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).

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

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
• 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

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.

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.

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
	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

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]]> https://thomsongroup.com.au/product/gasmet-gt6000-mobilis/ Tue, 21 Mar 2023 00:13:52 +0000 https://thomsongroup.com.au/?post_type=product&p=19930 Portable stack gas and emission analyzer For stack testing and emissions monitoring, time is the most important resource; GT6000 Mobilis helps you save it. Extreme portability, easy setup, fast results – the Gasmet GT6000 Mobilis portable FTIR multi-Component stack gas and emission analyzer is designed for Stack Monitoring with a list of features to make […]

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]]> Portable stack gas and emission analyzer

For stack testing and emissions monitoring, time is the most important resource; GT6000 Mobilis helps you save it.
Extreme portability, easy setup, fast results – the Gasmet GT6000 Mobilis portable FTIR multi-Component stack gas and emission analyzer is designed for Stack Monitoring with a list of features to make you more efficient.

Key benefits include:

• The first and only FTIR analyzer with MCERTS EN15267-4 certification
• Intuitive user interface and ergonomic design
• Easy to disassemble, carry, and set-up again
• Multigas measurements in a portable package
• Realtime results reliably and remotely
• Exceptional robustness: shock and vibration resistivity by design
• Smart software with self-diagnostics for easy and fast service
• Suitable for on site or laboratory use.

Stack Monitoring Performance

For Stack Monitoring, GT6000 Mobilis setup, measurements, and analysis happen smoothly and time-efficiently. The device is simple to set up and disassemble, and there are no loose screws and other small parts that can fall while in transit or on your way to the stack. Integrated sampling line supports make it is easier to use and there are fewer parts to carry around. The device enables you to measure all key compounds at once, including oxygen with PSS Plus. For ease of use, GT6000 Mobilis gives clear OK / Not OK on the software side to indicate if the device is ready or not for measurements. The PSS on the other hand has indicator lights to tell the same thing on its part. Results are available in mere minutes.

Emission Research

For Emissions, its ease of use, multi-gas measurements, and immediate results let you focus on what is important, your research. With GT6000 Mobilis, even the smallest concentrations are measured with high accuracy. These measurements can be monitored on-site or even remotely. Results can be accessed via PC or tablet with Calcmet software. Additionally, as sometimes the measured compounds can be unexpected, with Calcmet software you can reanalyze measurement data afterward to identify these unknown gases. The system is easy to use, which reduces the need for supervision and can be used with minimal training, whether you are working in the lab or on the field.

The system is typically set up to measure H₂O, CO₂, CO, NO, NO₂, N₂O, SO2, NH₃, CH₄, HCl, HF and different VOCs and can measure up to 50 gases simultaneously.  Additional gases can be easily added without any hardware changes.  The corrosion-resistant sample cell is heated to 180 °C, which ensures that the sample stays in the gaseous phase even with high concentrations of H₂O or corrosive gases. FTIR technology ensures that results will be available immediately on-site, and further analysis provides hard data for your specific needs.

The GT6000 Mobilis supersedes the DX4000. 

GT6000 Mobilis Data Sheet
GT6000 Mobilis Brochure

GT6000 Mobilis is designed to be used with the portable sampling system, PSS Plus or PSS Base. PSS utilizes the hot-and-wet measurement principle (no drying or dilution), which ensures that the analysis is done with a representative sample. There is two-stage particulate filtration: the first one in the sampling probe and the second one in the sampling system. The portable sampling system can be optionally equipped with a ZrO2 sensor for accurate oxygen measurement.

With all-new design the user experience has been taken to new heights. Integrated controls on front, 2 handles and cables in the back provide smooth operation. While PSS Base offers more basic design, for more hardcore work we have PSS Plus. PSS Plus comes with flow meters on front and has an instrument air option. This makes the system easier and cheaper for user while also providing safer operation, since nitrogen is only needed for background measurements.

 

Key benefits of PSS

• User-friendly design
• Instrument air option (PSS Plus)
• Integrated controls accessible from Calcmet
• IP42 rated.

PSS Data Sheet

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]]> https://thomsongroup.com.au/product/tes-small-form-air-quality-monitoring-systems-aqms/ Fri, 03 Jul 2020 04:28:21 +0000 https://thomsongroup.com.au/?post_type=product&p=17869 Your Solution for Ambient Air Quality Monitoring Ideal for monitoring air quality outside or in workshops, TES Small Form AQMS measures key parameters: Air pollutant concentrations: PM1, PM2.5, PM4, PM10, TSP, O3, NO, NO2, O3, CO, SO2, H2S, NH3, HCHO, Cl2, HCl, VOC, CH4, CO2 – other gases available on request Meteorological parameters: temperature, pressure and relative […]

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]]> Your Solution for Ambient Air Quality Monitoring

Ideal for monitoring air quality outside or in workshops, TES Small Form AQMS measures key parameters:

Air pollutant concentrations: PM₁, PM_2.5, PM₄, PM₁₀, TSP, O₃, NO, NO₂, O3, CO, SO₂, H₂S, NH₃, HCHO, Cl₂, HCl, VOC, CH₄, CO₂ – other gases available on request

Meteorological parameters: temperature, pressure and relative humidity

Other parameters: noise, vibration and odour

Location: GPS

The device captures data in real-time and transfers them wirelessly to a advanced web platform, for data analysis and data management, remote control of the equipment and data integration into websites, software and smart city platforms.

Small form stations are light, compact and easy to install within just a few minutes. Once the stations are connected to the Internet through several communication links on-demand (Wi-Fi, 3/4G, LoRa, Zigbee…), the hyper-localised information is automatically transferred to a secure web platform that is accessible 24 hours a day.

Customize your own Small Form AQMS that meets your needs:

Options:

• Integrate sensors that you need
• Choose your communication link
• Add a back-up battery 

Accessories:

• Solar panel and batteries
• Heating resistance
• Mounting plate

For a wide range of applications:

Smart cities, industrial sites, mining sites, sewage treatment plants, mines, soil remediation, refineries, workshops, warehouses, worksites, road networks, race tracks, ski, and sea resorts.

The post TES SMALL FORM AIR QUALITY MONITORING SYSTEMS (AQMS) appeared first on Thomson Environmental Systems.

]]> https://thomsongroup.com.au/product/t-i-max-hcl/ Tue, 16 Oct 2018 22:48:16 +0000 https://thomsongroup.com.au/?post_type=product&p=16949 Semiconductor Cleanrooms can significantly reduce the risk of yield loss with Tiger Optics’ T-I Max HCl analyzer. This next-generation trace gas analyzer provides detection and continuous monitoring of Hydrogen Chloride (HCl) Airborne Molecular Contaminants (AMCs) in Semiconductor Cleanrooms. Tiger Optics’ T-I Max detects Airborne Molecular Contaminants (AMCs) in and around equipment, personnel, wafer carriers and […]

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]]> Semiconductor Cleanrooms can significantly reduce the risk of yield loss with Tiger Optics’ T-I Max HCl analyzer. This next-generation trace gas analyzer provides detection and continuous monitoring of Hydrogen Chloride (HCl) Airborne Molecular Contaminants (AMCs) in Semiconductor Cleanrooms.

Tiger Optics’ T-I Max detects Airborne Molecular Contaminants (AMCs) in and around equipment, personnel, wafer carriers and cleanroom bays.

In today’s advanced semiconductor processing, the residual gases, vapors and chemicals emanating from the various materials, accelerated processing operations, and substrate storage and transport have become a critical concern. So much so that the International Technology Roadmap for Semiconductors (ITRS) now highlights AMC contamination as a key technical challenge in achieving and sustaining low defect rates on devices.

With a particular focus on the major contributors to the “chemical contamination” element of AMCs, the T-I Max HCl analyzers, based on Tiger’s new global platform, can detect and continuously monitor HCl with an unprecedented combination of sensitivity, selectivity, and speed of response.

Tiger Optics’ GO-cart for AMCs adds additional flexibility by providing a mobile platform that can be moved quickly to different critical monitoring points (see Datasheet).

Features

• Sensitive, absolute measurement technique, using Cavity Ring-Down Spectroscopy (CRDS)
• Dramatically improved speed of response & parts-per-trillion detection limits
• Drift-free, with calibration traceable to the world’s leading reference labs
• Lowest Cost of Ownership—maintenance-free

Applications

• Semiconductor
• Cleanrooms
• Airborne Molecular Contaminants
• Research & Development

Download Datasheet

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]]> https://thomsongroup.com.au/product/halo-3-hcl/ Tue, 16 Oct 2018 22:42:04 +0000 https://thomsongroup.com.au/?post_type=product&p=16947 The HALO 3 HCl trace level hydrogen chloride gas analyzer provides accuracy, reliability, speed of response and ease of operation. Featuring Tiger Optics’ proven Cavity Ring-Down Spectroscopy-based trace gas sensor in a very compact and economic analyzer design, this versatile instrument allows users to measure HCl in most inert and passive gases with just one […]

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]]> The HALO 3 HCl trace level hydrogen chloride gas analyzer provides accuracy, reliability, speed of response and ease of operation. Featuring Tiger Optics’ proven Cavity Ring-Down Spectroscopy-based trace gas sensor in a very compact and economic analyzer design, this versatile instrument allows users to measure HCl in most inert and passive gases with just one device. Users also enjoy freedom from requirements, such as periodic sensor maintenance, span calibrations, purifier replacement and pump rebuilds. The HALO is suited to many applications where HCl impurities are extremely critical, such as semiconductor utilization.

The HALO 3 HCl offers:

• Low single-digit parts per billion (ppb) detection capability
• Absolute measurement (freedom from calibration gases)
• Wide dynamic range
• Low cost of ownership and operational simplicity
• Clean technology—no external calibration gases required
• Compact analyzer footprint

Applications

• Air Quality
• CEM Standards Preparation
• Gas Quality Control
• Gaseous CRMs & Calibration Gas Mixtures
• High-Purity Gases & Systems
• Research & Development

Serani Max Analyzer Interface Software allows remote access from your computer or laptop for the latest CRDS generation analyzers, such as the HALO KA Max and T-I Max. The Windows-based software package communicates with the analyzer through Ethernet and allows full control of the system from your desk.

Download Datasheet

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]]> https://thomsongroup.com.au/product/t-i-max-cem/ Tue, 16 Oct 2018 22:30:47 +0000 https://thomsongroup.com.au/?post_type=product&p=16943 T-I Max CEM is used for monitoring gas concentrations of target compounds: NH3, HCl, HF, H2S, CO, CH4, and more for compliance and process control. The T-I Max CEM analyzer represents the latest advancement in Continuous-Wave Cavity Ring-Down Spectroscopy designed for superior performance and unprecedented speed of response. It is an ideal, proven solution for […]

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]]> T-I Max CEM is used for monitoring gas concentrations of target compounds: NH₃, HCl, HF, H₂S, CO, CH₄, and more for compliance and process control.

The T-I Max CEM analyzer represents the latest advancement in Continuous-Wave Cavity Ring-Down Spectroscopy designed for superior performance and unprecedented speed of response. It is an ideal, proven solution for MATS HCl compliance needs: continuous emissions monitoring of sources, such as cement kilns, power plants, paper mills, and refineries.  T-I Max CEM analyzer can verify concentrations of target compounds with parts-per-billion accuracy, drift-free stability, and virtually immediate response. Easy and intuitive to install, use, and maintain. The modern software enables you to easily configure the analyzer via its touchscreen display and to communicate with virtually any manufacturer’s DAHS. Two units fit into one 19” rack mount. The robust design — free of moving parts — delivers a high mean time between failures (MTBF) and a very low cost of ownership (COO).

Designed for Continuous Emissions Monitoring (CEM), the robust and compact Tiger-i CEM offers:

• Accuracy traceable to the world’s major national reference labs
• Specificity—no interference
• Sub-ppb detection capability
• No periodic sensor replacement/maintenance
• Unprecedented speed of response
• Wide dynamic range

Applications

• CEM Standards Preparation
• Cement Kilns & Paper Mills
• HF Alkylation Unit Emissions
• Power Generation from Fossil Fuels

Download Data Sheet

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]]> https://thomsongroup.com.au/product/nova-hazardous-area-analyzers/ Wed, 26 Sep 2018 05:20:11 +0000 https://thomsongroup.com.au/?post_type=product&p=16605 Nova manufactures gas analyzers in cabinets that are suitable for Hazardous Areas such as Class 1 Divisions 1 & 2 and Zone 1 or 2. Gases analysed: O2, CO, CO2, , CH4, H2, NO, NO2, NOx, SO2, Dew Point, LEL Combustibles, NH3, Hydrocarbons, He, Temperature, Velocity, SF6, HCI, CI2, Multi-Gas Combinations Learn More

The post NOVA Hazardous Area Gas Analyzers appeared first on Thomson Environmental Systems.

]]> Nova manufactures gas analyzers in cabinets that are suitable for Hazardous Areas such as Class 1 Divisions 1 & 2 and Zone 1 or 2.

Gases analysed: O2, CO, CO2, , CH4, H2, NO, NO2, NOx, SO2, Dew Point, LEL Combustibles, NH3, Hydrocarbons, He, Temperature, Velocity, SF6, HCI, CI2, Multi-Gas Combinations

Learn More

The post NOVA Hazardous Area Gas Analyzers appeared first on Thomson Environmental Systems.

]]> https://thomsongroup.com.au/product/nova-ambient-air-analysis/ Wed, 26 Sep 2018 05:14:17 +0000 https://thomsongroup.com.au/?post_type=product&p=16603 Nova ambient air analysers measure: O2, CO, CO2, CH4, H2, NO, NO2, NOx, SO2, Dew Point, LEL Combustibles, NH3, Hydrocarbons, He, Temperature, Velocity, SF6, HCI, CI2, Multi-Gas Combinations Download Specifications

The post NOVA Ambient Air Analysis – Gas appeared first on Thomson Environmental Systems.

]]> Nova ambient air analysers measure: O2, CO, CO2, CH4, H2, NO, NO2, NOx, SO2, Dew Point, LEL Combustibles, NH3, Hydrocarbons, He, Temperature, Velocity, SF6, HCI, CI2, Multi-Gas Combinations

Download Specifications

The post NOVA Ambient Air Analysis – Gas appeared first on Thomson Environmental Systems.

]]> https://thomsongroup.com.au/product/nova-continuous-gas-analyzers/ Wed, 26 Sep 2018 05:10:13 +0000 https://thomsongroup.com.au/?post_type=product&p=16601 Continuous gas analyzers comprise a significant portion of the Nova Analytical product line. These types of instruments are generally used for continuous gas analysis of an individual sample point in a facility. Because these analyzers are intended for permanent exposure to the sample gas, they must be equipped with suitable sample conditioning components. This means […]

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]]> Continuous gas analyzers comprise a significant portion of the Nova Analytical product line. These types of instruments are generally used for continuous gas analysis of an individual sample point in a facility.

Because these analyzers are intended for permanent exposure to the sample gas, they must be equipped with suitable sample conditioning components. This means that continuous analyzers are bigger than portable analyzers, and they are almost always permanently mounted to a wall or other vertical surface.

Gases analysed: O2, CO, CO2, , CH4, H2, NO, NO2, NOx, SO2, Dew Point, LEL Combustibles, NH3, Hydrocarbons, He, Temperature, Velocity, SF6, HCI, CI2, Multi-Gas Combinations

Applications;

• Flue Gas & Emissions Analyzers
• Landfill Gas Analyzers / Biogas Analyzers
• Power Generation and Hydrogen Purity
• Heat-Treating and Metal Finishing Analyzers
• Syngas Analyzer Models
• Process Gas Analysis
• Steel-Making Analyzers
• Other Energy Intensive and Remote Location Analyzers
• OTM – Optical Temperature Measurement
• OVM – Optical Velocity Measurement
• Ambient Air Analysis
• Portable Engine Exhaust Analyzers
• Controlled Atmosphere Analyzers
• Sample Conditioning Systems
• Special Applications and Analyzer Ideas
• Portable Gas Analyzers
• Continuous Gas Analyzers
• Hazardous Area Analyzers

Learn More

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]]>