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MA23078743 |
Pages: 383 |
Jul 2023 |
Air quality analyzers are devices that check the air quality around us. It measures different parameters to see how polluted the air is. It can measure tiny particles called particulate matter, gases like carbon dioxide and nitrogen dioxide, and even factors like temperature and humidity. Some of them can also measure air pressure. These devices use special sensors and technology to collect and analyze data about air pollutants. The information it provides helps us understand if the air is clean. These analyzers can be used to make decisions to improve air quality and protect our health. Air quality analyzers are used indoors, outdoors, and in factories to ensure the air we breathe is safe by measuring pollutants like particulate matter and gases that can harm our health.
The global air quality analyzers market size was $4,473.93 million in 2022 and is predicted to grow with a CAGR of 6.4%, by generating a revenue of $8,155.93 million by 2032.
The COVID-19 pandemic has had a significant impact on the global air quality analyzers market. Supply chain disruptions caused delays and shortages in the production and distribution of these analyzers, hindering market growth. The pandemic also led to decreased industrial activities, resulting in reduced emissions and pollutants, thereby affecting the demand for air quality analyzers. However, the crisis also brought about increased awareness of air quality, as people became more conscious of its impact on public health. This heightened awareness created opportunities for the market. Additionally, the healthcare sector witnessed a growing demand for air quality analyzers, particularly in monitoring and controlling airborne pathogens. Governments implemented stricter regulations and policies related to air quality, driving the need for compliance and the use of air quality analyzers. The market also saw a shift towards remote monitoring, with the development of smart, connected analyzers.
The global air quality analyzer market is driven by increasing environmental concerns, stringent regulations, technological advancements, urbanization, health issues, remote monitoring systems, government initiatives, and various industrial applications. A key factor is the growing environmental awareness of people and organizations. People and organizations are becoming more aware of the environment. This has led to an increased demand for quality analyzers, which help measure and improve environmental quality. Additionally, stringent air quality regulations enforced by governments around the world require industries, businesses, and homes to monitor and comply with air quality standards, driving the adoption of these analyzers. Advances in technology have improved accuracy and real-time monitoring capabilities. Monitoring solutions are needed as pollution is increasing due to urbanization. Remote monitoring systems and government initiatives are supporting the growth of the market. Air quality analyzers are used in industrial, commercial, living and research fields.
To know more about global air quality analyzers market drivers, get in touch with our analysts here.
High costs deter potential buyers, especially in areas where funds are limited. Lack of awareness of air quality monitoring limits demand. Inconsistent regulatory standards hamper the need for analytical instruments. Poor infrastructure hinders deployment in remote areas. Technical complexity requires special skills, which are often in short supply in some regions. Limited funding limits procurement and installation. Resistance from polluting industries has slowed regulatory tightening. Data interpretation and integration lack standardization. Limited network coverage affects the effectiveness of the analyzer. Limited network coverage in certain areas compromises the effectiveness and utility of air quality analyzers.
The air quality analyzers market presents several opportunities for growth and development. First, as indoor air quality and its impact on human health gain more attention, there is a need for analyzers capable of monitoring air pollutants. This is a huge opportunity for air quality analyzer manufacturers. Stricter environmental regulations imposed by governments and environmental agencies worldwide drive the need for accurate and reliable analyzers to ensure compliance and facilitate effective pollution control measures. Furthermore, technological advancements in sensor technology, data analytics, and IoT integration enable the development of more sophisticated and precise analyzers, enhancing their efficiency and real-time monitoring capabilities.
To know more about global air quality analyzers market opportunities, get in touch with our analysts here.
The portable indoor analyzers sub-segment accounted for the highest market share in 2022. Firstly, the portable indoor analyzer's convenience and portability have been highly valued by users. These lightweight and compact analyzers allow easy transportation and monitoring of air quality in different indoor environments. Secondly, their real-time monitoring capabilities have contributed to their popularity. Portable indoor analyzers provide primary data on pollutants and contaminants, enabling users to make informed decisions regarding air quality improvement. In addition, these analyzers have a user-friendly, intuitive, and accessible interface that appeals to a wide range of users. Intuitive displays, color-coded indicators, and alarms provide insight into air quality levels. The increasing awareness of indoor air pollution and its impact on health has also fueled the demand for these analyzers. Concerned individuals, businesses, and organizations are actively seeking tools to monitor and enhance indoor air quality, further driving the dominance of portable indoor analyzers. Furthermore, regulatory standards and guidelines emphasizing regular air quality monitoring have contributed to their widespread adoption.
The chemical sub-segment accounted for the highest market share in 2022. Chemical analyzers have dominated the air quality market due to their accuracy, versatility, and ability to detect pollutants. These analyzers, such as gas chromatographs and mass spectrometers, offer high accuracy and sensitivity, allowing low concentrations of contaminants to be detected and measured. They can identify various pollutants, including unstable organic compounds, gases, particles, and toxic chemicals. This adaptability allows for a comprehensive audit of air quality and helps assess the impact of pollutants on human health and the environment. Chemical analyzers also play a crucial role in meeting regulatory compliance requirements by providing accurate data for evaluating air quality against established standards. They are extensively used in research and development activities, enabling scientists to study pollutant composition, monitor emissions, and assess pollution control measures. Industries rely on chemical analyzers for continuous monitoring, ensuring compliance, worker safety, and optimized production processes. Technological advancements have further contributed to their dominance, with compact and portable designs, wireless connectivity, and improved data analysis techniques enabling real-time monitoring and remote data access.
The commercial sub-segment accounted for the highest market share in 2022. The increasing awareness and concern surrounding the negative impacts of air pollution on human health and the environment have fueled the demand for air quality analyzers. Commercial organizations, including businesses, industry and government agencies, recognize the need to filter and maintain good indoor air quality to ensure the health of their employees, in compliance with the following measures. control measures and demonstrate their commitment to environmental maintainability. Moreover, commercial establishments are subject to stringent regulatory benchmarks around air quality, requiring reliable and exact analyzers to measure and analyze pollutant levels. Commercial-grade analyzers are designed to handle industrial applications, offering robustness and the capability to monitor and control emissions in manufacturing, mining, construction, and energy production sectors. These analyzers boast advanced features and functionalities, including real-time monitoring, data logging, wireless connectivity, and integration with building automation systems, making them versatile and suitable for complex monitoring scenarios.
The North America air quality analyzers market generated the highest revenue in 2022. North America has established dominance in the air quality analyzers market due to several key factors. First, the region has been at the forefront of technological advancements in various industries, including air quality analysis, due to a strong emphasis on research and development. This has enabled North American companies to provide advanced analyzers with improved accuracy and data analysis capabilities. Second, implementing strict regulations and standards related to air quality monitoring and pollution control has created a significant demand for analyzers in North America. Agencies like the EPA in the United States and Environment and Climate Change Canada have set stringent guidelines, driving the need for compliant and accurate monitoring solutions. Third, North America's diverse range of industries, such as manufacturing and energy production, require analyzers to monitor emissions and ensure compliance. Increased awareness about the health risks of poor air quality has also spurred demand in residential and public spaces. Furthermore, North America is home to well-established market players with strong brand recognition and extensive distribution networks.
Mergers and acquisitions are common strategies followed by major market players. Some of the leading air quality analyzers market players are Siemens, TSI, Emerson Electric Co., Aeroqual, Thermo Fisher Scientific Inc., IQAir, Honeywell International Inc., Camfil, 3M, and Koninklijke Philips N.V.
Aspect | Particulars |
Historical Market Estimations | 2020-2022 |
Base Year for Market Estimation | 2022 |
Forecast Timeline for Market Projection | 2023-2032 |
Geographical Scope | North America, Europe, Asia-Pacific, and LAMEA |
Segmentation by Product |
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Segmentation by Pollutant Type |
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Segmentation by Application
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Key Companies Profiled |
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1. Research Methodology
1.1. Desk Research
1.2. Real time insights and validation
1.3. Forecast model
1.4. Assumptions and forecast parameters
1.5. Market size estimation
1.5.1. Top-down approach
1.5.2. Bottom-up approach
2. Report Scope
2.1. Market definition
2.2. Key objectives of the study
2.3. Report overview
2.4. Market segmentation
2.5. Overview of the impact of COVID-19 on global air quality analyzers market
3. Executive Summary
4. Market Overview
4.1. Introduction
4.2. Growth impact forces
4.2.1. Drivers
4.2.2. Restraints
4.2.3. Opportunities
4.3. Market value chain analysis
4.3.1. List of raw material suppliers
4.3.2. List of manufacturers
4.3.3. List of distributors
4.4. Innovation & sustainability matrices
4.4.1. Technology matrix
4.4.2. Regulatory matrix
4.5. Porter’s five forces analysis
4.5.1. Bargaining power of suppliers
4.5.2. Bargaining power of consumers
4.5.3. Threat of substitutes
4.5.4. Threat of new entrants
4.5.5. Competitive Rivalry Intensity
4.6. PESTLE analysis
4.6.1. Political
4.6.2. Economical
4.6.3. Social
4.6.4. Technological
4.6.5. Environmental
4.7. Impact of COVID-19 on air quality analyzers market
4.7.1. Pre-covid market scenario
4.7.2. Post-covid market scenario
5. Air Quality Analyzers Market Analysis, By Product
5.1. Overview
5.2. Fixed Indoor Analyzers
5.2.1. Definition, key trends, growth factors, and opportunities
5.2.2. Market size analysis, by region, 2022-2032
5.2.3. Market share analysis, by country, 2022-2032
5.3. Portable Indoor Analyzers
5.3.1. Definition, key trends, growth factors, and opportunities
5.3.2. Market size analysis, by region, 2022-2032
5.3.3. Market share analysis, by country, 2022-2032
5.4. Research Dive Exclusive Insights
5.4.1. Market attractiveness
5.4.2. Competition heatmap
6. Air Quality Analyzers Market Analysis, by Pollutant Type
6.1. Overview
6.2. Chemical
6.2.1. Definition, key trends, growth factors, and opportunities
6.2.2. Market size analysis, by region, 2022-2032
6.2.3. Market share analysis, by country, 2022-2032
6.3. Physical
6.3.1. Definition, key trends, growth factors, and opportunities
6.3.2. Market size analysis, by region, 2022-2032
6.3.3. Market share analysis, by country, 2022-2032
6.4. Biological
6.4.1. Definition, key trends, growth factors, and opportunities
6.4.2. Market size analysis, by region, 2022-2032
6.4.3. Market share analysis, by country, 2022-2032
6.5. Research Dive Exclusive Insights
6.5.1. Market attractiveness
6.5.2. Competition heatmap
7. Air Quality Analyzers Market Analysis, by Application
7.1. Overview
7.2. Industrial
7.2.1. Definition, key trends, growth factors, and opportunities
7.2.2. Market size analysis, by region, 2022-2032
7.2.3. Market share analysis, by country, 2022-2032
7.3. Educational Institutions
7.3.1. Definition, key trends, growth factors, and opportunities
7.3.2. Market size analysis, by region, 2022-2032
7.3.3. Market share analysis, by country, 2022-2032
7.4. Commercial
7.4.1. Definition, key trends, growth factors, and opportunities
7.4.2. Market size analysis, by region, 2022-2032
7.4.3. Market share analysis, by country, 2022-2032
7.5. Residential
7.5.1. Definition, key trends, growth factors, and opportunities
7.5.2. Market size analysis, by region, 2022-2032
7.5.3. Market share analysis, by country, 2022-2032
7.6. Research Dive Exclusive Insights
7.6.1. Market attractiveness
7.6.2. Competition heatmap
8. Air Quality Analyzers Market, by Region
8.1. North America
8.1.1. U.S.
8.1.1.1. Market size analysis, by Product, 2022-2032
8.1.1.2. Market size analysis, by Pollutant Type, 2022-2032
8.1.1.3. Market size analysis, by Application, 2022-2032
8.1.2. Canada
8.1.2.1. Market size analysis, by Product, 2022-2032
8.1.2.2. Market size analysis, by Pollutant Type, 2022-2032
8.1.2.3. Market size analysis, by Application, 2022-2032
8.1.3. Mexico
8.1.3.1. Market size analysis, by Product, 2022-2032
8.1.3.2. Market size analysis, by Pollutant Type, 2022-2032
8.1.3.3. Market size analysis, by Application, 2022-2032
8.1.4. Research Dive Exclusive Insights
8.1.4.1. Market attractiveness
8.1.4.2. Competition heatmap
8.2. Europe
8.2.1. Germany
8.2.1.1. Market size analysis, by Product, 2022-2032
8.2.1.2. Market size analysis, by Pollutant Type, 2022-2032
8.2.1.3. Market size analysis, by Application, 2022-2032
8.2.2. UK
8.2.2.1. Market size analysis, by Product, 2022-2032
8.2.2.2. Market size analysis, by Pollutant Type, 2022-2032
8.2.2.3. Market size analysis, by Application, 2022-2032
8.2.3. France
8.2.3.1. Market size analysis, by Product, 2022-2032
8.2.3.2. Market size analysis, by Pollutant Type, 2022-2032
8.2.3.3. Market size analysis, by Application, 2022-2032
8.2.4. Spain
8.2.4.1. Market size analysis, by Product, 2022-2032
8.2.4.2. Market size analysis, by Pollutant Type, 2022-2032
8.2.4.3. Market size analysis, by Application, 2022-2032
8.2.5. Italy
8.2.5.1. Market size analysis, by Product, 2022-2032
8.2.5.2. Market size analysis, by Pollutant Type, 2022-2032
8.2.5.3. Market size analysis, by Application, 2022-2032
8.2.6. Rest of Europe
8.2.6.1. Market size analysis, by Product, 2022-2032
8.2.6.2. Market size analysis, by Pollutant Type, 2022-2032
8.2.6.3. Market size analysis, by Application, 2022-2032
8.2.7. Research Dive Exclusive Insights
8.2.7.1. Market attractiveness
8.2.7.2. Competition heatmap
8.3. Asia-Pacific
8.3.1. China
8.3.1.1. Market size analysis, by Product, 2022-2032
8.3.1.2. Market size analysis, by Pollutant Type, 2022-2032
8.3.1.3. Market size analysis, by Application, 2022-2032
8.3.2. Japan
8.3.2.1. Market size analysis, by Product, 2022-2032
8.3.2.2. Market size analysis, by Pollutant Type, 2022-2032
8.3.2.3. Market size analysis, by Application, 2022-2032
8.3.3. India
8.3.3.1. Market size analysis, by Product, 2022-2032
8.3.3.2. Market size analysis, by Pollutant Type, 2022-2032
8.3.3.3. Market size analysis, by Application, 2022-2032
8.3.4. Australia
8.3.4.1. Market size analysis, by Product, 2022-2032
8.3.4.2. Market size analysis, by Pollutant Type, 2022-2032
8.3.4.3. Market size analysis, by Application, 2022-2032
8.3.5. Indonesia
8.3.5.1. Market size analysis, by Product, 2022-2032
8.3.5.2. Market size analysis, by Pollutant Type, 2022-2032
8.3.5.3. Market size analysis, by Application, 2022-2032
8.3.6. Rest of Asia-Pacific
8.3.6.1. Market size analysis, by Product, 2022-2032
8.3.6.2. Market size analysis, by Pollutant Type, 2022-2032
8.3.6.3. Market size analysis, by Application, 2022-2032
8.3.7. Research Dive Exclusive Insights
8.3.7.1. Market attractiveness
8.3.7.2. Competition heatmap
8.4. LAMEA
8.4.1. Brazil
8.4.1.1. Market size analysis, by Product, 2022-2032
8.4.1.2. Market size analysis, by Pollutant Type, 2022-2032
8.4.1.3. Market size analysis, by Application, 2022-2032
8.4.2. UAE
8.4.2.1. Market size analysis, by Product, 2022-2032
8.4.2.2. Market size analysis, by Pollutant Type, 2022-2032
8.4.2.3. Market size analysis, by Application, 2022-2032
8.4.3. South Africa
8.4.3.1. Market size analysis, by Product, 2022-2032
8.4.3.2. Market size analysis, by Pollutant Type, 2022-2032
8.4.3.3. Market size analysis, by Application, 2022-2032
8.4.4. Argentina
8.4.4.1. Market size analysis, by Product, 2022-2032
8.4.4.2. Market size analysis, by Pollutant Type, 2022-2032
8.4.4.3. Market size analysis, by Application, 2022-2032
8.4.5. Rest of LAMEA
8.4.5.1. Market size analysis, by Product, 2022-2032
8.4.5.2. Market size analysis, by Pollutant Type, 2022-2032
8.4.5.3. Market size analysis, by Application, 2022-2032
8.4.6. Research Dive Exclusive Insights
8.4.6.1. Market attractiveness
8.4.6.2. Competition heatmap
9. Competitive Landscape
9.1. Top winning strategies, 2022
9.1.1. By strategy
9.1.2. By year
9.2. Strategic overview
9.3. Market share analysis, 2022
10. Company Profiles
10.1. Siemens
10.1.1. Overview
10.1.2. Business segments
10.1.3. Product portfolio
10.1.4. Financial performance
10.1.5. Recent developments
10.1.6. SWOT analysis
10.2. TSI
10.2.1. Overview
10.2.2. Business segments
10.2.3. Product portfolio
10.2.4. Financial performance
10.2.5. Recent developments
10.2.6. SWOT analysis
10.3. Emerson Electric Co.
10.3.1. Overview
10.3.2. Business segments
10.3.3. Product portfolio
10.3.4. Financial performance
10.3.5. Recent developments
10.3.6. SWOT analysis
10.4. Aeroqual
10.4.1. Overview
10.4.2. Business segments
10.4.3. Product portfolio
10.4.4. Financial performance
10.4.5. Recent developments
10.4.6. SWOT analysis
10.5. Thermo Fisher Scientific Inc.
10.5.1. Overview
10.5.2. Business segments
10.5.3. Product portfolio
10.5.4. Financial performance
10.5.5. Recent developments
10.5.6. SWOT analysis
10.6. IQAir
10.6.1. Overview
10.6.2. Business segments
10.6.3. Product portfolio
10.6.4. Financial performance
10.6.5. Recent developments
10.6.6. SWOT analysis
10.7. Honeywell International Inc.
10.7.1. Overview
10.7.2. Business segments
10.7.3. Product portfolio
10.7.4. Financial performance
10.7.5. Recent developments
10.7.6. SWOT analysis
10.8. Camfil
10.8.1. Overview
10.8.2. Business segments
10.8.3. Product portfolio
10.8.4. Financial performance
10.8.5. Recent developments
10.8.6. SWOT analysis
10.9. 3M
10.9.1. Overview
10.9.2. Business segments
10.9.3. Product portfolio
10.9.4. Financial performance
10.9.5. Recent developments
10.9.6. SWOT analysis
10.10. Koninklijke Philips N.V.
10.10.1. Overview
10.10.2. Business segments
10.10.3. Product portfolio
10.10.4. Financial performance
10.10.5. Recent developments
10.10.6. SWOT analysis
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