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2030 年粒子计数器市场预测:按产品类型、用途、最终用户和地区进行的全球分析Particle Counters Market Forecasts to 2030 - Global Analysis By Product Type, Application, End User and By Geography |
根据 Stratistics MRC 的数据,2023 年全球颗粒计数器市场规模为 5.7232 亿美元,预计到 2030 年将达到 12.6521 亿美元,预测期内年复合成长率为 12%。
颗粒计数係统是一种可以记录或显示液体或空气中各种颗粒的数量和尺寸的工具。该系统能够在合适的采样气氛中根据合适的粒径范围对一定浓度的所有颗粒进行计数。此外,粒子计数设备的特性取决于许多变量,包括直接成像、光遮蔽性和光散射。通过检测室的粒子被高浓度的光照射。使用光散射技术对检测器检测到的光进行重定向。
据世界卫生组织 (WHO) 估计,每年有 380 万人因家庭空气污染而死亡。
随着时间的推移,颗粒测量领域经历了快速的技术发展。随着时间的推移,基于激光的颗粒计数方法的准确性和灵敏度不断提高。此外,机器学习和人工智能(AI)算法被纳入粒子计数器中,以实现实时资料分析、主动维护计划和性能增强。无线连接和云端基础的资料存储使用户可以更轻鬆地远程访问颗粒测量资料并在不同设备和位置之间共享资讯。
为了确保检测准确可靠,粒子计数器需要定期校准和维护。校准程序可能复杂且耗时,需要合格的技术人员和专业的外部协助。然而,对于没有必要知识和资源的组织来说,粒子计数器的维护可能会很困难,从而导致停机和准确性问题。
由于智能城市和智能建筑的全球趋势,粒子计数器可以整合到智能基础设施中。粒子计数器可用于配备尖端传感器和监控系统的智能建筑,以更有效地检测和管理室内空气质量。此外,将颗粒测量技术整合到建筑管理系统中可以减少污染、最大限度地提高能源效率并提高居住者的舒适度。
预计全球粒子计数器市场将在预测期内阻碍增长。经济衰退和不确定性可能导致各行业支出减少,影响粒子计数器等新机械的投资。此外,在经济不确定时期,企业和组织可能会推迟不太重要的采购,转而购买必需品,从而减缓粒子测量技术的采用。
COVID-19大流行对粒子计数器市场产生了重大影响,带来了机会和挑战。由于人们越来越关注室内空气质量和空气中颗粒传播,对用于监测和维护医疗机构、办公室、学校和其他室内空间安全环境的颗粒计数器的需求不断增加。此次疫情还加速了远程监控解决方案和尖端颗粒测量技术的采用,以促进实时资料分析和预防性维护。
预计空气颗粒计数器领域在预测期内将占据最大份额。空气颗粒计数工具广泛应用于各个行业来检测和监测空气颗粒水平。在医疗保健设施、製造设施、实验室和洁净室环境中,空气颗粒检测仪器对于确保空气质量、污染控制和遵守洁净室标准至关重要。此外,它还具有多种功能,可用于移动检测、连续监测和精确检测超细颗粒,并具有便携式、远程、手持式和冷凝/超细颗粒型号。
预计半导体行业在预测期内将出现最高的年复合成长率。半导体行业需要在製造流程中进行精确的污染控制,因为即使是颗粒物也会对芯片製造产生负面影响。智能手机、汽车和物联网设备等各种应用对电子和半导体元件的需求不断增长,推动了半导体製造设施对最先进颗粒测量解决方案的需求。
由于快速工业化、技术进步以及对环境和医疗保健监测的日益重视,预计亚太市场在预测期内将占据全球粒子计数器市场的最大份额。製药、电子设备、汽车和航太等行业的发展必须遵守严格的质量标准并防止污染,这增加了这些国家对粒子计数器的需求。此外,该地区的人口增长和都市化提高了人们对空气质量监测价值的认识,导致在各种室内环境中采用颗粒计数器。
预计欧洲在预测期内的年复合成长率最高。欧洲拥有蓬勃发展的医疗保健、汽车、航太和电子等行业。该地区严格法规环境、对製造流程高标准的重视以及环境保护推动了对颗粒测量解决方案的需求。由于人们对室内空气质量和职场安全的担忧日益增加,欧洲各地的商业建筑、医院、实验室和洁净室设施越来越多地使用粒子计数器。
According to Stratistics MRC, the Global Particle Counters Market is accounted for $572.32 million in 2023 and is expected to reach $1265.21 million by 2030 growing at a CAGR of 12% during the forecast period. A particle counting system is a tool that can record or display the number and size of different particles in liquid or air. The system can count all of the particles in a concentration according to the appropriate ranges of particle sizes in a suitable sampling atmosphere. Additionally, the nature of particle counting devices is dependent on a number of variables, including direct imaging, light obscuration, and light scattering. Particles that pass through the detection chamber are illuminated with a high concentration of light. The light detected by a detector is redirected using the light scattering method.
According to the World Health Organization, this is estimated that 3.8 million people die each year as a result of household air pollution.
The particle counting sector has experienced rapid technological development over time. The accuracy and sensitivity of laser-based particle counting methods have improved over time. Additionally, the incorporation of machine learning and artificial intelligence (AI) algorithms into particle counters has made it possible to analyze data in real-time, plan ahead for maintenance, and enhance performance. The ability to access particle count data remotely and share information across various devices and locations has been made easier for users by wireless connectivity and cloud-based data storage.
To ensure precise and trustworthy measurements, particle counters need routine calibration and maintenance. Calibration procedures can be intricate and time-consuming; they call for qualified technicians or specialized outside assistance. However, particle counter maintenance can be difficult for organizations without the necessary knowledge or resources, which could result in downtime and accuracy problems.
Particle counters can be integrated into intelligent infrastructure thanks to the global trend toward smart cities and smart buildings. Particle counters can be used in smart buildings with cutting-edge sensors and monitoring systems to more effectively measure and manage indoor air quality. Additionally, particle counting technology can be integrated into building management systems to reduce pollution, maximize energy efficiency, and improve occupant comfort.
The global Particle Counters market expected to hamper growth during the forecast period. Economic downturns or uncertainty can result in decreased spending across a range of industries, which can have an impact on investments in new machinery like particle counters. Moreover, in times of economic uncertainty, companies and organizations might put off less-important purchases in favor of necessities, which would slow the uptake of particle counting technologies.
The COVID-19 pandemic had a big impact on the market for particle counters, bringing with it both opportunities and difficulties. There has been an increase in the demand for particle counters to monitor and maintain safe environments in healthcare facilities, offices, schools, and other indoor spaces as a result of a greater focus on indoor air quality and the transmission of airborne particles. In order to facilitate real-time data analysis and preventive maintenance, the pandemic also accelerated the adoption of remote monitoring solutions and cutting-edge particle counting technologies.
The Airborne Particle Counters segment is expected to be the largest share during the forecast period. The Airborne Particle Counter tools are widely used in a variety of industries for measuring and monitoring airborne particulate matter levels. In healthcare facilities, manufacturing facilities, research labs, and cleanroom environments, airborne particle counters are essential for ensuring air quality, contamination control, and adherence to cleanroom standards. Moreover, they are versatile for on-the-go measurements, ongoing monitoring, and accurate detection of ultrafine particles and are available in portable, remote, handheld, and condensation/ultrafine variants.
The Semiconductor Industry segment is anticipated to witness the highest CAGR growth during the forecast period, due to the negative effects that even tiny particles can have on chip production, the semiconductor industry requires precise contamination control during manufacturing processes. The need for cutting-edge particle counting solutions in semiconductor manufacturing facilities is driven by the rising demand for electronics and semiconductor components in a variety of applications, including smartphones, automotive, and IoT devices.
The Asia Pacific region market is estimated to witness a largest share of the global Particle Counters market during the forecast period, due to its rapid industrialization, technological advancements, and growing emphasis on environmental and healthcare monitoring. Particle counters are increasingly in demand in these nations due to the growth of industries like pharmaceuticals, electronics, automotive, and aerospace, which must adhere to strict quality standards and prevent contamination. Moreover, particle counters have been adopted in a variety of indoor environments due to increased awareness of the value of air quality monitoring caused by the region's expanding population and urbanization.
Europe is projected to have the highest CAGR over the forecast period. Pharmaceuticals, healthcare, the auto industry, aerospace, and electronics all have a strong industrial base in Europe. The demand for particle counting solutions is fueled by the region's stringent regulatory environment, emphasis on upholding high standards in manufacturing procedures, and environmental protection. Particle counters are being used more frequently in commercial buildings, hospitals, research labs, and cleanroom facilities throughout Europe due to rising concerns about indoor air quality and workplace safety.
Some of the key players in Particle Counters market include: Beckman Coulter Inc., Chemtrac Corp., Climet Instruments Company, Extech Instruments Inc., Fluke Corporation, Fortive (Setra Systems), GrayWolf Sensing Solutions LLC, Hal Technology Inc., HYDAC International, Konamax Corporation, Lighthouse Worldwide Solutions, Inc., Markus Klotz GmbH, Olympus Corporation, Palas GmbH, Particle Plus Corp., Particle Plus, Inc., PCE Instruments, Setra Systems Inc., TSI Incorporated and Veltek Associates, Inc.
In July 2022, Climet announced the final lifetime buy of the CI-x56 WiFi Portable Particle counter. Climet is providing customers with over two years of notification that the CI-x56 portable particle counter will eventually be discontinued.
In March 2022, Smart Sensor Devices introduced the HibouAir CO2 Sensor Indoor Air Quality Monitor. This wireless device is simple to install. End users can access the information from anywhere using the HibouAir membership web portal and mobile app.
In September 2021, Particle Measuring Systems launched Lasair Pro Airborne Particle Counter that supports various applications, including clean area monitoring (portable and remote) and classification.