The air quality control system market is estimated to reach USD 10.9 billion in 2030 and and grow at a CAGR of 6.5%. It was valued at USD 5.38 billion in 2022. There are many major factors for this market’s growth, such as an increase in the levels of air pollution, supportive government constraints for sufficient air pollution monitoring, management, control, and ongoing initiatives toward the development of environment-ecofriendly industries. Adding to this, increasing public-private funding for effective air pollution monitoring and increasing public attention related to the environmental and healthcare importance of air pollution also supports the growth of this market. On the other side, the slower adoption of advanced and latest technologies and lea of trained personnel are anticipated to restrain the market’s growth, especially in developing countries.

What is Global Air Quality Control System?

Air Quality Control Systems (AQCS) is a piece of equipment that cleans the flue gases emitted from thermal power plants.Air passes via a gas chamber where the sensors monitor the air quality. The air is exerted release from the medium through an exhaust. Through active sampling technology, Oizom systems can reach up to 13% higher accuracy than the industry standards, enabling us to understand ambient air quality data. The promoted global concentration of the requirement to protect the air quality control systems (AQCS) has become a must for power generation, and Japan’s world best cleansing technology has been attaining a great deal of attention across the globe. As a pioneer in air flue gas treatment technology, MHI Group Inc. has half-century knowledge developing and manufacturing FGD plants and Selective Catalyst Reduction (SCR) plants. Operating the state-of-the-art technology that we have collected over this period, we deliver combined flue gas treatment systems all over the world. Growth Driver

Public and Private initiatives for environmental gathering and public awareness

The government and non-government organizations and the private sector have taken several favorable initiatives to reduce and cut down air pollution through public awareness campaigns and programs. Such programs and initiatives help raise awareness among common people and play an important role in bringing the attention of international organizations to the current and future threat of air pollution that the world is facing. Many government and non-government institutions constantly work to bring the attention of national and international societies to the devastating impact of air pollution on the health of living beings and the environment. Many Prominent public organizations are involved in driving public awareness of the environmental impacts of air pollution. Opportunities The constant research and development and commercialization of developed AQM systems (such as miniaturized devices, nanotechnology-based systems, infrared spectroscopy, and remote-sensing instruments) are hoped to offer substantial growth opportunities for prominent and emerging players in the AQM industry. Therefore, various industrial players and research organizations are increasingly concentrating on developing and commercializing developed & advanced AQM products. For example, nanotechnology-based AQM products offer many procedural benefits, such as real-time monitoring capabilities, device miniaturization, increased analytical effectiveness, and good manufacturing. In the same line of improvements, a low-power gas sensor nanochip was developed by a team of international researchers, making personal air-quality monitoring devices possible. This nanochip sensor is established on a chemical-sensitive field-effect transistor (CS-FET) platform based on 3.5 nanometer-thin silicon channel transistors. Pipeline development and the improved market availability of technologically developed air pollution monitoring systems are expected to offer potential opportunities for market growth in the coming years.

Restraints

The high installation and maintenance costs of conventional air monitoring systems hinder the market’s growth. For instance, installing respect air quality monitoring stations is very high in cost. The cost of a single air quality management station is calculated to be between USD 0.21–0.35 million (excluding yearly maintenance costs). The maintenance cost of pollution-monitoring stations is high (up to 10% of the installation cost for comprehensive maintenance during ten years). High costs associated with the acquisition, installation and maintenance of Air quality management sensors and high installation costs for air quality management stations are further troubled by the implementation of stringent pollution control policies across mature markets that require regulatory compliance for sufficient air pollution monitoring as data collection and data management. Therefore, the premium pricing of advanced monitoring products and the high installation costs of air quality management stations are predicted to restrain their optimal market growth—mostly across countries—during the study period.

Pre-covid-19 impact on Air Quality Control System Market

Before the covid-19, the air quality control monitoring system was increased by the government and non-government organizations working continually to bring the awareness of national and international societies to the devastating impact of air pollution on the healthiness of living beings and the environment. Prominent public organizations are involved in driving public awareness of the environmental impacts of air pollution.

Covid-19 impact on Air Quality Control system

The global pandemic has negatively impacted the working outline of many industries and markets, including the air quality monitoring systems. Slowed by the pandemic, social distancing models, and curfews, the huge disturbances in the operations and the supply chain networks can deter the market’s growth. The global impact of the COVID-19 is offered to period fade away as economies are trying to make their way through the pandemic. The global pandemic has negatively impacted the working outline of many industries and markets, including the air quality monitoring systems. Slowed by the pandemic, social distancing models, and curfews, the huge disturbances in the operations and the supply chain networks can deter the market’s growth. The pandemic has disrupted lives across the nations and communities and negatively affected global economic growth in 2020. Estimates reveal the virus decreased global economic growth in 2020 to an annual cost of -3.4% to -7.6%, with a recovery of 4.2% to 5.6% estimated for 2021. Global trade is also calculated to have decreased by 5.3% in 2020.

Post Covid-19 impact on the global Air Quality Control monitoring system

After the adverse impact of the pandemic, leading players in the air quality monitoring systems market, such as Thermo Fisher, Emerson, and Siemens AG, registered a significant decline in sales for FY2020. However, with markets opening up and the government slowly boosting the lockdown restrictions, the economy is expected to boom up again. Most companies spend more and more on research and development and product innovation to grab future opportunities.

By Product Segmental Analysis

The global air quality control market is segmented into indoor, outdoor, and wearable products. The (AQM) air quality monitoring systems market is segmented into indoor, outdoor, and wearable monitors based on the product. The indoor monitors market is further characterized into fixed indoor monitors and portable indoor monitors. The outdoor monitors market is segmented into portable outdoor monitors, fixed outdoor monitors, dust & particulate subject monitors and AQM stations. Indoor monitors controlled the highest share of the global AQM products market in 2021. It can be segmented by the prevalent position of the market to the rising installation of AQM stations, initiatives & support to increase public awareness about the health implications of indoor air pollution, increasing acceptance of smart home and green-building technologies, and the growing importance of pollution-free indoor environments. Market growth is also assisted by the continuous development and commercialization of innovative AQM (air quality monitoring) technologies and government regulations mandating regular indoor air quality monitoring in working premises.

By Sampling Method Segmental Analysis

The Stack monitoring method is expected to grow with the highest growth rate in the global air quality monitoring systems market in 2021. The sampling method segmented the global air quality monitoring systems market into active/continuous, intermittent, passive, manual, and stack monitoring. The active/continuous monitoring segment controlled the most considerable share of the global air quality monitoring systems market in 2021, whereas the stack monitoring segment is projected to increase at the highest CAGR during the forecast period. The low operating cost of stack monitoring, increasing government assertiveness on regulatory compliance for industrial pollution monitoring, and the increased emphasis on pollution monitoring & control are expected to support this market’s growth. However, the limited procedural accuracy of stack monitoring, caused by environmental conditions such as humidity and temperature, is expected to restrain the market.

By Pollutants Method Segmental Analysis

The chemical pollutants are segmented into chemical, biological, and physical pollutants. The chemical pollutant has calculated the largest share in the global air quality control monitoring system in 2021. The chemical pollutants segment is segmented into nitrogen oxides, sulfur oxides, carbon oxides, volatile organic compounds, and other various chemical pollutants. The chemical pollutants segment controlled the highest share of the global air quality monitoring systems market, by pollutant, in 2020. Market growth is attributed to the increasing levels of chemical air pollutants globally. Furthermore, the implementation of and the need to concede with strict pollution monitoring and managing regulations, rising public awareness, and the development and commercialization of innovative sensors are helping in the growth of this market segment.

Region Segmental Analysis

The air quality control system market is characterized by North America, Asia Pacific, Europe, The Middle East & Africa, and South America. The Asia Pacific is accounted for the largest share in the forecast period. Regions in this market are witnessing growth in their GDPs and a considerable rise in disposable income among the middle-class population. It has shown increased expenditure by the different regional governments on air quality monitoring activities, modernization of industrial and public infrastructures, and growing penetration of cutting-edge environmental monitoring technologies. All of these aspects contribute to the highest CAGR of the region.

Competitors Analysis

The Dominant players in the global air Quality system monitoring markets are Thermo Fisher Scientific, Emerson Electric, General Electric, Siemens AG, Teledyne Technologies, Apektris, TSI Incorporated, Honeywell International, and Semicon Taiwan. Key Stakeholders

• Market Research and consulting firm
• Local governments
• Regulatory bodies
• Suppliers
• Retailers

Recent Development

• In September 2020, Spektris established the new ULTRA Series gas analyzer at Semicon Taiwan 2020.
• In February 2020, TSI Incorporated introduced BlueSky Air Quality Monitor (Model 8143) to measure PM1, PM2.5, PM4 and PM10 mass concentrations and temperature and humidity.
• In March 2019, Emerson Electric launched Rosemount CT4400 Continuous Gas Analyzer with Quantum Cascade Laser (QCL) and Tunable Diode Laser (TDL) analyzer for Continuous emission monitoring.

Scope of the Report

Report Attribute	Details
Market Size Value in 2021	USD 4.4 Billion
The revenue forecast in 2028	USD 5.9 Billion
Growth Rate	CAGR of 6.5 % from 2020 to 2027.
Historical data	2017-2019
Forecast period	2021 – 2028
Region covered	North America, Europe, Asia-Pacific, South America, and Middle East & Africa
Key companies Profiled	Thermo Fisher Scientific, Emerson Electric, General Electric, Siemens AG, Teledyne Technologies, Apektris, TSI Incorporated, Honeywell International, and Semicon Taiwan.

Market Modelling

By Product

• Indoor
• Outdoor
• Wearable

By Sampling

• Stack
• Manual
• Passive

By Pollutants

• Chemical
• Particulate matter
• Biological

By End-User

• Government
• Petrochemical
• Power plant
• Residential

By Region

• North America
• Europe
• Asia Pacific
• South America
• The Middle East & Africa

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