Global Particulate Matter Monitoring Market Size, Share, and COVID-19 Impact Analysis, By Technology (Light Scattering, Gravimetric, Opacity, Beta-Attenuation, and Others), By Size (PM1, PM2.5, PM5, and PM10), By Type (Indoor Monitoring and Outdoor Monitoring), and By Region (North America, Europe, Asia-Pacific, Latin America, Middle East, and Africa), Analysis and Forecast 2023 - 2033.
Industry: AgricultureGlobal Particulate Matter Monitoring Market Insights Forecasts to 2033
- The Global Particulate Matter Monitoring Market Size was Valued at USD 1.36 Billion in 2023
- The Market Size is Growing at a CAGR of 10.73% from 2023 to 2033
- The Worldwide Particulate Matter Monitoring Market Size is Expected to Reach USD 3.77 Billion by 2033
- Asia Pacific is Expected to Grow the fastest during the forecast period.
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The Global Particulate Matter Monitoring Market Size is Anticipated to Exceed USD 3.77 Billion by 2033, Growing at a CAGR of 10.73% from 2023 to 2033.
Market Overview
The primary goal of PM monitoring is to supply air quality information to federal, state, and local regulatory initiatives so they can assess whether a certain area has met the standards for ambient air quality. When comparing data to the standards, a Federal Reference Method (FRM) sampler is utilized to provide uniformity across the country in air pollution monitoring. Currently, the gravimetric approach is the FRM used to measure PM 2.5 in the atmosphere. Ambient air is drawn through unique filters at a predetermined flow rate in FRM-based monitoring. The filters are weighed at a suitable location both before and after the sampling process. The time-averaged concentration for the sampling period is calculated by dividing the net mass of particles accumulated on the filter by the total volume of air measured.
For Instance, in February 2024, the National Ambient Air Quality Standard for fine particulate matter (PM2.5), which is based on health, will be tightened by the EPA from 12.0 µg/m3 to 9.0 µg/m3. After examining the available scientific data, technological details, and the counsel of an impartial scientific panel, this modification is being made. According to the EPA, lowering the limit will boost the economy, enhance quality of life, and have a major positive impact on public health.
The main major factors boosting the market expansion are the increased attention on ambient air quality monitoring around the globe and the rise in cases of various diseases brought on by poor air quality.
Report Coverage
This research report categorizes the market for the particulate matter monitoring market based on various segments and regions forecasts revenue growth and analyzes trends in each submarket. The report analyses the key growth drivers, opportunities, and challenges influencing the particulate matter monitoring market. Recent market developments and competitive strategies such as expansion, product launch, and development, partnership, merger, and acquisition have been included to draw the competitive landscape in the market. The report strategically identifies and profiles the key market players and analyses their core competencies in each sub-segment of the particulate matter monitoring market.
Global Particulate Matter Monitoring Market Report Coverage
Report Coverage | Details |
---|---|
Base Year: | 2023 |
Market Size in 2023: | USD 1.36 Billion |
Forecast Period: | 2023 - 2033 |
Forecast Period CAGR 2023 - 2033 : | 10.73% |
2033 Value Projection: | USD 3.77 Billion |
Historical Data for: | 2019-2022 |
No. of Pages: | 215 |
Tables, Charts & Figures: | 110 |
Segments covered: | By Technology, By Type, By Region |
Companies covered:: | ACOEM Group, AMETEK, Inc., Spectris plc, Teledyne Technologies Incorporated, Thermo Fisher Scientific, Inc., TSI Incorporated, Honeywell International Inc., Sick AG, Particle Measuring Systems (PMS), Opsis AB, Siemens AG, HORIBA, Bosch Auto Parts, Teledyne API, and Others |
Pitfalls & Challenges: | Covid 19 Impact Challanges, Future, Growth and Analysis |
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Driving Factors
Due to mining and industrial sites that can produce severe air pollution, it is crucial to check the quality of the surrounding air. It is critical to comprehend these effects to support prospective action to minimize these detrimental effects and to protect workers and the local community from exposure. Toxic or dangerous substances released into the air by factories, refineries, and other processes are referred to as industrial air pollution. These actions might potentially lead to contamination of the land and water. These actions might negatively affect air quality and environmental health considerably more in areas that are industrializing quickly. Particulate matter and other contaminants have been added to global air pollution due to the development of industrialization and air pollution levels. Due to these pollutants, the governments of several nations have implemented strict local rules and developed various national policies to reduce the amount of air pollution that originates in industrial areas. Similar to this, governments have mandated that businesses including power plants, oil and gas companies, and the automotive industry install particulate matter sensors to monitor and manage the number of pollutants in the air. For instance, the U.S. Environmental Protection Agency (U.S. EPA) was established by the Clean Air Act Amendments to establish primary National Ambient Air Quality Standards (NAAQS) to protect human health and secondary NAAQS to shield materials, plants, forests, and crops from harm caused by exposure to six air pollutants. Particulate matter, ozone, nitrogen oxides, sulfur oxides, carbon monoxide, and lead are some of these contaminants.
Restraining Factors
Particulate matter sensors evaluate all variations in the characteristics of the air moving through the sensor unit to track the particle density. Particulate matter sensors are unable to determine the precise makeup of pollutants, in contrast to gas sensors, which are capable of detecting a variety of contaminants. They can, however, distinguish between different-sized particles. Light scattering technology is the mainstay of current low-cost particulate matter monitoring systems; more accurate, but more costly, traditional laboratory-grade instruments are available. The technology of beta-attenuation offers the mass concentration of particle matter. However, this technology-based instrument's main flaw is that it only has a limited capacity for reading collection and is not a continuous monitoring technology. Furthermore, the high cost of this technology restricts its market acceptability.
Market Segmentation
The particulate matter monitoring market share is classified into technology, size, and type.
- The light scattering segment is estimated to hold the highest market revenue share through the projected period.
Based on the technology, the particulate matter monitoring market is classified into light scattering, gravimetric, opacity, beta-attenuation, and others. Among these, the light scattering segment is estimated to hold the highest market revenue share through the projected period. The structure of the infrared-based PM sensor is not too complicated. Its light source is an infrared LED light. The light emitted by the LED collides with the particles by the light scattering principle, producing reflection. Infrared particle sensors are mostly utilized to detect and alarm relatively big particles in mining dust due to their poorer accuracy. It cannot accurately determine the concentration of particles. The laser principal PM sensor is mainly used in the highly precise detection of particles. It can be integrated into air purifiers, air conditioners, HVAC systems, and home (car, portable) air quality detectors. Furthermore, data gathering and environmental quality monitoring in the Internet of Things domains utilize laser principal sensors.
- The PM 2.5 segment is anticipated to hold the largest market share through the forecast period.
Based on the size, the particulate matter monitoring market is divided into PM1, PM2.5, PM5, and PM10. Among these, the PM 2.5 segment is anticipated to hold the largest market share through the forecast period. Consists of minuscule particles, either solid or liquid, that are small enough to hang suspended in the atmosphere for long periods. These particles can enter the respiratory system deeply and cause respiratory disorders, cardiovascular issues, and even early death when inhaled, they are very dangerous. Monitoring PM2.5, a significant contributor to air pollution, is essential for determining air quality, identifying the sources of pollution, and preserving public health.
- The indoor monitoring segment dominates the market with the largest market share through the forecast period.
Based on the type, the particulate matter monitoring market is categorized into indoor monitoring and outdoor monitoring. Among these, the indoor monitoring segment dominates the market with the largest market share through the forecast period. A key factor influencing indoor air quality is particulate matter (PM). Since most individuals spend most of their time indoors, indoor PM is very important for public health since indoor concentration can fluctuate greatly from outdoor concentration. When gathering information for interior air pollution models, evaluation, or validation, monitoring certain particular indoor PM constituents can also be helpful. To track the kinetics of potential reactions and match the resolution of model estimates, the chosen experimental methods should retain strong accuracy and the collection of data with high temporal and spatial resolution.
Regional Segment Analysis of the Particulate Matter Monitoring Market
- North America (U.S., Canada, Mexico)
- Europe (Germany, France, U.K., Italy, Spain, Rest of Europe)
- Asia-Pacific (China, Japan, India, Rest of APAC)
- South America (Brazil and the Rest of South America)
- The Middle East and Africa (UAE, South Africa, Rest of MEA)
North America is anticipated to hold the largest share of the particulate matter monitoring market over the predicted timeframe.
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North America is anticipated to hold the largest share of the particulate matter monitoring market over the predicted timeframe. The revenue growth of the market in this region is being driven by the quick technological progress in air quality monitoring systems and the increasing awareness among people due to the rapid increase in air pollution. For instance, the EPA has created ambient air quality trends for particle pollution, often known as particulate matter (PM), using a national network of monitoring sites. Fine inhalable particles with sizes typically no more than 2.5 micrometers are referred to as PM2.5. The EPA establishes and monitors nationwide PM air quality guidelines under the Clean Air Act. PM concentrations are measured nationwide by air quality monitors. These data are used by the EPA, and state, tribal, and local agencies to make sure that airborne PM concentrations safeguard human health and the environment.
Asia Pacific is expected to grow at the fastest CAGR growth of the particulate matter monitoring market during the forecast period. Urbanization and industrial growth have accelerated recently in the Asia-Pacific area. Particulate matter emissions rise as a result of this industrial expansion, which includes manufacturing, building, and energy production. For instance, the National Air Quality Monitoring Programme (NAMP), a nationwide program of ambient air quality monitoring, is being carried out by the Central Pollution Control Board. The network, which covers 344 cities and towns across 28 states and 6 Union Territories, is made up of 804 operational stations. The N.A.M.P.'s goals are to ascertain the ambient air quality's status and trends, determine whether the standards set forth are being violated, identify non-attainment cities, gather the knowledge and comprehension required to develop preventive and corrective measures, and comprehend the natural cleansing process that the environment goes through as a result of pollution dilution, dispersion, wind-based movement, dry deposition, precipitation, and chemical transformation of pollutants generated.
Competitive Analysis:
The report offers the appropriate analysis of the key organizations/companies involved within the particulate matter monitoring market along with a comparative evaluation primarily based on their product offering, business overviews, geographic presence, enterprise strategies, segment market share, and SWOT analysis. The report also provides an elaborative analysis focusing on the current news and developments of the companies, which includes product development, innovations, joint ventures, partnerships, mergers & acquisitions, strategic alliances, and others. This allows for the evaluation of the overall competition within the market.
List of Key Companies
- ACOEM Group
- AMETEK, Inc.
- Spectris plc
- Teledyne Technologies Incorporated
- Thermo Fisher Scientific, Inc.
- TSI Incorporated
- Honeywell International Inc.
- Sick AG
- Particle Measuring Systems (PMS)
- Opsis AB
- Siemens AG
- HORIBA
- Bosch Auto Parts
- Teledyne API
- Others
Key Target Audience
- Market Players
- Investors
- End-users
- Government Authorities
- Consulting And Research Firm
- Venture capitalists
- Value-Added Resellers (VARs)
Market Segment
This study forecasts revenue at global, regional, and country levels from 2023 to 2033. Spherical Insights has segmented the particulate matter monitoring market based on the below-mentioned segments:
Global Particulate Matter Monitoring Market, By Technology
- Light Scattering
- Gravimetric
- Opacity
- Beta-Attenuation
- Others
Global Particulate Matter Monitoring Market, By Size
- PM1
- PM2.5
- PM5
- PM10
Global Particulate Matter Monitoring Market, By Type
- Indoor Monitoring
- Outdoor Monitoring
Global Particulate Matter Monitoring Market, By Regional Analysis
- North America
- US
- Canada
- Mexico
- Europe
- Germany
- UK
- France
- Italy
- Spain
- Russia
- Rest of Europe
- Asia Pacific
- China
- Japan
- India
- South Korea
- Australia
- Rest of Asia Pacific
- South America
- Brazil
- Argentina
- Rest of South America
- Middle East & Africa
- UAE
- Saudi Arabia
- Qatar
- South Africa
- Rest of the Middle East & Africa
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