Ambient air quality monitoring involves the measurement of “CO,NOx, SO2, NH3, O3 PM2.5, PM10” air in urban, industrial and rural areas.

These measurements are used to determine the human exposure to pollutants and can be combined with trace/background monitoring as well as stack monitoring to assess an organizations contribution to pollutants, and the effect this has compared to natural levels.

We provide anayser shelter constructed from various material such as stainless  steel SS304 or SS316 or painted galvenized steel.

The shelters are designed and manufactured to ensure the reliable performance of the analyser and their systems , to ensure an optimum operation and maintenance of the analyser by the plant personnel, to ensure the safety of the personnel, and minimize the impact on the environment at customer plant site.

Clean air is made up of nitrogen, oxygen and argon, with traces of other gases such as carbon dioxide.

Air pollutants mainly come from the discharges of gases and particles, mostly from industry, motor vehicles and domestic wood burning.  There are also natural sources such as windblown dust and smoke from bushfire. Some forms of air pollution create global problems requiring international solutions; for example, upper-atmosphere ozone depletion and acid rain. The enhanced greenhouse effect also falls into this category.

The most widespread pollutants include carbon monoxide, volatile organic compounds, ozone, oxides of nitrogen, sulfur dioxide and particles. These substances are used as indicators of air quality.

Air pollution can cause health problems. For example, high concentrations of air pollutants (poor air quality) can aggravate existing respiratory diseases such as asthma and bronchitis, or increase the risk of respiratory problems.

To protect the environment against harmful and unhealthy levels of air pollution, Environmental Protection Agencies (EPA)  adopt objectives to protect a range of  beneficial uses, including the health and well being of humans, plants and animals. These policies cover all the major pollutants as well as specific industrial pollutants from chimneys. There are more stringent controls on industrial discharges of pollutants that may have adverse health effects or are highly toxic.

We specialise in air quality monitoring instruments and systems. We manufacture our own range of air quality analyser system and are able to offer fully integrated monitoring systems. Our air quality monitoring cover a wide variety of gases from background/trace levels, through ambient systems level.

The most common form of air quality monitoring is ambient air monitoring. Ambient air monitoring involves the measurement of “representative” air in urban, industrial and rural areas. These measurements are used to determine the human exposure to pollutants and can be combined with trace/background monitoring as well as stack monitoring to assess an organisation’s contribution to pollution, and the effect this has compared to natural levels. Visibility is also measured as part of an air quality management system for ventilation control, as well as secondary smoke detection.

Environment Pollution and Measurement

To improve environment pollution, Ambient air monitoring is necessary

Ambient air/emission gas analyzers

Microparticulate matter (PM2.5) measuring device

FPM-377C

  • Equipment according to microparticulate matter (PM2 5) measurement  in the "Environmental Monitoring Manual (6th Edition)" of the Ministry of the Environment
  • Beta-ray Absorption Type Source14C Adopted
  • Built-in dehumidifier with heater method
  • Fragmenter employs VSC Cyclone
  • Prepare an outdoor installation type or an indoor installation type

Measuring range
0 to 500/1000/5000 μg/m3

Ambient air/emission gas analyzers

CO,SO2,O3,NOx NMHC,SPM Analyzer

Fine Dust Monitors » Fidas® Smart System

QAL1 / MCERTS certified outdoor air quality monitoring instrument for smart city applications as well as fence line monitoring

Particulate matter analyzer for simultaneous measurement of PM2.5 and PM10(EN 16450, MCERTS) incl. PM1, PM4, TSP, CO2, TVOC. Estimation of the carbon-based PM fraction (PMx_CE)

Fidas® Smart 100

Applications
Industry:

  • Production processes
  • Bulk material handling (mixing, discharge, storage, packaging etc.)
  • Fenceline Monitoring

Construction sites: Roads, railroads, demolition sites
Buildings: Schools, kindergartens, hospitals, hotels, offices, public service buildings
Residential buildings near construction sites or other polluted areas
Public transportation: Airports, train stations, tramway & underground stations, cruise ships, passenger cabin, e.g. in tram, train

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Particulate matter analyzer for simultaneous measurement of PM2.5 and PM10(EN 16450, MCERTS) incl. PM1, PM4, TSP, CO2, TVOC. Estimation of the carbon-based PM fraction (PMx_CE)

Fidas® Smart 100 E

Applications
Industry:

  • Production processes
  • Bulk material handling (mixing, discharge, storage, packaging etc.)
  • Fenceline Monitoring

Construction sites: Roads, railroads, demolition sites
Buildings: Schools, kindergartens, hospitals, hotels, offices, public service buildings
Residential buildings near construction sites or other polluted areas
Public transportation: Airports, train stations, tramway & underground stations, cruise ships, passenger cabin, e.g. in tram, train

For more details - Click Here

Air Quality Monitors for Ambient Air » Fidas® System

QAL1 / MCERTS certified real-time fine dust monitors for air quality measurement and regulatory monitoring

EN 16450 approved fine dust measurement device for simultaneous measurement of PM2.5 and PM10

Fidas® 200

Applications

  • Regulatory pollution control in monitoring networks
  • Ambient air monitoring campaigns
  • Long-term studies
  • Emission source attribution
  • Emission dispersion studies (e.g. fires, volcanoes)

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EN 16450 approved fine dust aerosol spectrometer for simultaneous measurement of PM2,5 and PM10, featuring a separate sensor for existing roof glands

Fidas® 200 E

Applications

  • Regulatory pollution control in monitoring networks
  • Ambient air monitoring campaigns
  • Long-term studies
  • Emission source attribution
  • Emission dispersion studies (e.g. fires, volcanoes)

For more details - Click Here

EN 16450 approved fine dust aerosol spectrometer for simultaneous measurement of PM2.5 and PM10 in weatherproof cabinet for outdoor installation

Fidas® 200 S

Applications

  • Regulatory pollution control in monitoring networks
  • Ambient air monitoring campaigns
  • Preliminary assessments (spot checks)
  • Long-term studies
  • Emission source attribution
  • Emission dispersion studies (e.g. fires, volcanoes)

For more details - Click Here