Research Methodologies Followed:
Primary Research:
Primary research was conducted after acquiring extensive knowledge about the global Air Quality Monitoring System Market scenario through secondary research. Primary interviews were conducted with market experts from both the demand-side (such as CROs, hospitals, transplant centers, healthcare service providers, commercial service providers, academia, and research organizations) and supply-side respondents (such as presidents, CEOs, vice presidents, directors, general managers, heads of business units, and senior managers) across five major geographies, namely, North America, Europe, the Asia Pacific, Latin America, and the Middle East, and Africa.
Approximately 20% of the primary interviews were conducted with stakeholders from the demand side, while those from the supply side accounted for the remaining 80%. Primary data for this report was collected through questionnaires, emails, and telephonic interviews.
Secondary Research:
The secondary research process involves the widespread use of secondary sources, directories, databases (such as Bloomberg Businessweek, Factiva, and DB), white papers, annual reports, companies house documents, investor presentations, and SEC filings of companies. Secondary research was used to identify and collect information useful for the extensive, technical, market-oriented, and commercial study of the air quality monitoring systems market. A database of the key industry leaders was also prepared using secondary research.
Major Growth Driving Factors:
Technological advancements in air quality monitoring systems, rising levels of air pollution, supportive government regulations for effective air pollution monitoring and control, and ongoing initiatives toward the development of environment-friendly industries are the major factors that drives the growth of this market. Adding to this, increasing public-private funding for effective air pollution monitoring, and the increasing public awareness related to the environmental and healthcare implications of air pollution also supports the growth of this market.
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However, high costs associated with the purchase, installation, and maintenance of AQM sensors as well as high establishment costs for AQM stations, and technical limitations, such as low data accuracy and reliability, need for regular device calibration and maintenance, and sampling issues are the major factors that are expected to restrain the growth of this market during the forecast period.
Global Key Players:
The dominant players in the global air quality monitoring system market are Thermo Fisher Scientific (US), Emerson Electric (US), General Electric (US), Siemens AG (Germany), Teledyne Technologies (US), PerkinElmer, Inc. (US), Agilent Technologies, Inc. (US), Spectris plc (UK), 3M Company (US), Honeywell International Inc (US), HORIBA, Ltd. (Japan), Merck KGaA (Germany), TSI Incorporated (US), Tisch Environmental (US), and Testo (Germany), among others.
Growth Strategies Adopted by Them:
The competitive landscape includes the analysis of the key growth strategies adopted by major players between 2018–2020 to expand their global presence and increase their market shares in the air quality monitoring systems market. The key growth strategies adopted by the top players in the market include product launches and approvals, agreements, expansions, and acquisitions. Product approvals and launches were the most widely adopted growth strategies by market players in the last three years to garner a larger share of the market.
In 2020, the air quality monitoring systems market was dominated by Thermo Fisher Scientific (US), 3M (US), Siemens (Germany), Teledyne Technologies (US), and General Electric (US).
Thermo Fisher Scientific (US) is one of the leading providers in the global air quality monitoring systems market. Its vast product range and wide geographical presence across key markets like North America, Europe, the APAC, and Africa are the key factor accounting for its large share in this market. Thermo Fisher has a robust product portfolio consisting of gas analyzers, air samplers, monitoring systems, particulate matter monitors, probes and other accessories, and focuses on vigorous RD activities and continuous product development. Recently in March 2021, the company launched the Thermo Scientific AerosolSense Sampler which is a surveillance solution for in-air pathogens, including SARS-CoV-2.
Siemens AG (Germany) is also a leading player in the global air quality monitoring systems market, owing to its wide geographic presence and strong RD capabilities. Siemens has a robust sales and distribution network in more than 190 countries, inclusive of Europe, the Americas, APAC, the Middle East, and Africa. The company has a robust manufacturing base with ~285 major production and manufacturing facilities located across the world. A vast product range and continuous product development owing to huge investment in significant RD initiatives is expected to strengthen its position in the AQM market.
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Geographical Growth Dynamics:
The Asia Pacific market is expected to grow at the highest CAGR during the forecast period
On the basis of region, the air quality monitoring systems market is segmented into North America, Europe, Asia Pacific, Latin America, and the Middle East Africa. The asia-pacific market is expected to register the highest growth in the forecast period. Countries in this market are witnessing growth in their GDPs and a significant rise in disposable income among the middle-class population. This has led to increased expenditure by various regional government on air quality monitoring activities, modernization of industrial and public infrastructures, and rising penetration of cutting-edge environmental monitoring technologies. All of these factors contribute to the high CAGR of the region.
Makarand Vaidya
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