logo

Search

Global Air Quality Monitoring Market

Air Quality Monitoring Market By Product Type (Indoor Monitor, Outdoor Monitor), By Sampling Method (Continuous, Manual, and Intermittent), By Pollutant Type (Chemical Pollutants, Physical Pollutants, and Biological Pollutants), By End User (Government Sector, Residential and Commercial, Inspection Company, Industries, and Others), Industry Analysis, Size, Share, Growth, Trends, and Forecasts 2024-2031

Report ID : 2652 | Publisher ID : Meta | Published : 2024-06-20 | Pages : 252

Licence Type
$ 3550
$ 5350
$ 7100

MARKET OVERVIEW 

The Global Air Quality Monitoring market, within the environmental technology space, stands as a vital sector dedicated to assessing and regulating air quality worldwide. This industry, driven by the urgent need to address escalating environmental concerns, plays a pivotal role in safeguarding public health and environmental sustainability. With increasing urbanization, industrialization, and vehicular emissions, the demand for efficient air quality monitoring solutions continues to surge, reflecting the growing emphasis on mitigating the adverse effects of air pollution on human health and the environment. 

The Global Air Quality Monitoring market encompasses a diverse array of technologies, methodologies, and instruments designed to measure and analyze various air pollutants present in the atmosphere. These pollutants encompass a wide spectrum, ranging from particulate matter (PM), nitrogen dioxide (NO2), sulfur dioxide (SO2), carbon monoxide (CO), ozone (O3), volatile organic compounds (VOCs), to emerging pollutants such as heavy metals and persistent organic pollutants (POPs). Such comprehensive monitoring facilitates the identification of pollution sources, assessment of air quality trends, and formulation of targeted strategies for pollution control and abatement. 

The industry landscape of the Global Air Quality Monitoring market is characterized by a multitude of stakeholders, including government agencies, regulatory bodies, research institutions, environmental consulting firms, technology providers, and academic organizations. Collaboration and partnerships among these entities are instrumental in advancing technological innovations, standardizing monitoring protocols, and enhancing data interoperability to achieve a holistic approach towards air quality management. 

Technological advancements have been instrumental in driving the evolution of the Global Air Quality Monitoring market, with a focus on enhancing monitoring accuracy, reliability, and real-time data accessibility. Innovations such as remote sensing technologies, sensor networks, unmanned aerial vehicles (UAVs), and satellite-based monitoring systems have revolutionized the landscape, enabling continuous monitoring over large geographic areas and offering insights into localized pollution hotspots. 

Moreover, the proliferation of smart sensing devices and Internet of Things (IoT) platforms has democratized air quality monitoring, empowering individuals and communities to actively participate in environmental stewardship initiatives. Citizen science projects, crowd-sourced data collection platforms, and mobile applications have emerged as valuable tools for engaging the public, raising awareness about air quality issues, and fostering community-driven interventions. 

In addition to technological advancements, regulatory frameworks and policy initiatives play a critical role in shaping the Global Air Quality Monitoring market's dynamics. Stringent air quality standards, emission regulations, and pollution control measures imposed by governments and international organizations drive the demand for monitoring solutions, creating a conducive environment for market growth and innovation. 

Looking ahead, the Global Air Quality Monitoring market is poised for further expansion and diversification, driven by escalating environmental concerns, regulatory imperatives, and technological innovations. However, challenges such as data interoperability, quality assurance, and cost-effectiveness remain pertinent, necessitating concerted efforts from stakeholders to address these hurdles and realize the full potential of air quality monitoring in safeguarding public health and environmental well-being. 

Global Air Quality Monitoring market is estimated to reach $7,842.49 Million by 2031; growing at a CAGR of 5.8% from 2024 to 2031.

GROWTH FACTORS 

The global market for monitoring air quality is experiencing significant growth due to various factors. One of the primary drivers behind this growth is the increasing awareness and concern regarding environmental pollution. People are becoming more conscious of the impact of air pollution on their health and well-being, prompting governments and organizations to invest in air quality monitoring solutions. 

Additionally, stringent regulations and policies aimed at reducing pollution levels have fueled the demand for air quality monitoring systems. Governments worldwide are implementing measures to monitor and control air pollution levels, leading to a surge in the adoption of monitoring technologies and solutions. 

Furthermore, advancements in technology have played a crucial role in driving market growth. Innovations in sensor technology, data analytics, and remote monitoring capabilities have made it easier and more cost-effective to monitor air quality in real-time. This has led to increased adoption across various industries, including manufacturing, transportation, and healthcare. 

Moreover, the growing trend towards smart cities and sustainable development has created opportunities for the expansion of the air quality monitoring market. Smart city initiatives prioritize the use of technology to improve the quality of life for citizens, with air quality monitoring being a key component of these efforts. 

Another factor contributing to market growth is the increasing demand for portable and wearable air quality monitoring devices. These devices allow individuals to monitor air quality levels in their immediate surroundings, providing them with valuable information to make informed decisions about their health and environment. 

The global air quality monitoring market is witnessing significant growth driven by factors such as increasing environmental awareness, stringent regulations, technological advancements, smart city initiatives, and the demand for portable monitoring devices. As these trends continue to evolve, the market is expected to further expand in the coming years. 

MARKET SEGMENTATION 

By Product Type 

The Global Air Quality Monitoring market is divided by Product Type into two main segments: Indoor Monitor and Outdoor Monitor. In 2021, the Indoor Monitor segment had a value of 2962.7 USD Million, while the Outdoor Monitor segment was valued at 1467 USD Million. 

This segmentation allows for a more detailed understanding of the market, as it distinguishes between monitoring systems designed for indoor environments and those tailored for outdoor use. Indoor monitors are essential for assessing air quality within enclosed spaces such as homes, offices, and industrial facilities. On the other hand, outdoor monitors are crucial for evaluating air quality in open environments like urban areas, industrial zones, and natural landscapes. 

The value of each segment reflects the demand and investment in air quality monitoring technology. The higher valuation of the Indoor Monitor segment suggests a significant need for monitoring indoor air quality, driven by factors such as increasing awareness of indoor pollution sources and the importance of maintaining a healthy indoor environment. This could be attributed to growing concerns about indoor air pollutants like volatile organic compounds (VOCs), particulate matter, and carbon monoxide. 

Meanwhile, the Outdoor Monitor segment’s value, though lower than the Indoor Monitor segment, still indicates substantial investment and demand for outdoor air quality monitoring solutions. This is likely due to rising awareness of outdoor air pollution’s adverse effects on public health and the environment, leading to increased initiatives for monitoring and mitigating pollution levels in outdoor spaces. 

By Sampling Method 

In air quality monitoring, there exists a diverse market that caters to the need for assessing and ensuring the cleanliness of our atmosphere. One key aspect of this market is the Global Air Quality Monitoring market, which encompasses various methods for sampling air. Each method plays a crucial role in gathering data about air quality but operates in slightly different ways. 

Continuous sampling involves the consistent collection of air samples over a period. This method provides real-time data, allowing for immediate analysis and response to any fluctuations or changes in air quality. It is particularly useful in areas where constant monitoring is required, such as industrial zones or densely populated urban areas. 

On the other hand, manual sampling relies on periodic collection of air samples by individuals or automated systems. While not as instantaneous as continuous sampling, manual sampling still offers valuable insights into air quality trends over time. It is often used in research studies or as a complement to continuous monitoring efforts. 

Intermittent sampling, as the name suggests, involves taking samples at irregular intervals. This method is typically used in situations where continuous monitoring is not feasible or necessary. Intermittent sampling may be employed during specific events or campaigns aimed at assessing air quality under certain conditions. 

The Global Air Quality Monitoring market encompasses a range of sampling methods, each with its own advantages and applications. By utilizing these methods effectively, researchers, policymakers, and environmental professionals can gain a better understanding of air quality issues and work towards solutions to improve the health and well-being of communities worldwide. 

By Pollutant Type 

The global market for monitoring air quality is segmented based on the types of pollutants present in the atmosphere. These pollutants are categorized into three main types that are Chemical Pollutants, Physical Pollutants, and Biological Pollutants. 

Chemical Pollutants constitute one of the primary categories in the global air quality monitoring market. These pollutants include substances such as carbon monoxide, sulfur dioxide, nitrogen oxides, and volatile organic compounds. In 2021, the Chemical Pollutants segment was valued at 2767.7 USD Million. This indicates the significant economic importance placed on monitoring and controlling these chemical contaminants to ensure public health and environmental safety. 

Physical Pollutants represent another crucial aspect of air quality monitoring. These pollutants include particulate matter (PM10 and PM2.5), dust, smoke, and other airborne particles that can affect air quality and human health. In 2021, the Physical Pollutants segment was valued at 1231.8 USD Million. This underscores the growing awareness and investment in monitoring and mitigating the impact of physical pollutants on air quality and respiratory health. 

Biological Pollutants encompass a diverse range of airborne microorganisms, such as bacteria, viruses, fungi, and pollen, which can affect air quality and trigger allergic reactions and respiratory illnesses. The Biological Pollutants segment was valued at 430.2 USD Million in 2021, reflecting the importance of monitoring and managing these biological contaminants to safeguard public health, especially in indoor environments and healthcare facilities. 

Overall, the global air quality monitoring market is driven by the increasing concerns over air pollution and its detrimental effects on human health and the environment. The segmentation based on different types of pollutants allows for a comprehensive understanding of the sources and characteristics of air pollution, enabling policymakers, industries, and communities to implement targeted strategies and solutions to improve air quality and mitigate the adverse impacts of pollution on public health and well-being. 

By End User 

The Global Air Quality Monitoring market is segmented based on its end users, which include the Government Sector, Residential and Commercial, Inspection Companies, Industries, and Others. These categories help identify the diverse range of entities involved in monitoring and maintaining air quality worldwide. 

The Government Sector plays a crucial role in air quality monitoring by implementing regulations, setting standards, and conducting monitoring activities to ensure public health and environmental safety. Governments around the world invest in air quality monitoring systems to assess pollution levels, enforce regulations, and take necessary actions to mitigate environmental risks. 

Residential and Commercial sectors also contribute to air quality monitoring efforts. Individuals and businesses use air quality monitoring devices to ensure healthy indoor environments, especially in areas prone to pollution or where specific industrial activities may impact air quality.

Inspection Companies provide specialized services related to air quality monitoring, such as conducting assessments, analyzing data, and offering solutions to improve air quality. These companies play a vital role in assisting governments, industries, and other stakeholders in complying with regulations and maintaining safe environmental conditions. 

Industries have a significant impact on air quality due to their operations and emissions. Many industries are required to monitor their air emissions to comply with environmental regulations and reduce their environmental footprint. Air quality monitoring helps industries identify sources of pollution, implement pollution control measures, and track their environmental performance. 

Other stakeholders, such as research institutions, non-profit organizations, and communities, also participate in air quality monitoring initiatives. These entities may collaborate with governments, industries, and other stakeholders to collect data, conduct research, raise awareness, and advocate for policies to improve air quality. 

Overall, the segmentation of the Global Air Quality Monitoring market by end users reflects the collaborative efforts of various stakeholders to monitor, assess, and address air quality issues for the benefit of public health and the environment.

REGIONAL ANALYSIS

The global Air Quality Monitoring market is segmented based on geography into North America, Europe, Asia-Pacific, and the rest of the world. This division allows for a comprehensive analysis of regional trends and factors influencing market growth in each area. 

North America, comprising the United States and Canada, is a significant player in the Air Quality Monitoring market. The region's stringent environmental regulations drive the demand for air quality monitoring systems. Additionally, increasing awareness about the adverse effects of air pollution on public health further boosts the market growth. 

In Europe, countries like Germany, the UK, France, and Italy lead the Air Quality Monitoring market. Stringent government regulations regarding emission control and pollution monitoring propel market growth in this region. Moreover, the presence of key market players and ongoing technological advancements contribute to the expansion of the market. 

The Asia-Pacific region, including countries such as China, Japan, India, and South Korea, is witnessing rapid growth in the Air Quality Monitoring market. This growth is attributed to increasing industrialization, urbanization, and the rising awareness about the health hazards associated with air pollution. Governments in these countries are implementing strict regulations to monitor and control air pollution levels, driving the demand for air quality monitoring systems. 

The rest of the world, including regions like Latin America, the Middle East, and Africa, also contribute to the global Air Quality Monitoring market. Although the market in these regions may be relatively smaller compared to North America, Europe, and Asia-Pacific, it is expected to witness steady growth due to increasing awareness and government initiatives to curb air pollution. 

The regional analysis of the global Air Quality Monitoring market highlights the significant role played by different geographical regions in driving market growth. Factors such as government regulations, technological advancements, and public awareness contribute to the varying growth rates observed across different regions. 

COMPETITIVE PLAYERS 

The Global Air Quality Monitoring market encompasses various companies striving to ensure better air quality worldwide. Among these key players in the Air Quality Monitoring industry are Siemens AG, Thermo Fisher Scientific Inc., Horiba Ltd, and Hebei Sailhero. These companies play a vital role in developing technologies and solutions to monitor and improve air quality. 

Siemens AG is known for its innovative approach to environmental solutions, including air quality monitoring systems. Thermo Fisher Scientific Inc. specializes in providing analytical instruments, equipment, reagents, and consumables for air quality analysis. Horiba Ltd focuses on environmental measurement and analysis instruments, including those used for air quality monitoring. Hebei Sailhero is dedicated to developing and manufacturing environmental protection equipment, including air quality monitoring devices. 

These companies contribute to addressing the pressing issue of air pollution by offering a range of products and services designed to monitor pollutants and provide accurate data for decision-making. Through their research and development efforts, they continuously strive to enhance the effectiveness and efficiency of air quality monitoring systems. 

The importance of air quality monitoring cannot be overstated, as poor air quality can have severe consequences for human health and the environment. Monitoring air quality allows authorities to identify pollution sources, implement measures to reduce emissions, and assess the effectiveness of pollution control policies. 

In addition to monitoring outdoor air quality, these companies also provide solutions for indoor air quality monitoring, which is crucial for maintaining healthy living and working environments. With the rise of urbanization and industrialization, the demand for air quality monitoring systems is expected to grow, driving further innovation and advancements in the industry. 

Key players in the Air Quality Monitoring industry such as Siemens AG, Thermo Fisher Scientific Inc., Horiba Ltd, and Hebei Sailhero play a significant role in addressing air pollution through the development of advanced monitoring technologies and solutions. Their contributions are essential for safeguarding public health and the environment in an increasingly polluted world. 

Air Quality Monitoring Market Key Segments: 

By Product Type 

  • Indoor Monitor 
  • Outdoor Monitor 

By Sampling Method 

  • Continuous 
  • Manual 
  • Intermittent 

By Pollutant Type

  • Chemical Pollutants 
  • Physical Pollutants 
  • Biological Pollutants 

By End User 

  • Government Sector 
  • Residential and Commercial 
  • Inspection Company 
  • Industries 
  • Others 

Key Global Air Quality Monitoring Industry Players 

WHAT REPORT PROVIDES 

  • Full in-depth analysis of the parent Industry 
  • Important changes in market and its dynamics 
  • Segmentation details of the market 
  • Former, on-going, and projected market analysis in terms of volume and value
  • Assessment of niche industry developments 
  • Market share analysis 
  • Key strategies of major players 
  • Emerging segments and regional growth potential

 

1. Market Introduction
1.1. Executive Summary
1.2. Market Definition
1.3. Market Scope
2. Research Methodology
2.1. Primary Research
2.2. Research Methodology
2.3. Assumptions & Exclusions
2.4. Secondary data sources
3. Air Quality Monitoring Market Overview
3.1. Report Segmentation & Scope
3.2. Key Market Trend
3.3. Drivers
3.3.1. Increasing need to monitor air quality in industrial production & processing units
3.3.2. Rising adoption of stringent pollution regulations amid public health concerns
3.4. Restraints
3.4.1. High capital and product costs amid growing focus on renewable energy sources
3.5. Opportunity
3.5.1. Surge in air monitoring of commercial and industrial facilities in emerging economies
3.6. Porter’s Five Forces Analysis
3.6.1. Porter’s Five Forces Analysis
3.7. Market Share Analysis
4. Product Type Overview
4.1. Introduction
4.1.1. Market Size & Forecast
4.2. Indoor Monitor
4.2.1. Market Size & Forecast
4.3. Outdoor Monitor
4.3.1. Market Size & Forecast
5. Sampling Method Overview
5.1. Introduction
5.1.1. Market Size & Forecast
5.2. Continuous
5.2.1. Market Size & Forecast
5.3. Manual
5.3.1. Market Size & Forecast
5.4. Intermittent
5.4.1. Market Size & Forecast
6. Pollutant Type Overview
6.1. Introduction
6.1.1. Market Size & Forecast
6.2. Chemical Pollutants
6.2.1. Market Size & Forecast
6.3. Physical Pollutants
6.3.1. Market Size & Forecast
6.4. Biological Pollutants
6.4.1. Market Size & Forecast
7. End User Overview
7.1. Introduction
7.1.1. Market Size & Forecast
7.2. Government Sector
7.2.1. Market Size & Forecast
7.3. Residential and Commercial
7.3.1. Market Size & Forecast
7.4. Inspection Company
7.4.1. Market Size & Forecast
7.5. Industries
7.5.1. Market Size & Forecast
7.6. Others
7.6.1. Market Size & Forecast
8. Air Quality Monitoring Market Regional Overview
8.1. Introduction
8.1.1. Market Size & Forecast
8.2. North America Air Quality Monitoring Market
8.2.1. North America Market Size & Forecast, By Country
8.2.2. North America Market Size & Forecast, By Product Type
8.2.3. North America Market Size & Forecast, By Sampling Method
8.2.4. North America Market Size & Forecast, By Pollutant Type
8.2.5. North America Market Size & Forecast, By End User
8.2.6. U.S.
8.2.6.1. Market Size and Forecast
8.2.7. Canada
8.2.7.1. Market Size and Forecast
8.2.8. Mexico
8.2.8.1. Market Size and Forecast
8.3. Europe Air Quality Monitoring Market
8.3.1. Europe Market Size & Forecast, By Country
8.3.2. Europe Market Size & Forecast, By Product Type
8.3.3. Europe Market Size & Forecast, By Sampling Method
8.3.4. Europe Market Size & Forecast, By Pollutant Type
8.3.5. Europe Market Size & Forecast, By End User
8.3.6. Germany
8.3.6.1. Market Size and Forecast
8.3.7. France
8.3.7.1. Market Size and Forecast
8.3.8. UK
8.3.8.1. Market Size and Forecast
8.3.9. Italy
8.3.9.1. Market Size and Forecast
8.3.10. Spain
8.3.10.1. Market Size and Forecast
8.3.11. Rest of Europe
8.3.11.1. Market Size and Forecast
8.4. Asia-Pacific Air Quality Monitoring Market
8.4.1. Asia-Pacific Market Size & Forecast, By Country
8.4.2. Asia-Pacific Market Size & Forecast, By Product Type
8.4.3. Asia-Pacific Market Size & Forecast, By Sampling Method
8.4.4. Asia-Pacific Market Size & Forecast, By Pollutant Type
8.4.5. Asia-Pacific Market Size & Forecast, By End User
8.4.6. China
8.4.6.1. Market Size and Forecast
8.4.7. Japan
8.4.7.1. Market Size and Forecast
8.4.8. India
8.4.8.1. Market Size and Forecast
8.4.9. South Korea
8.4.9.1. Market Size and Forecast
8.4.10. Australia
8.4.10.1. Market Size and Forecast
8.4.11. Southeast Asia
8.4.11.1. Market Size and Forecast
8.4.12. Rest of Asia-Pacific
8.4.12.1. Market Size and Forecast
8.5. South America Air Quality Monitoring Market
8.5.1. South America Market Size & Forecast, By Country
8.5.2. South America Market Size & Forecast, By Product Type
8.5.3. South America Market Size & Forecast, By Sampling Method
8.5.4. South America Market Size & Forecast, By Pollutant Type
8.5.5. South America Market Size & Forecast, By End User
8.5.6. Brazil
8.5.6.1. Market Size and Forecast
8.5.7. Argentina
8.5.7.1. Market Size and Forecast
8.5.8. Rest of South America
8.5.8.1. Market Size and Forecast
8.6. Middle East & Africa Air Quality Monitoring Market
8.6.1. Middle East & Africa Market Size & Forecast, By Country
8.6.2. Middle East & Africa Market Size & Forecast, By Product Type
8.6.3. Middle East & Africa Market Size & Forecast, By Sampling Method
8.6.4. Middle East & Africa Market Size & Forecast, By Pollutant Type
8.6.5. Middle East & Africa Market Size & Forecast, By End User
8.6.6. GCC Countries
8.6.6.1. Market Size and Forecast
8.6.7. UAE
8.6.7.1. Market Size and Forecast
8.6.8. Saudi Arabia
8.6.8.1. Market Size and Forecast
8.6.9. South Africa
8.6.9.1. Market Size and Forecast
8.6.10. Rest of Middle East & Africa
8.6.10.1. Market Size and Forecast
9. Company Profile
9.1. Siemens AG
9.1.1. Company Basic Information, Manufacturing Base, Sales Area and Its Competitors
9.1.2. Siemens AG Product Category, Application, and Specification
9.1.3. Siemens AG Financial Performance (2020-2022)
9.1.4. Main Business/Business Overview
9.2. Thermo Fisher Scientific Inc.
9.3. Horiba Ltd
9.4. Hebei Sailhero
9.5. Honeywell International Inc.
9.6. TSI Inc.
9.7. Airpointer
9.8. PT. Trusur Unggul Teknusa
9.9. Aeroqual Limited
9.10. Emerson Electric Co
9.11. Testo AG
9.12. Teledyne Technologies Inc.
9.13. Ap2e
9.14. ENVEA
9.15. Ecotec
9.16. Met One
9.17. FPI
9.18. Kimoto
9.19. DKK-TOA CORPORATION
9.20. Picarro
9.21. Comde-Derenda GmbH
9.22. AMA instruments
9.23. Synspec
9.24. AMETEK MOCON
9.25. Hangzhou Zetian Technology
9.26. Palas GmbH
9.27. Chromatotec

  • Siemens AG
  • Thermo Fisher Scientific Inc.
  • Horiba Ltd
  • Hebei Sailhero
  • Honeywell International Inc.
  • TSI Inc.
  • Airpointer
  • PT. Trusur Unggul Teknusa
  • Aeroqual Limited
  • Emerson Electric Co
  • Testo AG
  • Teledyne Technologies Inc.
  • Ap2e
  • ENVEA
  • Ecotec

n/a

Frequently Asked Questions

Global Air Quality Monitoring market is valued at $5,213.8 million in 2024.
Global Air Quality Monitoring market is estimated to grow with a CAGR of 5.8% from 2024 to 2031.
Global Air Quality Monitoring market is estimated to reach $7,842.49 million by 2031.
Top players operating in the Air Quality Monitoring industry includes Siemens AG, Thermo Fisher Scientific Inc., Horiba Ltd, Hebei Sailhero, Honeywell