PM2.5, PM10, SO2, NO2, CO, O3, TVOC, etc (Based on Laser Scattering & ECD Method)

DustCount

Dustcount is an Online Particulate Monitoring System for Ambient applications. It is capable to monitor various particulate matter like PM1, PM2.5 &PM10. Dustcount is an ideal choice for applications like construction sites, mines, quarries, port, research projects, etc.

OdoCount

Odocount is the Real-time Odour Emission Tracking Solution. Odocount detect, measures and monitors the odourful gases and gaseous contaminants on a continuous basis like Ammonia (NH3), Hydrogen Sulfide (H2S), Volatile Organic Compounds (TVOCs), Methyl Mercaptan (CH3SH), Meteorological Parameters, and many more.

Poll-IQ

Poll-IQ is an Ambient Air Quality Monitoring System (AAQMS). It is capable to monitor PM2.5, PM10, SO2, NOX, CO, 03 and many more.

AQ1

AQ1 is an industrial grade single parameter air quality monitor with automation capabilities. This product range consists of critical parameters and toxic gases like Total Volatile Organic Compound (TVOC), Ammonia (NH3), Hydrogen Sulfide (H2S), Methane (CH4), Carbon Monoxide (CO), Formaldehyde (CH2O), Particulate Matter, Ambient Noise.

USEPA Approved Analyzers

PM2.5 & PM10

Beta ray attenuation technology measures PM10 and PM2.5 levels by detecting the reduction in beta radiation as it passes through airborne particle samples. Using a beta radiation source and detectors, this method provides accurate assessment of particle concentration, ensuring reliable air quality and environmental monitoring.

SO2

UV fluorescence technology continuously monitors atmospheric SO2 by exposing the air sample to UV light. 502 molecules absorb the light and emit fluorescence, which is measured to determine the concentration. This sensitive, real-time method is crucial for environmental compliance and assessing air quality.

NOx

The cross-flow modulated semi-decompression chemiluminescence method measures NOx in ambient air by inducing a chemiluminescent reaction between nitrogen oxides and ozone. Controlled modulation of air and reagent flow rates enhances sensitivity. The emitted light is detected and measured, providing an accurate assessment of NOx concentrations for environmental monitoring.

CO

The analyzer continuously monitors CO concentrations using Non-dispersion Cross Modulation Infrared Analysis. Its internal dry-method sampling ensures high sensitivity, precise measurements, and minimal maintenance, making it ideal for atmospheric pollution monitoring.

O₃

The analyzer uses cross-flow modulated UV absorption to continuously monitor atmospheric ozone levels. Its internal dry-method sampling ensures high sensitivity, accuracy, and low maintenance, making it ideal for atmospheric pollution monitoring.

Analyzers & Sensors

BTEX Analyzer

This instrument uses chromatographic separation and pre-concentration to analyze CH4 and NMHCs in ambient air. The sample is quantified, separated in a CH4 column, and detected by an FID detector. NMHCs are enriched via an adsorption tube and analyzed by high-temperature thermal desorption in the FID.

HC/NMHC Analyzer

This instrument uses chromatographic column separation and pre-concentration technology to analyze CH4 and NMHCs in ambient air. The sample is quantified in a loop, separated in the CH4 analysis column, and detected by the FID detector. NMHCs are enriched in an adsorption tube and analyzed by high-temperature thermal desorption in the FID.

Weather Sensor

The Ultrasonic Weather Monitoring Sensor is a high-tech device providing real-time data on key environmental parameters. It measures wind speed, wind direction, temperature, humidity, barometric pressure, rainfall, UV index, and illumination. Utilizing ultrasonic technology and precision sensors, it delivers accurate data for agriculture, energy, and climate research applications.