HVAC Air Quality Monitoring Market Size By Product (Portable {PM Sensor, Others}, Stationary), By Pollutant (Chemical {NOx, Sox, Cox, VOCs, Others}, Physical {Particulate Matter[PM10, PM2.5, PM1, TSP], Others}, Biological), By Application (Industrial, Com

HVAC Air Quality Monitoring Market Size By Product (Portable {PM Sensor, Others}, Stationary), By Pollutant (Chemical {NOx, Sox, Cox, VOCs, Others}, Physical {Particulate Matter[PM10, PM2.5, PM1, TSP], Others}, Biological), By Application (Industrial, Commercial, Institutional, Residential) & Forecast, 2023 - 2032


Global HVAC Air Quality Monitoring Market size will expand notably through 2032. Growing adoption of sensors in air quality monitors across the residential and commercial sectors is shaping the industry landscape. Sensors help track indoor air quality parameters such as humidity, temperature, CO2 levels, and others in real-time. They also help identify potential air quality issues quickly to ensure safe and clean indoor air. Owing to their affordability and ease of installation, sensors have gained widespread traction, which may contribute to the increasing product demand.
The overall HVAC air quality monitoring market is divided based on product, pollutant, application, and region.
The portable air quality monitors market share will grow at more than 6% CAGR from 2023 to 2032. Owing to their lightweight and compactness, portable air quality monitors find extensive usage in different indoor and outdoor environments, such as homes, offices, schools, cars, and public spaces. Additionally, these systems provide real-time measurements of air pollutants, allowing users to assess the air quality in their surroundings instantly. This immediate feedback enables prompt action to address any potential air quality issues.
Based on the pollutant, the HVAC air quality monitoring industry from the physical segment will garner notable gains over 2023-2032. Superior customization features of these systems that help detect physical pollutants such as particulate matter (PM), volatile organic compounds (VOCs), and carbon monoxide (CO) favors their adoption. These systems can be programmed to send alerts and notifications when pollutant levels exceed predefined thresholds. This feature enables homeowners to promptly respond to potential air quality problems and take appropriate measures to address the issue.
In terms of application, the HVAC air quality monitoring market value from the residential segment will exhibit commendable growth through 2032. Increasing awareness of the importance of indoor air quality (IAQ) has propelled the adoption of these systems in residential spaces. Moreover, regulatory requirements and certifications related to IAQ, such as LEED (Leadership in Energy and Environmental Design) certification, have further compelled homeowners to opt for energy-efficient systems. Compliance with these standards often necessitates continuous monitoring of IAQ parameters, and HVAC air quality monitoring systems offer a convenient solution.
Asia Pacific HVAC air quality monitoring industry will be worth over USD 2.5 billion by 2032. Favorable government initiatives for air quality management are contributing to regional expansion. For instance, in September 2022, the Asian Development Bank launched the Asia Clean Blue Skies Program (ACBSP) to increase its investments in enhancing air quality across the region. Moreover, rapid urbanization, with a growing number of buildings, offices, and residential complexes, has also increased the need for air quality monitoring systems in the region.
Asia Pacific HVAC air quality monitoring industry will be worth over USD 2.5 billion by 2032. Favorable government initiatives for air quality management are contributing to regional expansion. For instance, in September 2022, the Asian Development Bank rolled out the Asia Clean Blue Skies Program to increase its investments in enhancing air quality across the region. Moreover, rapid urbanization, with a growing number of buildings, offices, and residential complexes, has also increased the need for air quality monitoring systems in the region.


Chapter 1 Methodology and Scope
1.1 Market scope & definitions
1.2 Base estimates and calculations
1.3 Forecast calculations
1.4 Data Sources
1.4.1 Primary
1.4.2 Secondary
1.4.2.1 Paid sources
1.4.2.2 Public sources
Chapter 2 Executive Summary
2.1 HVAC air quality monitoring industry 360 degree synopsis, 2018-2032
2.2 Business trends
2.2.1 Total Addressable Market (TAM), 2023-2032
2.3 Product trends
2.4 Pollutant trends
2.5 Application trends
2.6 Regional trends
Chapter 3 HVAC Air Quality Monitoring Market Industry Insights
3.1 Impact of COVID-19
3.1.1 North America
3.1.2 Europe
3.1.3 Asia Pacific
3.1.4 Latin America
3.1.5 MEA
3.2 Russia- Ukraine war impact
3.3 Industry ecosystem analysis
3.3.1 Raw material suppliers
3.3.2 Manufacturers
3.3.3 Distributors
3.3.4 End-users
3.3.5 Profit margin analysis
3.3.6 Vendor matrix
3.4 Technology & innovation landscape
3.4.1 IoT-based air pollution monitoring system
3.4.2 Mobile air quality monitoring
3.4.3 Stationary monitoring with low-cost air sensors
3.5 Patent analysis
3.6 Key initiative and news
3.7 Regulatory landscape
3.7.1 North America
3.7.2 Europe
3.7.3 Asia Pacific
3.7.4 Latin America
3.7.5 MEA
3.8 Industry impact forces
3.8.1 Growth drivers
3.8.1.1 Growing installation of indoor air quality monitors
3.8.1.2 Rising adoption of sensors in air quality monitors for the commercial and household sectors
3.8.1.3 Increasing awareness of rising air pollution
3.8.1.4 Surging need for smart home appliances
3.8.1.5 Government regulations on sustainable appliances
3.8.2 Industry pitfalls & challenges
3.8.2.1 High cost of product installation
3.8.2.2 The use of advanced technology for air quality measurement is still limited
3.9 Growth potential analysis
3.10 Porter's analysis
3.11 PESTEL analysis
Chapter 4 Competitive Landscape, 2022
4.1 Introduction
4.2 Company market share, 2022
4.3 Competitive analysis of major market players, 2022
4.3.1 Honeywell
4.3.2 Teledyne Technologies
4.3.3 Emerson Electric Co.
4.3.4 Siemens AG
4.3.5 PerkinElmer Inc.
4.3.6 Agilent Technologies
4.4 Competitive positioning matrix
4.5 Strategic outlook matrix
Chapter 5 HVAC Air Quality Monitoring Market, By Product
5.1 Key trends, by product
5.2 Portable
5.2.1 Market estimates and forecast, 2018-2032
5.2.2 PM Sensor
5.2.2.1 Market estimates and forecast, 2018-2032
5.2.3 Others
5.2.3.1 Market estimates and forecast, 2018-2032
5.3 Stationary
5.3.1 Market estimates and forecast, 2018-2032
Chapter 6 HVAC Air Quality Monitoring Market, By Pollutant
6.1 Key trends, by pollutant
6.2 Chemical
6.2.1 Market estimates and forecast, 2018-2032
6.2.2 NOx
6.2.2.1 Market estimates and forecast, 2018-2032
6.2.3 SOx
6.2.3.1 Market estimates and forecast, 2018-2032
6.2.4 COx
6.2.4.1 Market estimates and forecast, 2018-2032
6.2.5 VOCs
6.2.5.1 Market estimates and forecast, 2018-2032
6.2.6 Others
6.2.6.1 Market estimates and forecast, 2018-2032
6.3 Physical
6.3.1 Market estimates and forecast, 2018-2032
6.3.2 Particulate matter
6.3.2.1 Market estimates and forecast, 2018-2032
6.3.2.2 PM10
6.3.2.2.1 Market estimates and forecast, 2018-2032
6.3.2.3 PM2.5
6.3.2.3.1 Market estimates and forecast, 2018-2032
6.3.2.4 PM1
6.3.2.4.1 Market estimates and forecast, 2018-2032
6.3.2.5 TSP
6.3.2.5.1 Market estimates and forecast, 2018-2032
6.3.3 Others
6.3.3.1 Market estimates and forecast, 2018-2032
6.4 Biological
6.4.1 Market estimates and forecast, 2018-2032
Chapter 7 HVAC Air Quality Monitoring Market, By Application
7.1 Key trends, by application
7.2 Industrial
7.2.1 Market estimates and forecast, 2018-2032
7.3 Commercial
7.3.1 Market estimates and forecast, 2018-2032
7.4 Institutional
7.4.1 Market estimates and forecast, 2018-2032
7.5 Residential
7.5.1 Market estimates and forecast, 2018-2032
Chapter 8 HVAC air quality monitoring Market, By Region
8.1 Key trends, by region
8.2 North America
8.2.1 Market estimates and forecast, by product, 2018-2032
8.2.2 Market estimates and forecast, by pollutant, 2018-2032
8.2.3 Market estimates and forecast, by application, 2018-2032
8.2.4 U.S.
8.2.4.1 Market estimates and forecast, by product, 2018-2032
8.2.4.2 Market estimates and forecast, by pollutant, 2018-2032
8.2.4.3 Market estimates and forecast, by application, 2018-2032
8.2.5 Canada
8.2.5.1 Market estimates and forecast, by product, 2018-2032
8.2.5.2 Market estimates and forecast, by pollutant, 2018-2032
8.2.5.3 Market estimates and forecast, by application, 2018-2032
8.3 Europe
8.3.1 Market estimates and forecast, by product, 2018-2032
8.3.2 Market estimates and forecast, by pollutant, 2018-2032
8.3.3 Market estimates and forecast, by application, 2018-2032
8.3.4 UK
8.3.4.1 Market estimates and forecast, by product, 2018-2032
8.3.4.2 Market estimates and forecast, by pollutant, 2018-2032
8.3.4.3 Market estimates and forecast, by application, 2018-2032
8.3.5 Germany
8.3.5.1 Market estimates and forecast, by product, 2018-2032
8.3.5.2 Market estimates and forecast, by pollutant, 2018-2032
8.3.5.3 Market estimates and forecast, by application, 2018-2032
8.3.6 France
8.3.6.1 Market estimates and forecast, by product, 2018-2032
8.3.6.2 Market estimates and forecast, by pollutant, 2018-2032
8.3.6.3 Market estimates and forecast, by application, 2018-2032
8.3.7 Italy
8.3.7.1 Market estimates and forecast, by product, 2018-2032
8.3.7.2 Market estimates and forecast, by pollutant, 2018-2032
8.3.7.3 Market estimates and forecast, by application, 2018-2032
8.3.8 Spain
8.3.8.1 Market estimates and forecast, by product, 2018-2032
8.3.8.2 Market estimates and forecast, by pollutant, 2018-2032
8.3.8.3 Market estimates and forecast, by application, 2018-2032
8.3.9 Netherlands
8.3.9.1 Market estimates and forecast, by product, 2018-2032
8.3.9.2 Market estimates and forecast, by pollutant, 2018-2032
8.3.9.3 Market estimates and forecast, by application, 2018-2032
8.4 Asia Pacific
8.4.1 Market estimates and forecast, by product, 2018-2032
8.4.2 Market estimates and forecast, by pollutant, 2018-2032
8.4.3 Market estimates and forecast, by application, 2018-2032
8.4.4 China
8.4.4.1 Market estimates and forecast, by product, 2018-2032
8.4.4.2 Market estimates and forecast, by pollutant, 2018-2032
8.4.4.3 Market estimates and forecast, by application, 2018-2032
8.4.5 India
8.4.5.1 Market estimates and forecast, by product, 2018-2032
8.4.5.2 Market estimates and forecast, by pollutant, 2018-2032
8.4.5.3 Market estimates and forecast, by application, 2018-2032
8.4.6 Japan
8.4.6.1 Market estimates and forecast, by product, 2018-2032
8.4.6.2 Market estimates and forecast, by pollutant, 2018-2032
8.4.6.3 Market estimates and forecast, by application, 2018-2032
8.4.7 Oceania
8.4.7.1 Market estimates and forecast, by product, 2018-2032
8.4.7.2 Market estimates and forecast, by pollutant, 2018-2032
8.4.7.3 Market estimates and forecast, by application, 2018-2032
8.4.8 Indonesia
8.4.8.1 Market estimates and forecast, by product, 2018-2032
8.4.8.2 Market estimates and forecast, by pollutant, 2018-2032
8.4.8.3 Market estimates and forecast, by application, 2018-2032
8.4.9 Malaysia
8.4.9.1 Market estimates and forecast, by product, 2018-2032
8.4.9.2 Market estimates and forecast, by pollutant, 2018-2032
8.4.9.3 Market estimates and forecast, by application, 2018-2032
8.4.10 South Korea
8.4.10.1 Market estimates and forecast, by product, 2018-2032
8.4.10.2 Market estimates and forecast, by pollutant, 2018-2032
8.4.10.3 Market estimates and forecast, by application, 2018-2032
8.4.11 Singapore
8.4.11.1 Market estimates and forecast, by product, 2018-2032
8.4.11.2 Market estimates and forecast, by pollutant, 2018-2032
8.4.11.3 Market estimates and forecast, by application, 2018-2032
8.4.12 Vietnam
8.4.12.1 Market estimates and forecast, by product, 2018-2032
8.4.12.2 Market estimates and forecast, by pollutant, 2018-2032
8.4.12.3 Market estimates and forecast, by application, 2018-2032
8.5 Latin America
8.5.1 Market estimates and forecast, by product, 2018-2032
8.5.2 Market estimates and forecast, by pollutant, 2018-2032
8.5.3 Market estimates and forecast, by application, 2018-2032
8.5.4 Brazil
8.5.4.1 Market estimates and forecast, by product, 2018-2032
8.5.4.2 Market estimates and forecast, by pollutant, 2018-2032
8.5.4.3 Market estimates and forecast, by application, 2018-2032
8.5.5 Mexico
8.5.5.1 Market estimates and forecast, by product, 2018-2032
8.5.5.2 Market estimates and forecast, by pollutant, 2018-2032
8.5.5.3 Market estimates and forecast, by application, 2018-2032
8.5.6 Colombia
8.5.6.1 Market estimates and forecast, by product, 2018-2032
8.5.6.2 Market estimates and forecast, by pollutant, 2018-2032
8.5.6.3 Market estimates and forecast, by application, 2018-2032
8.6 MEA
8.6.1 Market estimates and forecast, by product, 2018-2032
8.6.2 Market estimates and forecast, by pollutant, 2018-2032
8.6.3 Market estimates and forecast, by application, 2018-2032
8.6.4 UAE
8.6.4.1 Market estimates and forecast, by product, 2018-2032
8.6.4.2 Market estimates and forecast, by pollutant, 2018-2032
8.6.4.3 Market estimates and forecast, by application, 2018-2032
8.6.5 Saudi Arabia
8.6.5.1 Market estimates and forecast, by product, 2018-2032
8.6.5.2 Market estimates and forecast, by pollutant, 2018-2032
8.6.5.3 Market estimates and forecast, by application, 2018-2032
8.6.6 South Africa
8.6.6.1 Market estimates and forecast, by product, 2018-2032
8.6.6.2 Market estimates and forecast, by pollutant, 2018-2032
8.6.6.3 Market estimates and forecast, by application, 2018-2032
8.6.7 Kuwait
8.6.7.1 Market estimates and forecast, by product, 2018-2032
8.6.7.2 Market estimates and forecast, by pollutant, 2018-2032
8.6.7.3 Market estimates and forecast, by application, 2018-2032
Chapter 9 Company Profiles
9.1 3M
9.1.1 Business Overview
9.1.2 Financial Data
9.1.3 Product Landscape
9.1.4 Strategic Outlook
9.1.5 SWOT Analysis
9.2 Aeroqual
9.2.1 Business Overview
9.2.2 Financial Data
9.2.3 Product Landscape
9.2.4 Strategic Outlook
9.2.5 SWOT Analysis
9.3 Airveda
9.3.1 Business Overview
9.3.2 Financial Data
9.3.3 Product Landscape
9.3.4 Strategic Outlook
9.3.5 SWOT Analysis
9.4 Dylos Corporation
9.4.1 Business Overview
9.4.2 Financial Data
9.4.3 Product Landscape
9.4.4 Strategic Outlook
9.4.5 SWOT Analysis
9.5 Emerson Electric Co.
9.5.1 Business Overview
9.5.2 Financial Data
9.5.3 Product Landscape
9.5.4 Strategic Outlook
9.5.5 SWOT Analysis
9.6 Forbix Semicon Pvt. Ltd.
9.6.1 Business Overview
9.6.2 Financial Data
9.6.3 Product Landscape
9.6.4 Strategic Outlook
9.6.5 SWOT Analysis
9.7 Honeywell International Inc.
9.7.1 Business Overview
9.7.2 Financial Data
9.7.3 Product Landscape
9.7.4 Strategic Outlook
9.7.5 SWOT Analysis
9.8 Horiba
9.8.1 Business Overview
9.8.2 Financial Data
9.8.3 Product Landscape
9.8.4 Strategic Outlook
9.8.5 SWOT Analysis
9.9 Kanomax USA, Inc
9.9.1 Business Overview
9.9.2 Financial Data
9.9.3 Product Landscape
9.9.4 Strategic Outlook
9.9.5 SWOT Analysis
9.10 Metrohm AG
9.10.1 Business Overview
9.10.2 Financial Data
9.10.3 Product Landscape
9.10.4 Strategic Outlook
9.10.5 SWOT Analysis
9.11 Sensirion AG
9.11.1 Business Overview
9.11.2 Financial Data
9.11.3 Product Landscape
9.11.4 Strategic Outlook
9.11.5 SWOT Analysis
9.12 Siemens
9.12.1 Business Overview
9.12.2 Financial Data
9.12.3 Product Landscape
9.12.4 Strategic Outlook
9.12.5 SWOT Analysis
9.13 Testo SE & Co. KGaA
9.13.1 Business Overview
9.13.2 Financial Data
9.13.3 Product Landscape
9.13.4 Strategic Outlook
9.13.5 SWOT Analysis
9.14 Thermo Fisher Scientific
9.14.1 Business Overview
9.14.2 Financial Data
9.14.3 Product Landscape
9.14.4 Strategic Outlook
9.14.5 SWOT Analysis
9.15 TSI Incorporated
9.15.1 Business Overview
9.15.2 Financial Data
9.15.3 Product Landscape
9.15.4 Strategic Outlook
9.15.5 SWOT Analysis
9.16 Ventilation Control Products
9.16.1 Business Overview
9.16.2 Financial Data
9.16.3 Product Landscape
9.16.4 Strategic Outlook
9.16.5 SWOT Analysis
9.17 Veris Industries
9.17.1 Business Overview
9.17.2 Financial Data
9.17.3 Product Landscape
9.17.4 Strategic Outlook
9.17.5 SWOT Analysis

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