The global Air Quality Monitoring market was valued at USD 5.4 Billion in 2022 and is projected to reach USD 9.4 Billion by 2030, registering a CAGR of 7.28% for the forecast period 2023-2030.
Air quality monitors are devices that measure the levels of common air pollutants. These monitors are available for both indoor and outdoor settings. Typically, indoor air quality monitors use sensor-based instruments that are able to measure ppb levels. They come as either mixed gas or portable units. Similarly, sensor-based instruments and air quality monitoring systems are widely used in outdoor ambient applications. To determine the type of air pollution people are exposed to, it is important to collect air pollution data alongside natural background/trace gas monitoring and stationary source emission monitoring. Such data is crucial for assessing air pollution and developing effective countermeasures and environmental policies. This information is used by local and national authorities, public and private companies, and national organizations. Governments worldwide implement stricter environmental regulations to reduce air pollution, driving demand for air quality monitoring equipment and services needed for compliance.
For instance, in January 2023, President Biden proposed new air quality standards for protection of public from harmful effects of soot and to reduce air pollution. Fine particles, also known as soot, have the ability to penetrate deeply into the lungs, resulting in severe health implications such as asthma attacks, heart attacks, and premature death. These health risks disproportionately affect vulnerable populations, including children, older adults, and those with heart or lung conditions. U.S. EPA's proposal seeks comments on strengthening the primary annual PM2.5 standard to between 9 and 10 micrograms per cubic meter from 12 micrograms per cubic meter based on health considerations. This proposal aims to protect all communities, especially the most vulnerable, from harmful pollution exposure.
- 2022: USD 5.4 billion
- 2030: USD 9.4 billion
- CAGR (2023-2030): 7.28%
Air Quality Monitoring Market Dynamics
Drivers : Growing awareness about health effects caused due to air pollution
As awareness grows around the harmful effects of air pollution on both human health and the environment, there is an increasing demand for air quality monitoring equipment and services. People want to be able to track their exposure to air pollution and take necessary steps to protect themselves. Air pollution is considered to be the primary environmental toxin that leads to diseases and is responsible for an estimated 16% of premature deaths worldwide. The World Health Organization has unequivocally declared air pollution as a carcinogen. Apart from causing cancer, air pollution can also lead to various other adverse health effects such as asthma attacks, acute and chronic bronchitis, respiratory symptoms, pneumonia, increased risk of acute myocardial infarction, loss of work and school days, and premature death. Humans can be exposed to air pollution through inhalation, ingestion, and dermal contact absorption. Poor air quality is not caused by a single major source. It is comprised of millions of tiny factors and sources. Even air humidity can contribute to air pollution. Thus, the most effective approach to prevent further degradation of the air we breathe is to reduce or eliminate as many of these sources as possible. These factors have contributed in increasing demand for the air quality monitoring market.
For instance, The BreatheLife initiative, led by WHO, CCAC, UNEP, and World Bank, has successfully encouraged policy-makers to prioritize efforts aimed at building awareness of the health impacts of air pollution, implementing local policy interventions such as the Urban Health Initiative to meet WHO's air quality guidelines, and using health as a means of addressing climate change at the urban, national, and regional levels.
In October 2023, Frederick county launched real-time air quality monitoring network to be stationed around the county to track local pollution and will report real-time assistance of fine particulate matter concentrations in our air.
In March 2023, Tyndall national institute has received funding from European Commission to conducting research for improving air quality monitoring.
Restraint : High costs associated with implementation to restrain the market
The air quality monitoring market has been significantly restrained by the high cost of equipment and installation. This is due to the sophisticated sensors, data collection infrastructure, and data analysis software involved in air quality monitoring systems, which can be quite expensive to acquire and set up. The initial investment cost can act as a barrier for smaller municipalities, organizations, and developing nations looking to implement comprehensive air quality monitoring programs. In addition to the initial investment, ongoing maintenance, calibration, and data management expenses contribute to the financial burden of air quality monitoring. High-quality sensors and equipment may require frequent calibrations and maintenance to ensure accurate and reliable data, which further increases the overall cost of ownership. To tackle this challenge, there is a growing demand for more affordable and user-friendly monitoring solutions, as well as public-private partnerships and government incentives to make these systems accessible to a wider range of users and regions. It is crucial to reduce the cost barrier to promote the wider adoption of air quality monitoring and effectively address environmental and public health concerns.
Challenges : Standardization to pose challenges
Ensuring accuracy, reliability, and interoperability of monitoring systems requires standardization. Without well-defined standards, variations in sensors, data collection methods, and reporting formats can hinder information exchange and cross-border collaboration. To tackle this challenge, it is essential to establish international or regional air quality monitoring standards and protocols. This will facilitate more effective environmental and public health management on a global scale by fostering greater cooperation between countries. For instance, according to WHO, Air pollution is a significant problem in many countries. Unfortunately, in at least 34% of these countries, there are no legal protections for ambient air quality. Even in countries where legal protections exist, it is difficult to compare the standards. For example, 49% of countries define air pollution only as an outdoor threat, and the geographic coverage of air quality standards varies. Moreover, over half of countries permit deviations from these standards. Air pollution is a significant problem in many countries. Unfortunately, in at least 34% of the countries, there are no legal protections for ambient air quality. Even in countries where legal protections exist, it is difficult to compare the standards. For example, 49% of countries define air pollution only as an outdoor threat, and the geographic coverage of air quality standards varies. Moreover, over half of countries permit deviations from these standards.
Opportunities : Advancement in Air Quality Monitoring technology offering new opportunities to grow
The recent advancements in air quality monitoring technology have been revolutionary as they have enabled more accurate and comprehensive data collection and analysis. One of the key breakthroughs is the invention of smaller, affordable, and highly sensitive sensors that can be deployed in various environments. These sensors can measure various air pollutants in real-time, giving us a more detailed and dynamic understanding of air quality. Moreover, the progress in data communication and the Internet of Things (IoT) has made it possible to monitor air quality remotely, transmit data, and analyze it in real-time. This has made it easier to monitor air quality across vast geographical areas and share information with the public. Furthermore, machine learning and artificial intelligence (AI) are increasingly being used to process and interpret the vast amounts of data generated by air quality monitoring systems. These technologies can identify patterns and trends, predict air quality fluctuations, and provide early warnings of pollution events. This has enhanced our ability to make informed decisions, implement targeted interventions, and improve public health outcomes. Overall, these technological advancements are driving innovation in the air quality monitoring market, making it more accessible, efficient, and effective in addressing environmental and health challenges.
|Market Size in 2022
|USD 5.4 Billion
|Market Forecast in 2030
|USD 9.4 Billion
|Compound Annual Growth Rate (CAGR)
|Revenue (USD Million) and Volume (Kilo Tons)
|by product, by pollutant, by sampling, by end-user, & by region.
|2018 - 2022
|2023 - 2030
Segment Analysis of the Air Quality Monitoring Market
The air quality monitoring market is segmented by product, by pollutant, by sampling, by end-user, & by region.
By Product : The indoor segment accounted for largest market share during the forecasted period:
Based on the product segment the market for Air Quality Monitoring is classified into indoor and outdoor. The indoor segment accounted for largest market share for the forecasted period. The dominations of the segment can be attributed as many people want clean air indoors, and are learning about how bad air pollution can be for health. Also, many folks are using smart home and eco-friendly building technology, and they're setting up air quality monitors. The government is making rules that say companies have to check the air in their buildings, and new air quality monitoring tech is becoming more popular, which helps the market grow.
The Air Quality Monitoring market based on the segment pollutant is classified into chemical, biological, and physical. The chemical pollutant segment holds largest share during the forecasted period. The chemical pollutant consists of nitrogen oxides, carbon oxides, sulfur oxides, volatile organic compounds and others. The carbon oxides coming out of factories and vehicles is the major source for the pollutant contributing to rise in air pollution. Rising levels of chemical air pollutants globally and the rising need for the solutions and systems for monitoring these pollutants to drive the market.
Asia-Pacific region expected to hold largest market share during the forecast period:
The Asia-Pacific region is expected to hold the largest market share during forecasted period. The increasing urbanization and growing population and the rise in industries, there’s greater need for air quality monitoring for addressing pollution concerns. Even the government regulations in many countries within Asia-Pacific are becoming stricter in regards to environment protection and public health made it essential the use of air quality monitoring system for compliance. In addition to it the region also gained contribution for leading is the economic growth with increasing investments in the infrastructure and technologies including the air quality monitoring systems.
List of the prominent players in the Air Quality Monitoring Market
- Teledyne Technologies Incorporated
- Thermo Fisher Scientific, Inc.
- TSI Inc.
- Horiba Ltd.
- Siemens AG
- LumaSense Technologies, Inc.
- Opsis AB
- Oizom Instruments Pvt.Ltd.
Segmentation Analysis of the Air Quality Monitoring Market
- Government & Academics
- Oil & Gas
- Power Plants
- Commercial & Residential
- North America
- Asia Pacific
- Latin America
- Middle East and Africa
Impact of the Covid-19 Pandemic on the Air Quality Monitoring Market:
The COVID-19 pandemic had a significant impact on the air quality monitoring market in multiple ways. With the lockdown imposed by various governments to restrict the spread of the virus led to reduction in various activities like transportation and other sources of air pollution. It temporarily declines the air pollution level and improved the quality of air in many urban areas and increased awareness and importance of monitoring air quality and impact on public health.
This increasing awareness rise the demand for monitoring systems and solutions of air quality. Various companies and governments knowing the facts about the benefits and advantages invested into advancement of technologies for gaining the real-time data on air quality not only due to the impacts of covid-19 but for the long-term impacts over environment and public health.