨在以特定的流速在系统内输送精确量的流体。 MFC 在各行业都有广泛的应用。在半导体产业,晶片製造过程中使用的精确气体控制直接影响最终产品的品质。此外,MFC 也应用于製药和生物技术领域,以维持药物配方和细胞培养过程中的精确比例。其他应用包括环境监测以及食品和饮料行业包装和碳酸化过程的研究。 MFC市场的主要成长要素包括电子机械系统(MEMS)的进步、製药业投资的增加以及半导体产业对优质产品的需求不断增加。此外,将 MFC 部署到包括替代能源技术在内的新兴应用中也被视为推动市场成长的因素。然而,MFC 的采用受到与 MFC 技术相关的高成本、易受污染和气体成分波动的影响以及需要定期维护和校准的阻碍。另一方面,在全球健康挑战的背景下,智慧製造方法的兴起,对可再生能源领域的日益关注,特别是太阳能电池和燃料电池的生产,以及呼吸护理医疗设备中MFC的采用。正在出现新的成长机会。此外,不断发展的排放标准和对更准确测量方法的需求为市场扩张提供了进一步的机会。
主要市场统计 | |
---|---|
基准年[2023] | 10.9亿美元 |
预测年份 [2024] | 11.5亿美元 |
预测年份 [2030] | 15.7亿美元 |
复合年增长率(%) | 5.33% |
连接技术:扩大基础现场汇流排在质量流量控制器领域的使用,以实现智慧诊断和自动化
类比通讯利用连续讯号来表示资讯。在 MFC 中,类比讯号通常用于简单且经济高效的控制系统。该技术在需要简单流量控製而无需数位通讯的传统系统和应用中是首选。 DeviceNet 是一种数位多点网络,它组合并充当工业控制器和 I/O 设备之间的通讯网络。适用于需要同一网路内的感测器、致动器和控制器之间的互通性和资讯交流的应用。 EtherCAT 是一种以乙太网路为基础的现场汇流排系统,可提供资料更新时间短的高速通讯。适用于需要高速资料交换和精确同步的高速自动化应用。乙太网路/IP 是一种工业网路通讯协定,将乙太网路通讯用于工业自动化应用。基金会现场汇流排是一种数位、串列、双向通讯系统,用作工厂仪器和控制设备的区域网路。非常适合需要多个仪器进行智慧诊断和自动化的製程工业。 Modbus RTU(远端终端单元)是一种串行通讯协定,以其简单性和易于整合而闻名。它被选用于需要以最少的布线进行远距基本通讯的工业应用。 Modbus TCP/IP 是一种 Modbus RTU,它使用 TCP/IP 介面透过乙太网路进行通讯。适用于需要透过乙太网路进行可靠资料传输或与自动化系统整合的应用。 Profibus是自动化技术中最早的现场汇流排通讯标准之一,广泛用于将现场设备连接到製程和自动化系统。 Profinet 是透过工业乙太网进行资料通讯的产业技术标准,专为工业系统中设备的资料收集和控製而开发。 RS-485 是一种标准,描述了平衡数位多点系统中有用的辅助器和接收器电气元件。 RS-485 因其强大的性能而在工业环境中广泛应用。差分讯号传输和高抗噪性使其成为杂讯电气环境中多点网路的理想选择。
最终用途:增加石油和天然气产业质量流量控制器的全球化学品注射应用
在化学工业中,质量流量控制器用于确保气体和液体的精确且可重复的流量,这对于维持产品品质和安全至关重要。它们的应用范围从控制製程反应中反应物的流动到化学混合中添加剂的注入。食品和饮料行业中的 MFC 主要关注卫生和食品安全标准的遵守。 MFC在碳酸化、氮气冲洗和无菌包装过程中发挥重要作用。这里使用的 MFC 必须能够处理食品级气体,通常需要卫生设计和批准用于食品接触的材料。在金属和采矿领域,MFC 用于金属生产、热处理和采矿气体检测系统等应用。 MFC 必须足够坚固,能够承受金属和采矿环境的恶劣条件,包括高温和磨料。石油和天然气产业需要 MFCS 能够高精度、可靠地处理碳氢化合物,通常是在爆炸性环境中。 MFC 对于燃烧器空燃比控制、化学喷射和海底作业等应用至关重要。 MFC 的製药应用包括锭剂包衣、发酵和活性药物成分 (API) 合成。 MFC必须保证准确性和一致性。通常需要满足无尘室要求并提供与製程控制系统的无缝整合。半导体是 MFC 的主要市场,其中化学气相沉积 (CVD) 和等电浆蚀刻等晶片製造製程需要超高纯度气体。准确性、可重复性和快速反应时间对于确保精密製造流程的完整性至关重要。水和污水处理设施中的 MFC 用于化学品注入、曝气过程控制和气体净化系统。易于维护、耐用、耐湿气和耐化学品是水和污水处理设施中 MFC 最理想的特性。
区域洞察
在美洲,美国和加拿大是全球质量流量控制器的主要市场。美国市场是创新中心,这通常体现在与品质流量控制技术相关的新专利的申请上。我们也在节能产品的研究和开发方面进行了大量投资,以满足监管政策的要求。在加拿大,人们对环境永续性的日益关注正在影响 MFC 在环境监测和燃料电池技术等应用中的采用。在巴西和阿根廷等南美国家,工业基础设施正在逐步发展,随着产业的成熟,这可能会导致MFC的需求增加。欧洲 MFC 市场充满活力,注重精度和品质。在先进製造、严格的监管标准和积极的环境政策的推动下,MFC 越来越多地用于污染监测、排放控制和车辆检查。拥有丰富石油和天然气蕴藏量的中东地区需要MFC即使在恶劣环境下也能发挥作用,而客户的偏好主要集中在耐用性和精度。非洲是一个新兴市场,工业部门的投资逐渐增加,导致采矿和农业等应用越来越多地采用MFC。在中国、日本和印度等国家经济快速成长的推动下,亚太地区的 MFC 市场正在显着成长。该地区的特点是在半导体、製药和化学加工等领域进行了大量投资,MFC 广泛用于气体和液体的精确测量和控制。随着半导体製造业的快速发展,中国对 MFC 的需求也迅速增加。日本以其高技术技术力而闻名,持有许多与质量流量控制技术相关的专利。日本半导体产业的持续研究和技术创新持续支持消费者的先进需求。由于製药、石油和天然气行业的成长,印度正在成为一个重要的市场。对智慧製造的投资和工业4.0的实施将成为印度MFC市场的顺风车。
FPNV定位矩阵
FPNV定位矩阵对于评估全球质量流量控制器市场至关重要。我们检视与业务策略和产品满意度相关的关键指标,以对供应商进行全面评估。这种深入的分析使用户能够根据自己的要求做出明智的决策。根据评估,供应商被分为四个成功程度不同的像限:前沿(F)、探路者(P)、利基(N)和重要(V)。
市场占有率分析
市场占有率分析是一种综合工具,可以对全球质量流量控制器市场中供应商的现状进行深入而详细的研究。全面比较和分析供应商在整体收益、基本客群和其他关键指标方面的贡献,以便更好地了解公司的绩效及其在争夺市场占有率时面临的挑战。此外,该分析还提供了对该行业竞争特征的宝贵见解,包括在研究基准年观察到的累积、分散主导地位和合併特征等因素。详细程度的提高使供应商能够做出更明智的决策并制定有效的策略,从而在市场上获得竞争优势。
1. 市场渗透率:提供有关主要企业所服务的市场的全面资讯。
2. 市场开拓:我们深入研究利润丰厚的新兴市场,并分析其在成熟细分市场的渗透率。
3. 市场多元化:提供有关新产品发布、开拓地区、最新发展和投资的详细资讯。
4. 竞争评估和情报:对主要企业的市场占有率、策略、产品、认证、监管状况、专利状况和製造能力进行全面评估。
5. 产品开发与创新:提供对未来技术、研发活动和突破性产品开发的见解。
1.全球质量流量控制器市场规模及预测为何?
2.在全球质量流量控制器市场的预测期间内,有哪些产品、细分市场、应用和领域需要考虑投资?
3.全球质量流量控制器市场的技术趋势和法规结构是什么?
4.全球质量流量控制器市场主要厂商的市场占有率为何?
5.进入全球质量流量控制器市场的适当型态和策略手段是什么?
[197 Pages Report] The Mass Flow Controller Market size was estimated at USD 1.09 billion in 2023 and expected to reach USD 1.15 billion in 2024, at a CAGR 5.33% to reach USD 1.57 billion by 2030.
A mass flow controller (MFC) is an apparatus utilized to measure, control, and regulate the flow of gasses and, in some special versions, liquids. MFCs are designed to deliver precise amounts of fluid at specific flow rates within a system. MFCs have a wide array of applications across several industries. In the semiconductor industry, they are used for chip manufacturing processes, where precise gas control directly influences the quality of the end product. Additionally, MFCs are employed in the pharmaceutical and biotech domains to maintain accurate ratios in drug formulations and cell culture processes. Other uses include environmental monitoring and research in the food and beverage industry for packaging and carbonation processes. The primary growth factors for the MFC market include advancements in micro-electromechanical systems (MEMS), increased investment in the pharmaceutical sector, and the increasing demand for high-quality products in the semiconductor industry. Additionally, the deployment of MFCs in emerging applications, including alternative energy technologies is seen as a growth enabler for the market. However, the adoption of MFC is hindered by the high costs associated with MFC technology, vulnerability to contamination and variations in gas composition, and the need for regular maintenance and calibration. On the other hand, new growth opportunities are emerging within the MFC market because of the rise in smart manufacturing practices, the growing focus on renewable energy sectors, particularly in solar cell and fuel cell production, and the increased adoption of MFCs in medical equipment for respiratory care amid global health challenges. Moreover, evolving emission standards and the need for more accurate measurement methods offer further opportunities for market expansion.
KEY MARKET STATISTICS | |
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Base Year [2023] | USD 1.09 billion |
Estimated Year [2024] | USD 1.15 billion |
Forecast Year [2030] | USD 1.57 billion |
CAGR (%) | 5.33% |
Connectivity Technology: Expanding usage of foundation fieldbus in mass flow controller for intelligent diagnostics and automation
Analog communication utilizes continuous signals to represent information. In MFCs, analog signals are commonly used for simple, cost-effective control systems. This technology is preferred in legacy systems or applications requiring straightforward flow control without digital communication. DeviceNet is a digital, multi-drop network that combines and functions as a communication network between industrial controllers and I/O devices. It is suitable for applications requiring interoperability and information exchange between sensors, actuators, and controllers within the same network. EtherCAT is an Ethernet-based fieldbus system that provides high-speed communication with short data update times. It is preferred in high-speed automation applications demanding rapid data exchange and precise synchronization. Ethernet/IP is an industrial web protocol that uses Ethernet communication for industrial automation applications. Foundation Fieldbus is a digital, serial, two-way communication system that serves as a local area network for factory instrumentation and control devices. It is ideal for process industries where multiple devices need intelligent diagnostics and automation. Modbus RTU (Remote Terminal Unit) is a serial communication protocol, and it is known for its simplicity and easy integration. It is chosen for industrial applications requiring basic communication over long distances with minimal wiring. Modbus TCP/IP is a type of the Modbus RTU that utilizes a TCP/IP interface for communication over Ethernet networks. It is appropriate for applications that require reliable data transfer over Ethernet and greater integration with automation systems. Profibus is one of the earliest standards for Fieldbus communication in automation technology, widely used for connecting field devices to process and automation systems. Profinet is an industry technical norm for data communication over Industrial Ethernet, developed for gathering data from and controlling equipment in industrial systems. RS-485 is a standard representing the electrical elements of drivers and receivers for help in balanced digital multipoint systems. It is widely used for its robust performance in industrial environments. It is best suited for multipoint networks in noisy electrical environments due to its differential signaling and high noise immunity.
End-Use: Increasing application of mass flow controllers in oil & gas sector for chemical injection
In the chemicals industry, mass flow controllers are used to ensure precise and repeatable flow of gasses and liquids, which is crucial for maintaining product quality and safety. Applications vary from controlling the flow of reactants in a process reaction to dosing additives for chemical blending. MFCs in the food and beverage industry are primarily concerned with hygiene and compliance with food safety standards. They play an essential role in carbonation, nitrogen flushing, and aseptic packaging processes. MFCs used here must be able to handle food-grade gasses and often require sanitary design and materials approved for food contact. In metals and mining operations, MFCs are utilized in applications such as metal production, heat treatment, and mining gas detection systems. MFCs must be robust and capable of withstanding the harsh conditions of metal and mining environments, often involving high temperatures and abrasive materials. The oil and gas industry demands MFCS that can handle hydrocarbons with precision and reliability, often in explosive environments. MFCs are essential for applications such as fuel-to-air ratio control for burners, chemical injection, and subsea operations. Pharmaceutical applications for MFCs include tablet coating, fermentation, and synthesis of active pharmaceutical ingredients (APIs). The MFCs must guarantee accuracy and consistency. They often need to meet cleanroom requirements and offer seamless integration with process control systems. Semiconductors are a key market for MFCs with their need for ultra-high purity gasses in chip manufacturing processes such as chemical vapor deposition (CVD) and plasma etching. Precision, repeatability, and fast response times are crucial to ensure the integrity of the delicate manufacturing process. MFCs in water and wastewater treatment facilities are used for dosing chemicals, controlling the aeration process, and gas purification systems. Comfort of maintenance, durability, and resistance to moisture and chemicals are the most sought-after features in MFCs for water and wastewater treatment facilities.
Regional Insights
In the Americas, the United States and Canada are significant markets for mass flow controllers. The US market is a hub of innovation, often reflected in new patents filed for mass flow control technologies. There are sizable investments in research and the development of energy-efficient products to conform to regulatory policies. In Canada, a growing focus on environmental sustainability influences the adoption of MFCs in applications, including environmental monitoring and fuel cell technology. Countries such as Brazil and Argentina are gradually improving their industrial infrastructure in South America, which can direct to increased demand for MFCs as their industries mature. Europe's market for MFCs is dynamic, with a strong emphasis on precision and quality. Driven by an advanced manufacturing sector, stringent regulatory standards, and proactive environmental policies, MFCs are increasingly used for pollution monitoring, emission control, and automotive testing. The Middle East, with its massive oil and gas reserves, requires MFCs that can perform in harsh environments, which directs customer preferences toward durability and precision. Africa is an emerging market where investments are gradually rising in industrial sectors, paving the way for the adoption of MFCs in applications such as mining and agriculture. The APAC region has shown remarkable growth in the MFC market, driven by the rapid expansion of economies, including China, Japan, and India. This region is characterized by significant investments in sectors such as semiconductors, pharmaceuticals, and chemical processing, where MFCs are extensively used for precise measurement and control of gasses and liquids. With a burgeoning semiconductor manufacturing sector, China has seen a surge in demand for MFCs. Japan is known for its technological expertise and has numerous patents concerning mass flow control technologies. The Japanese semiconductor industry's persistent research and innovation continue to drive sophisticated consumer requirements. India is emerging as a key market due to its growing pharmaceutical and oil and gas industries. Investments in smart manufacturing and the adoption of Industry 4.0 are tailwinds for India's MFC market.
FPNV Positioning Matrix
The FPNV Positioning Matrix is pivotal in evaluating the Mass Flow Controller Market. It offers a comprehensive assessment of vendors, examining key metrics related to Business Strategy and Product Satisfaction. This in-depth analysis empowers users to make well-informed decisions aligned with their requirements. Based on the evaluation, the vendors are then categorized into four distinct quadrants representing varying levels of success: Forefront (F), Pathfinder (P), Niche (N), or Vital (V).
Market Share Analysis
The Market Share Analysis is a comprehensive tool that provides an insightful and in-depth examination of the current state of vendors in the Mass Flow Controller Market. By meticulously comparing and analyzing vendor contributions in terms of overall revenue, customer base, and other key metrics, we can offer companies a greater understanding of their performance and the challenges they face when competing for market share. Additionally, this analysis provides valuable insights into the competitive nature of the sector, including factors such as accumulation, fragmentation dominance, and amalgamation traits observed over the base year period studied. With this expanded level of detail, vendors can make more informed decisions and devise effective strategies to gain a competitive edge in the market.
Key Company Profiles
The report delves into recent significant developments in the Mass Flow Controller Market, highlighting leading vendors and their innovative profiles. These include Aalborg Instruments & Controls, Inc., Alicat Scientific by Halma PLC, Axetris AG, Azbil Corporation, Bronkhorst High-Tech B.V., Brooks Instrument, Christian Burkert GmbH & Co. KG, Dakota Instruments, Inc., Dwyer Instruments, Inc., Eldridge Products, Inc., FC Technik AG, Fcon Co., Ltd., Feeger-Lucas-Wolfe, Inc., Hi-Tech Furnace System, Inc., Hitachi Metals Co., Ltd., Horiba, Ltd., Hyko Technologies, Kelly Pneumatics, Inc., KOFLOC Corp., MKS Instruments, Monitor Technologies, LLC, Ohkura Electric Co., Ltd., OMEGA Engineering Inc., Parker-Hannifin Corporation, Plasma Etch, Inc., Sensirion AG, Sierra Instruments, Inc. by The TASI Group, Teledyne Technologies, Tokyo Keiso Co.,Ltd., and Vogtlin Instruments GmbH.
Market Segmentation & Coverage
1. Market Penetration: It presents comprehensive information on the market provided by key players.
2. Market Development: It delves deep into lucrative emerging markets and analyzes the penetration across mature market segments.
3. Market Diversification: It provides detailed information on new product launches, untapped geographic regions, recent developments, and investments.
4. Competitive Assessment & Intelligence: It conducts an exhaustive assessment of market shares, strategies, products, certifications, regulatory approvals, patent landscape, and manufacturing capabilities of the leading players.
5. Product Development & Innovation: It offers intelligent insights on future technologies, R&D activities, and breakthrough product developments.
1. What is the market size and forecast of the Mass Flow Controller Market?
2. Which products, segments, applications, and areas should one consider investing in over the forecast period in the Mass Flow Controller Market?
3. What are the technology trends and regulatory frameworks in the Mass Flow Controller Market?
4. What is the market share of the leading vendors in the Mass Flow Controller Market?
5. Which modes and strategic moves are suitable for entering the Mass Flow Controller Market?