NO/NO2 Archives - Thomson Environmental Systems

Clarity Multi-Gas Module

thomson-admin — Thu, 06 Mar 2025 22:54:30 +0000

The Clarity Multi-Gas Module expands the capabilities of the Node-S, enabling real-time measurement of CO, O₃, NO₂, NO, and NOx — five key pollutants that impact air quality and public health. Whether monitoring urban pollution, industrial emissions, or transportation corridors, this compact, all-in-one sensor provides high-quality data without the complexity of multiple instruments.

Designed for effortless deployment, the Multi-Gas Module features a weatherproof, UV-resistant enclosure and modular mounting for quick installation on both vertical and horizontal poles. With Clarity’s plug-and-play Add-On Module design, the Multi-Gas Module leverages the solar-powered operation and built-in cellular connectivity of the Node-S — even when paired with the Wind Module.

Multi-Gas Module use cases

CO and wildfires

CO is a by-product of combustion, emitted by both wildfires and urban sources
Wildfires produce significantly more PM2.5 per unit of CO than urban sources
The PM2.5-to-CO ratio helps distinguish wildfire smoke from urban pollution.

NOₓ and traffic

High NO and NO₂ levels identify traffic-related pollution hotspots
A higher NO-to-NO₂ ratio indicates fresh emissions near the source, while a lower ratio suggests chemical transformation as the air moves further away.

O₃ non-attainment and smog formation

Quantify diurnal pattern of NOx (morning, evening peaks) and O3 (afternoon peak)
Elevated NOₓ and O₃ together signal strong photochemical activity and smog formation.

Download Specifications

Case Studies

The post Clarity Multi-Gas Module appeared first on Thomson Environmental Systems.

GasEye Cross Duct MG (Multi Gas)

thomson-admin — Tue, 18 Jun 2024 03:12:15 +0000

GasEye Cross Duct MG (Multi Gas) is a high performance in-situ analyzer that provides analysis for 17 standard gas combinations and can be customised for specific combinations. GasEye Cross Duct MG utilizes tunable diode laser (TDL) absorption spectroscopy. The central unit sends a laser light through the process which is detected by the receiver unit mounted on the opposite side of the process. When a gas of interest is present in this process, it will absorb the laser light. The optical power detected in the receiver unit will depend on the concentration of the gas, temperature, pressure, and optical pathlength according to Lambert’s Beer law. Thus in order to determine the gas concentration, the analyzer requires information regarding temperature, pressure, and optical pathlength. Temperature and pressure signals can be provided by analog inputs, via industrial communication protocols, or as manual values via Webserver or HMI.

In the GasEye Cross Duct analyzer, the laser wavelength is specifically chosen to match the fingerprint region of the particular gas of interest and is being continuously scanned over the absorption line(s). Since full spectral information is recovered with very high spectral resolution the analyzer remains immune to foreign gas broadening and is immune to cross-interferences from dust and any other gas constituents in the process. GasEye Cross Duct by design can operate in several wavelength regions from Near-Infrared to Mid-Infrared.

Applications

Combustion control (boilers)
Safety monitoring
Electrofilter Protection.

Industries

Power industry
Steel industry
Chemical industry.

Multi-Gas Combinations

CO+O2
CO+CO2
CO+CH4
H2S+O2
HCHO+H2O
HCOOH+CO
HCL+H2O
NH3+H2O
NO+NH3
NO+O2
NO+NO2
CO+CH4+O2
CO+O2+H2O+CH4
C2H2+C2H4+C2H6
SO2+HCL+NH3+H2O
SO2+HCL+NO+H2O
SO2+HCL+CO+H2O

Features

Process temperature: 0 – 1350°C
Real time sensing: response time below 0.2 second
High selectivity: automatic compensation for interference effect from other constituents in the gas sample
High sensitivity: detection limits down to ppb range
In-situ monitoring: direct in the process, no sample preparation
Maintenance free: equipped with a self-calibrating feature, no field calibration necessary
Robustness: IP66 enclosure, suitable for outdoor and indoor installations and harsh environments
Insensitive to dust and smoke in the measured process: up to 50 g/m3
ATEX version available.

Operating principle

GasEye Extractive is a laser spectrometer that uses single line molecular absorption spectroscopy. A semiconductor laser emits a beam of infrared light which passes through the process and impinges the detector on the receiver side. When the target gas is present the light intensity changes and this can be used to determine the concentration of the measured specimen. The wavelength of the radiation emitted by the laser is chosen to match the specific absorption line wavelength of the gas. The laser continuously scans this single absorption line with a very high spectral resolution. The measurement is free of cross-interferences since the laser light is absorbed very selectively by only one specific line in the scanned spectral range.

INFLUENCES ON THE MEASUREMENT

Temperature

The influence of temperature on the measured absorption line is compensated by internal algorithms. The process gas temperature must be provided as a signal into the instrument. The temperature measurement is used to apply a correction of the temperature on the observed line strength. Temperature compensation is obligatory and without it the concentration output is erroneous.

Pressure

The influence of pressure on the measured absorption line is compensated by internal algorithms. The process gas pressure must be provided as a signal into the instrument. For known pressure values, the GasEye Cross Duct spectrometer adapts the line shape. Additionally, an external pressure signal can be fed to the analyzer to provide complete mathematical compensation of the pressure influence including the density effect (depending on a specific application and target gas).

Interferences

The GasEye Cross Duct can measure the desired gas components very selectively. It may happen that the absorption line of the measured gas is influenced by the presence of other gases. This influence is compensated by the full shape of the detected signal curve analysis and applying algorithms that correct the discrepancies accordingly.

MG (Multi Gauge)
The GasEye Cross Duct MG (Multi Gauge) analyzer consists of a pair of cross-duct sensors – a transmitter and a receiver unit as well as a central unit. The transmitter unit emits laser radiation directly through the process containing the constituents of interest. The receiver unit collects the radiation on the other side of the process duct. The central unit, located close to the transmitter unit (< 2 meters) contains analyzer electronics, MMI and I/O. The receiver unit is connected to the central unit by means of a hybrid loop cable (included) and the transmitter unit is connected to the central unit by one or two electrical cables (included).

Transmitter
Dimensions:	width x height: 230 mm x 200 mm, length: 350 mm
Weight:	15 kg
Equipment:	2 x laser sockets, purging fittings

Receiver
Dimensions:	width x height: 160 mm x 160 mm, length: 330 mm
Weight:	13 kg
Equipment:	1 cable gland, purging fittings

Central Unit
Dimensions:	width x height: 330 mm x 230 mm, length: 110 mm
Weight:	6 kg
Equipment:	display with status indicators, 6 cable glands, Ethernet socket, purging fittings

Protection standard
Degree of protection:	In accordance with IP66
Process windows:	Leak tested and certified in accordance with EN1779:1999 norm.

Safety

RoHS Directive 2011/65/EU
Low Voltage Directive (LVD) 2014/35/EU	PN-EN 60825-1:2014-11 – Safety of laser products – Part 1: Equipment classification and requirements
Low Voltage Directive (LVD) 2014/35/EU	PN-EN 61010-1:2011 – Safety requirements for electrical equipment for measurement, control and laboratory use – Part 1: General requirements
Electromagnetic Compatibility Directive (EMC) 2014/30/UE	Emission:
	EN 55016-2-1:2014+A1:2017 – Measurements of conducted disturbances emission
	EN 55016-2-3:2017+A1:2019 – Measurements of radiated disturbances emission
	Immunity:
	EN 61000-4-2:2009 – Electrostatic discharge immunity
	EN 61000-4-3:2006 + A1:2008 + A2:2010 – Radiated, electromagnetic field immunity
	EN 61000-4-4:2012 – Electrical fast transient / burst immunity
	EN 61000-4-5:2014 + A1:2017 – Surge immunity
	EN 61000-4-6:2014 – Immunity to conducted disturbances
	EN 61000-4-29:2000 – Immunity to voltage dips, short interruptions and voltage variations
ATEX Directive 2014/34/EU	EN IEC 60079-0:2018 – Explosive atmospheres – Part 0: Equipment – General requirements
	EN 60079-2:2014 – Explosive atmospheres – Part 2: Equipment protection by pressurized enclosure “p”
	EN 60079-11:2012 – Explosive atmospheres – Part 11: Equipment protection by intrinsic safety “i”
	EN 60079-26:2015 – Explosive atmospheres – Part 26: Equipment with Equipment Protection Level (EPL) Ga
	EN 60079-28:2015 – Explosive atmospheres – Part 28: Protection of equipment and transmission systems using optical radiation
	Explosion protection (standard version): ATEX II 3G [Ex op is IIC T6 Gc] ATEX II 3D [Ex op is IIIC T85°C Dc]
	Explosion protection – ATEX Zone 1/21 (optional version): GasEye Cross Duct Ex1: II 1/2G Ex pxb op is IIC T6 Ga/Gb II 1/2D Ex pxb op is IIIC T85°C Da/Db GasEye Cross Duct Ex1 IS: II 1/2G Ex pxb ia op is IIC T6 Ga/Gb II 1/2D Ex pxb ia op is IIIC T85°C Da/Db GasEye Cross Duct Ex1 ET and GasEye Cross Duct Ex1 ET IS: II 1/2G Ex db eb h ia ib op is pxb q IIC T4 Ga/Gb II 1/2G Ex h ia ib op is pxb q tb IIIC T135°C Da/Db Certificate No. KDB 20ATEX0003X EN Certificate No. KDB 20ATEX0003X PL
	Explosion protection – IECEx Zone 2/22 (optional version): op is pzc IIC T6 Gc op is pzc IIIB T85°C Dc Certificate No. IECEx KDB 19.0004X

Download Specifications

The post GasEye Cross Duct MG (Multi Gas) appeared first on Thomson Environmental Systems.

GasEye Cross Duct SG (Single Gas)

thomson-admin — Tue, 11 Jun 2024 01:52:29 +0000

GasEye Cross Duct SG (Single Gauge) is a high performance in-situ analyzer that provides analysis for 23 analytes as standard and can be customised for specific combinations. GasEye Cross Duct SG utilizes tunable diode laser (TDL) absorption spectroscopy. The central unit sends a laser light through the process which is detected by the receiver unit mounted on the opposite side of the process. When a gas of interest is present in this process, it will absorb the laser light. The optical power detected in the receiver unit will depend on the concentration of the gas, temperature, pressure, and optical pathlength according to Lambert’s Beer law. Thus in order to determine the gas concentration, the analyzer requires information regarding temperature, pressure, and optical pathlength. Temperature and pressure signals can be provided by analog inputs, via industrial communication protocols, or as manual values via Webserver or HMI.

Applications

Combustion control
Safety monitoring
Electrofilter Protection

Industries

Power industry
Steel industry
Chemical industry
Wood board production

Features

Process temperature: 0 – 1350°C
Real time sensing: response time below 0.2 second
High selectivity: automatic compensation for interference effect from other constituents in the gas sample
High sensitivity: detection limits down to ppb range
In-situ monitoring: direct in the process, no sample preparation
Maintenance free: equipped with a self-calibrating feature, no field calibration necessary
Robustness: IP66 enclosure, suitable for outdoor and indoor installations and harsh environments
Insensitive to dust and smoke in the measured process: up to 50 g/m3
ATEX version available.

Operating principle

INFLUENCES ON THE MEASUREMENT

Temperature

Pressure

Interferences

SG (Single Gauge)
The GasEye Cross Duct SG (Single Gauge) analyzer consists of a pair of cross-duct sensors – a central unit with a transmitter and a receiver unit. The central unit emits laser radiation directly through the process containing the constituents of interest. The receiver unit collects the radiation on the other side of the process duct. The receiver unit is connected to the central unit by means of a hybrid loop cable. The GasEye Cross Duct utilizes an internal in-line reference gas cell or a process gas (e.g. H2O) for real-time verification of the calibration status.

Transmitter
Dimensions:	width x height: 330 mm x 230 mm, length: 350 mm
Weight:	15 kg
Equipment:	display with status indicators, power indicator, 4 cable glands, Ethernet socket, purging fittings

Receiver
Dimensions:	width x height: 160 mm x 160 mm, length: 330 mm
Weight:	13 kg
Equipment:	1 cable gland, purging fittings

Protection standard
Degree of protection:	In accordance with IP66
Process windows:	Leak tested and certified in accordance with EN1779:1999 norm.

Safety

RoHS Directive 2011/65/EU
Low Voltage Directive (LVD) 2014/35/EU	PN-EN 60825-1:2014-11 – Safety of laser products – Part 1: Equipment classification and requirements
Low Voltage Directive (LVD) 2014/35/EU	PN-EN 61010-1:2011 – Safety requirements for electrical equipment for measurement, control and laboratory use – Part 1: General requirements
Electromagnetic Compatibility Directive (EMC) 2014/30/UE	Emission:
	EN 55016-2-1:2014+A1:2017 – Measurements of conducted disturbances emission
	EN 55016-2-3:2017+A1:2019 – Measurements of radiated disturbances emission
	Immunity:
	EN 61000-4-2:2009 – Electrostatic discharge immunity
	EN 61000-4-3:2006 + A1:2008 + A2:2010 – Radiated, electromagnetic field immunity
	EN 61000-4-4:2012 – Electrical fast transient / burst immunity
	EN 61000-4-5:2014 + A1:2017 – Surge immunity
	EN 61000-4-6:2014 – Immunity to conducted disturbances
	EN 61000-4-29:2000 – Immunity to voltage dips, short interruptions and voltage variations
ATEX Directive 2014/34/EU	EN IEC 60079-0:2018 – Explosive atmospheres – Part 0: Equipment – General requirements
	EN 60079-2:2014 – Explosive atmospheres – Part 2: Equipment protection by pressurized enclosure “p”
	EN 60079-11:2012 – Explosive atmospheres – Part 11: Equipment protection by intrinsic safety “i”
	EN 60079-26:2015 – Explosive atmospheres – Part 26: Equipment with Equipment Protection Level (EPL) Ga
	EN 60079-28:2015 – Explosive atmospheres – Part 28: Protection of equipment and transmission systems using optical radiation
	Explosion protection (standard version): ATEX II 3G [Ex op is IIC T6 Gc] ATEX II 3D [Ex op is IIIC T85°C Dc]
	Explosion protection – ATEX Zone 1/21 (optional version): GasEye Cross Duct Ex1: II 1/2G Ex pxb op is IIC T6 Ga/Gb II 1/2D Ex pxb op is IIIC T85°C Da/Db GasEye Cross Duct Ex1 IS: II 1/2G Ex pxb ia op is IIC T6 Ga/Gb II 1/2D Ex pxb ia op is IIIC T85°C Da/Db GasEye Cross Duct Ex1 ET and GasEye Cross Duct Ex1 ET IS: II 1/2G Ex db eb h ia ib op is pxb q IIC T4 Ga/Gb II 1/2G Ex h ia ib op is pxb q tb IIIC T135°C Da/Db Certificate No. KDB 20ATEX0003X EN Certificate No. KDB 20ATEX0003X PL
	Explosion protection – IECEx Zone 2/22 (optional version): op is pzc IIC T6 Gc op is pzc IIIB T85°C Dc Certificate No. IECEx KDB 19.0004X

Download Specifications

The post GasEye Cross Duct SG (Single Gas) appeared first on Thomson Environmental Systems.

Clarity Ozone Module

thomson-admin — Tue, 19 Mar 2024 02:25:12 +0000

The Clarity Ozone Module is based on best-in-class technology from 2B Technologies, and provides accurate measurements of ozone in air over a wide dynamic range extending from a few parts-per-billion by volume (ppb) to an upper limit of 100 parts-per-million (ppm) based on the well-established technique of absorption of ultraviolet light at 254 nm.

The Ozone Module integrates seamlessly into Clarity networks with an ozone monitoring technology has been approved by the U.S. Environmental Protection Agency as a modification of Federal Equivalent Method (FEM): EQOA-0914-218. The Ozone Module is well suited for use by states and other monitoring agencies under 40 CFR Part 58, Ambient Air Quality Surveillance, for monitoring for compliance with the Clean Air Act.

Download Specifications

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Clarity Black Carbon Module

thomson-admin — Tue, 27 Feb 2024 00:15:10 +0000

Clarity Black Carbon Module is based on the microAeth® Black Carbon measurement technology from AethLabs, and integrates seamlessly into Clarity networks.

Use the Black Carbon Module to indicate this extremely harmful component of particulate matter, with impacts ranging from human health to reduced agricultural productivity, and even global warming.

The Black Carbon Module is a real-time 5-wavelength UV-IR Black Carbon monitor.

Designed to be installed outdoors on street poles and along fence lines, it also features an accelerometer, altimeter/barometer, and sensors for relative humidity and temperature. The spectrum measurement provides insight into the composition of light absorbing carbonaceous particles and helps to distinguish among the different optical signatures of various combustion sources such as diesel, woodsmoke, biomass and tobacco.

Download Specifications

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Clarity Node-S

thomson-admin — Mon, 26 Feb 2024 23:14:41 +0000

Clarity’s flagship particulate matter (PM) and nitrogen dioxide (NO₂) monitor is self-powered, FCC/CE/MCERTS certified, UV-resistant, and weatherproof.

A truly self-sufficient IoT air quality monitoring system with solar harvesting, internal battery, and global cellular communications, the Clarity Node-S accommodates site-specific requirements according to the customer’s needs, not the other way around.

MCERT-Certified for Accuracy
Complies with MCERTS Performance Standards for Indicative Ambient Particulate Monitors (CSA MC230425/00) for both PM2.5 and PM10.

Solar-powered and Cellular-connected
Pre-configured with integrated solar power harvesting, batteries, and global cellular connectivity to get up and running quickly without external infrastructure.

Robust and weatherproof
Rugged, weatherproof devices for seamless operation and minimal maintenance even in remote locations, with free servicing and replacement of equipment under warranty.

Download Specifications

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Gas Sample Dilution Probe SP2000-H/DIL

thomson-admin — Fri, 23 Jun 2023 05:35:39 +0000

The electrically heated M&C dilution probe is used in processes where the measuring procedure or the handling of the process gas requires the dilution of the sample gas or the component(s) to be measured, e.g. for extremely toxic gases, for moisture or emission measurement in flue gases.

Since the M&C dilution probe SP2000-H/DIL is based on the well-proven M&C gas sample probe SP2000H, a variety of applications requiring special filter techniques, materials, etc. can be handled without any problems with this dilution probe.

Gas sample dilution probe type SP2000‑H/DIL features:

external ceramic filter type S‑2K150
filter porosity: 2 µm
electrically heated external filter from 0 to 180 °C, adjustable by an integrated thermostat
high‑temperature limiter with reset key responding at +30 °C above Tset and low‑temperature alarm with potential‑free status‑alarm contact at ‑30 °C below Tset,
incl. weather protection shield with insulation
power: 230 V/50 Hz, 800 W
mounting flange: DN 65 PN 6B with G 3/4″ f connection
sample gas OUT: 8‑mm‑tube
material: SS 316Ti, ceramic, Viton®
Dilution ratio to be indicated with the order

Gas Sample Dilution Probe SP2000-H/DIL brochure

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Portable Gas Sample Probe PSP4000-H

thomson-admin — Thu, 04 May 2023 22:52:41 +0000

Portable gas sample probe type PSP4000‑H with external ceramic filter type S‑2K, filter porosity: 2 µm, electrically heated external filter 100 to 180 °C adjustable by an integrated thermostat with indicator light (standard: 180 °C), 7‑pin plug with 4 m connection cable and mains plug, thermally insulated housing with carrying handle and chain incl. mounting clamp for connecting the heated sample line, gas inlet: G 3/8″ f, gas outlet: G 1/8″ NPT with tube connector 6 mm, power: 230 V/50 Hz, 200 W, material: SS 316Ti, ceramics, Viton®

Gas Sample Probe SP4000-H brochure

The post Portable Gas Sample Probe PSP4000-H appeared first on Thomson Environmental Systems.

Gas Sample Probe SP2000-H

thomson-admin — Thu, 04 May 2023 05:57:24 +0000

Gas sample probe type SP2000‑H with external ceramic filter type S‑2K150, filter porosity: 2 µm, with electrically heated external filter 0 to 180 °C, adjustable by an integrated thermostat, high‑temperature limiter with reset key responding at +30 °C Tset and low‑temperature alarm with potential‑free status‑alarm contact at ‑30 °C below Tset, incl. weather protection shield with insulation, power: 230 V/50 Hz, 800 W, mounting flange: DN 65 PN 6B with G 3/4″ f connection, sample gas OUT: 1/4″ NPT f, material: SS 316Ti, ceramic, Viton®

Gas Sample Probe Series SP®Versions SP2000, SP2000-H, SP2300-H, SP2400-H range brochure

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Teledyne Falcon Ultrafast Gas Chromatograph

thomson-admin — Thu, 04 May 2023 01:36:36 +0000

Teledyne Falcon UltraFast Gas Chromatograph is Faster, Smaller, Smarter, Easier and Greener

Speed and Small footprint

With analytical cycles 10 to 50 times faster than traditional chromatographs, the Falcon Series Ultrafast Gas Chromatograph (GC) vastly increases responsiveness for the data consumer in a wide range of lab, process and field applications. Less time spent waiting on results means more productivity and timely control of measured processes. Product output, quality and profitability are increased while field analysis becomes more practical and reliable.

The Falcon Series GC’s incredible speed inspired a new Ultrafast Simulated Distillation Method. The ASTM D7798 method can perform simulated distillation nearly 6 times faster than the previous method (D2887), with superior repeatability and reproducibility.

The elimination of the air bath column ovens, required for traditional gas chromatography, reduces the Falcon Series GC footprint. Yet the Falcon Series delivers all the functionality of much larger, higher thermal mass, traditional GCs. At 43 cm wide, 22 cm deep, 28 cm high and 11 kg, the Falcon Series offers advanced analytical chemistry in a highly compact, versatile package.

The smaller size of the Falcon Series GC means more efficient utilization of space and, ultimately, bigger profits for the user. The small Falcon Series footprint allows for higher installation density in the laboratory and enables process installation schemes that place the analyzer much closer to its sampling point in the plant. Closer proximity means less sample lag time as well as more representative measurements for process control. This also makes hand carried and vehicular transport applications far more feasible.

Smarter

Using modern computing with standard operating systems and software, the Falcon Series GC frees valuable technical resources from the daily grind of interpreting and validating chromatographic results. State-of-the-art Chromperfect® GC operating software is built in and LineUp software virtually eliminates misidentification of components and drastically reduces the need for expensive calibration sample runs. Less time spent calibrating the analyzer means more time spent on more economically valuable diagnostics, most notably measured process deviations from the set-point. In addition to Chromperfect®, Infometrix Pirouette® is an optional software that may be added to enable interface with process automation.

Easier

Teledyne’s patented direct heating of the temperature-programmed column modules allow the Falcon Series GC to avoid the complicated and troublesome valve schemes used in isothermal process analyzers and many lab gas chromatographs. The Falcon Series GC’s patented overall modular design also makes diverse application engineering and maintenance easier, as column and detector modules are readily changed out as needed.

Correlation between laboratory systems and online process control systems become realistically possible with the Falcon Series system, because both physical packages use the same measurement principle, hardware and methodology. Applying the Falcon Series GC in-lab and online means less time spent reconciling lab and process measurements and validating which result is correct. More time can be spent working on valuable, direct process optimization.

Greener

Whether in the control laboratory, online in the processing plant, near line in the pilot plant or when transported for field measurements, by consuming less than 300 Watts in operation, the Falcon Series GC uses about 1/10th of the power of traditional GCs.

With analytical cycles that are many times faster and the low electrical load needed for operation, the Falcon Series GC’s power consumption per analysis is 1% or less of the energy required by traditional gas chromatography. Combine these savings with the reduction in workload for air conditioning systems and the Falcon Series solution is greener still. The Falcon Series product life cycle environmental impact from manufacturing throughout its useful lifetime to disposal is far less than traditional GCs.

The Result

Faster, Smaller, Smarter, Easier, Greener = better quality, increased productivity, profitability and versatility, with far less hassle and environmental impact. That summarizes the business concept for the ultrafast, compact, ultra-user friendly, energy efficient, highly durable, practical, reliable and economical Falcon Series Ultrafast Gas Chromatograph.

Falcon GC Brochure

The post Teledyne Falcon Ultrafast Gas Chromatograph appeared first on Thomson Environmental Systems.

NO/NO2 Archives - Thomson Environmental Systems

Clarity Multi-Gas Module

Multi-Gas Module use cases

CO and wildfires

NOₓ and traffic

O₃ non-attainment and smog formation

GasEye Cross Duct MG (Multi Gas)

Applications

Industries

Multi-Gas Combinations

Features

Operating principle

INFLUENCES ON THE MEASUREMENT

Temperature

Pressure

Interferences

Safety

GasEye Cross Duct SG (Single Gas)

Applications

Industries

Features

Operating principle

INFLUENCES ON THE MEASUREMENT

Temperature

Pressure

Interferences

Safety

Clarity Ozone Module

Clarity Black Carbon Module

Clarity Node-S

Gas Sample Dilution Probe SP2000-H/DIL

Portable Gas Sample Probe PSP4000-H

Gas Sample Probe SP2000-H

Teledyne Falcon Ultrafast Gas Chromatograph

Teledyne Falcon UltraFast Gas Chromatograph is Faster, Smaller, Smarter, Easier and Greener

Speed and Small footprint

Smarter

Easier

Greener

The Result​

The Result