PM ANALYZER
FOR STACK EMISSION
EZ320 TR is an optical instruments designed to measure dust, smoke and particulate concentration present in an exhaust gas in a duct or stack. It uses light transmission technique which measure change in the intensity of a light beam, using folded beam Transceiver/Reflector arrangement. Increased dust or particulate density in the stack causes the amplitude of the signal to increase.
EZ320 LBS continuous emission monitoring system measures stack dust concentration using Laser Backward Scattering method. It is a typeapproved device combines the advantages of the ideal measurement of very low to high dust concentrations. They are mostly installed on a stack or duct for the purpose of monitoring increase in Particle Density (mg/m3) caused by suspended particles (dust and smoke) passing through the light path.
The monitor is used in the industries including thermal power plants, metal processing, petrochemical industry, cement production, waste incineration, flue gas emission monitoring in all kind of power generating boilers, industrial kilns and industrial boilers, monitoring and control in Flue Gas Desulphurization (FGD) and dust removal process.
FEATURES
1. In situ measurement directly in exhaust gas
2. Creating a stable, ambient-light-immune modulated LED/Laser source.
3. In situ zero and calibration check facility
4. Choice of interface option enabling easy integration
5. Utility software for PC based set-up, control and data logging.
TECHNICAL SPECIFICATON
GAS ANALYZERS
FOR STACK EMISSIONS
The gas analyzers employ NDIR/UV DOAS technology to enable concurrent and uninterrupted measurement of the concentration of up to five gases. These analyzers exhibit outstanding long-term stability, a compact form factor, and straightforward operation. The sensors, characterized by low impedance, demonstrate superiornoise resistance. Moreover, as they lack movable parts, they are immune to vibration and exhibit remarkable resilience to moisture interference.
SAMPLE HANDLING & CONDITIONING SYSTEM
Hot & Wet Extraction: Sample is extracted from the stack using heated sample probe, trasnfered to the sanalyzer using heatrace line to avoid condensation. Further sample is cooled and moisture is removed before analyzing.
Cold & Dry Extraction: Sample is extracted, cooled, moisture removed at the sampling point itself and transported to the analyzer using simple PTFE line.
TECHNICAL SPECIFICATON
LASER GAS ANALYZER
BASED ON TDLAS (Tunable Diode Laser Absorption Spectroscopy)
The EZ320-Series represents a 19″ mountable, tunable laser gas analyzer designed for industrial online analysis and environmental monitoring applications. Utilizing Tunable Diode Laser Absorption Spectroscopy (TDLAS) technology, these analyzers employ a multiple reflection long optical path, enabling the precise analysis of various gases such as HCI, Cl2, 02, NH3, H2S, CO2, CH4, H20, and HF. The configuration of reflected light can be customized to meet specific operational requirements.
The system seamlessly integrates a transmitter, receiver, and gas cell within a compact 1U chassis, facilitating convenient mounting in a standard 19″ rack. The sample gas undergoes filtration through a dedicated probe filter. Within the gas cell, the gas is subjected to laser emissions from the transmitter. Subsequently, the receiver processes the received spectrum to precisely calculate the gas concentration.
TECHNICAL SPECIFICATON
VOC/TOC/THC ANALYZER
BASED ON FID
(Flame lonization Detection)
EZ320 VOC/TOC/THC Gas Analyzer uses Gas Chromatography (GC) combined with Flame lonization Detection (FID) for accurate measurement in gaseous samples. In this system, gas-phase organic compounds are separated by the GC column, then ionized in the FID’s hydrogen flame. The ionization current generated is directly proportional to the organic carbon content.
This method provides highly sensitive and specific detection in industrial emissions, ambient air, and process gases. The system includes a sample preparation unit, GC column, FID detector, and a display unit for real-time gas monitoring.
VOC ANALYZER
BASED ON PID
(Photoionization Detection)
EZ320 PID, Continuous Emission Monitoring System uses Photoionization (PID) principle for gas detection. The ultraviolet light generated by the UV lamp is irradiated on the target gas. The target gas is ionized after absorbing sufficient ultrviolet light energy. The concentration of the target gas is detected by measuring the current generated due to gas ionization. The system consists of sampling unit, sensor unit and the display unit. The sample gas enters the PID gas detector through suction pump. The detector transmit the processed concentration signal to the display unit.
AMBIENT AIR QUALITY MONITORING SYSTEM
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.
Poll-IQ
Poll-IQ is an Ambient Air Quality Monitoring System (AAQMS). It is capable to monitor PM2.5, PM10, SO2, NOx, CO, O3 and many more.
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.
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.
AMBIENT AIR QUALITY MONITORING SYSTEM
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. SO2 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.
03
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.
AMBIENT AIR QUALITY MONITORING SYSTEM
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.
Dynamic Calibrator
H2 Gas Generator
Zero Gas Generator
EFFLUENT QUALITY MONITORING SYSTEM
COD, BOD, TSS, TOC, PH, etc
The EZL600 Effluent Water Quality Analyzer have an integrated control unit and sensors/probes. It is designed for continuous online measurement of absorbtion spectra (UV-VIS Spectrophotometry). The analyzers can be operated either directly immersed in liquid media (In-situ) or in Extractive flow cell setup. It is capable of making a simultaneous measurement for various parameters and is perfect use for water quality measurement and inspection of river water, groundwater, effluent and municipal waste water etc.
