Air Quality Monitoring

Excellent sensitivity and field-proven reliability of HORIBA analyzers for air quality monitoring and pollution source appointment

Air quality monitoring refers to continuous measurement of specific air pollutants also known as “criteria air pollutants”.  Obtained air pollution data together with natural background/trace gas monitoring and stationary source emission monitoring helps to define what kind of air pollution people are exposed to. Air pollution monitoring data is essential for air pollution assessment, countermeasures and environment pollution policies by local and national authorities, private and public companies, and national organizations.

HORIBA offers cutomer oriented tailor-made system solutions with its state-of-the-art analytical technologies and more than 50 years experience in ambient air market. As your true partner in environmental preservation, we deliver air quality monitoring, indoor air quality monitoring , clean room airborne molecular contamination monitoring , quality control and stationary emission monitoring by diluted stack gas monitoring.

Please select a component to be measured to see the product lineup.
If you need to measure a component that is not included in the list, please feel free to contact us.

 Carbon monoxide(CO) Carbon dioxide(CO2 Nitrogen oxide (NO) 
 Nitrogen dioxide(N2O) Nitrogen oxides (NOX Ozone(O3 
 Ammonia(NH3 Sulfur dioxide (SO2 Hydrogen sulfide(H2S) 
 Methane (CH₄) Non Methane Hydrocarbbons (NMHC) Total Hydrocarbons(THC) 
 Particulate Matter(PM2.5/10, SPM)
Related products:
 Calibrators Data Management Systems 

NO concentration

Nitrogen oxide (NO) plays important roles in various biological processes and is a signaling molecule in the body. Measuring NO is crucial for understanding its role in physiological processes, diagnosing and managing health conditions, assessing environmental impact, and advancing research and drug development.

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APNA-370
APNA-370

Ambient NOx Monitor

NOx concentration

Nitrogen oxides (NOx) are mainly nitrogen monoxide (NO) and nitrogen dioxide (NO2). Nitrogen oxides (NOx) cause photochemical smog and acid rain, and nitrogen dioxide (NO2) in particular has a negative effect on the human respiratory system, including the throat, organs, and lungs.

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APNA-370
APNA-370

Ambient NOx Monitor

NH₃ Concentration

Ammonia (NH3) is a gas with a strong odor similar to urine, and each country has its own emission regulations because it is also a malodorous substance. It's commonly released from livestock waste, fertilizers, and vehicles. When it reacts with nitrogen oxides (NOx) and sulfur oxides (SOx) in the atmosphere, it can contribute to the formation of PM2.5, which is a type of harmful air pollutant.

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SO₂ concentration

Sulfur dioxide (SO2) is created when burning fossil fuels that contain sulfur, such as oil and coal. This gas is known to trigger asthma and is also a contributor to acid rain.

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APSA-370 [High Sensitivity Model]
APSA-370 [High Sensitivity Model]

Ambient Sulfur Dioxide Monitor

H₂S concentration

 

Hydrogen sulfide (H2S) is a gas that has a distinct smell similar to that of rotten eggs. Each country has its own emission regulations because it is also a malodorous substance. When people come into contact with it, it can cause eye and respiratory irritation, headaches, and dizziness. This gas is also commonly found in geothermal and hot spring regions.

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APSA-370/CU-1 [High Sensitivity Model]
APSA-370/CU-1 [High Sensitivity Model]

Ambient Hydrogen Sulfide (H2S) Monitor

CO concentration

Carbon monoxide (CO) is mostly created when carbon compounds are not fully burned. When humans breathe it in, it attaches to their hemoglobin and stops it from carrying oxygen, causing various harmful effects. It is also believed to extend the lifespan of methane, which is a greenhouse gas.

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APMA-370
APMA-370

Ambient Carbon Monoxide Monitor

CO₂ concentration

Carbon dioxide (CO2) is considered a major cause of accelerated global warming, and in recent years, there have been discussions around the world about reducing its emissions. Monitoring indoor levels of carbon dioxide (CO2) has also gained attention as a way to maintain a healthy and productive work environment.

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APCA-370
APCA-370

Ambient Carbon Dioxide Monitor

O₃ concentration

Ozone (O3) is one of the main substances causing photochemical smog, which is formed when nitrogen oxides and hydrocarbons in the atmosphere are exposed to sunlight and undergo photochemical reactions. Photochemical smog causes eye pain, nausea, and headaches in humans.

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APOA-370
APOA-370

Ambient Ozone Monitor

CH₄ concentration

Methane CH4 is the main component of natural gas (city gas) used in homes. It is also produced in processes such as cattle and sheep farming and rice cultivation. The greenhouse effect coefficient of methane CH4 (with CO2 carbon dioxide as 1) is 25 times greater than that of CO2 carbon dioxide, and if even a small amount is released into the atmosphere, it can have a long-term negative impact on global warming.

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APHA-380
APHA-380

Hydrocarbon Monitor

NMHC, THC concentration

Hydrocarbons are a general term for organic compounds consisting of carbon and hydrogen bonded together. Non-methane hydrocarbons (NMHC) are involved in the photochemical reactions of photochemical smog. 

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APHA-370
APHA-370

Hydrocarbon Monitor / THC Analyser

Particulate matter related (PM2.5, PM10, SPM, elements, BP)

Suspended dust is composed of various substances, including inorganic and organic elements, and is classified into SPM, PM2.5, PM10, etc. according to particle size. The smaller the particle size, the more likely it is to penetrate deep into the body and cause respiratory diseases. Particulate matter also includes short-lived climate pollutants that contribute to global warming, of which black carbon is a typical example.

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APDA-372
APDA-372

Ambient Dust Monitor

Calibrators

OZGU-370SE
OZGU-370SE

Ozone Transferstandard

Data Management

IOX-370
IOX-370

Datalogger IO-Expander

Systems

AQMS
AQMS

Ambient Air Quality Monitoring System

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