Microventuri based continuous monitoring
of flue gas flow rate, pressure and temperature
Designed for tough industrial applications
with highly dusts loaded fl ue gas.
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Continuous measurement of humidity in highly dusts loaded flue gas through dry and wet zirconia oxygen measurements. In-situ or extractive O2 + H2O monitors depending on the application. Perfect for combustion control of biomass boilers : industrial boilers, district heating.O2 DRY - O2 WET - H2O
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The stationary Flame-Ionisation-Detector (FID) iFiD NMHC measures with its built in NMHC Cutter the methane concentration and parallel in a second channel also the THC in a wide range of applications like stack gas emissions monitoring, ambient air monitoring, thermal reactor and combustor emissions monitoring and also vehicle exhaust gases. The monitoring is continous with a high accuracy, sensitivity and stability. All components which come in contact with sample are fully heated at 200°. -
19" RackFlame-Ionisation-Detector iFiD Rack for continuous monitoring
The stationary Flame-Ionisation-Detector (FID) iFiD RACK is designed for stack monitoring, process control and also for VOC measurement. The whole gaspath is heated to 300°C and so we can speak from a Hightemperature-FID. -
The Liebherr in situ water content determination Litronic-FMS III-RMH12 is used to detect the water content (concentration determination) even in very low ppm ranges in emulsions such as diesel fuel, transmission, hydraulic, engine, roller bearing, transformer and turbine oil as well as in battery systems. -
Small, fine, excellent: The Liebherr P78 sensor in conjunction with the Liebherr FMS moisture measuring installation has become indispensable for many industrial processes. The moisture measuring installation was invented in 1985 at the Bad Schussenried factory. Measurement by the Liebherr sensor system is based on the physical principle of capacitance determination in the high-frequency stray field. In addition to their high precision and robustness, the measuring devices from Bad Schussenried are characterised by their reproducibility. Once the sensor has been calibrated, further measuring points can be set up or devices renewed on this basis at any time without great effort. The plant thus always remains reliable, regardless of its previous term and age. -
NEO Monitors’ LaserInspect™ CIMO4 gives the operator the opportunity to remotely operate up to 4 LaserGas™ analyzers from the same display*. The operator have full status overview in an instance of all instruments and is able to perform maintenance tasks directly from the panel. This HMI is designed for the NEO Monitors LaserGas™ family and can easily be integrated into a cabinet. * Separate Ethernet switch is required to operate multiple analyzers -
The analyzers can measure the concentration of multiple gases simultaneously. It is based on the single source dual-beam non-dispersion infrared (NDIR) method for CO, CO2 , CH4 , CnHm, H2S , SO2 and a micro-TCD (Thermal Conductivity Detector) gas sensor for H2 and O2 by fuel cell method. The analyzers have a digital pulsable infrared source and dual-beam systems -
The analyzers can measure the concentration of multiple gases simultaneously. It is based on the single source dual-beam non-dispersion infrared (NDIR) method for CO, CO2 , CH4 , CnHm, H2S , SO2 and a micro-TCD (Thermal Conductivity Detector) gas sensor for H2 and O2 by fuel cell method. The analyzers have a digital pulsable infrared source and dual-beam systems -
The APA analysers are suitable and reliable instruments for monitoring oxygen concentrations in various gas analytical control applications including flue gas-, inert gas-, fermentation processes- and process or laboratory control measurements. All analysers are temperature controlled instruments which have been designed for continuous measurements of oxygen concentrations in particle-free and dry sample gas. The analysers are reliable and easy-to-operate instruments. The measuring value and the sample flow through the measuring cell are displayed on the digital display. 2 alarm relays and 1 malfunction relay are available. Sample gas connections as well as connectors for incomi ng power supply, output signals are located at the rear panel of the analyser. The sample gas enters the analyser passing a protective fine-filter which is installed in the front-panel (not for APA 200). An atmospheric pressure sensor is implemented so that the actual absolute barometric pressure can be sent via RS232 and used for calculation or analysis purposes. -
The APA analysers are suitable and reliable instruments for monitoring oxygen concentrations in various gas analytical control applications including flue gas-, inert gas-, fermentation processes- and process or laboratory control measurements. All analysers are temperature controlled instruments which have been designed for continuous measurements of oxygen concentrations in particle-free and dry sample gas. The analysers are reliable and easy-to-operate instruments. The measuring value and the sample flow through the measuring cell are displayed on the digital display. 2 alarm relays and 1 malfunction relay are available. Sample gas connections as well as connectors for incomi ng power supply, output signals are located at the rear panel of the analyser. The sample gas enters the analyser passing a protective fine-filter which is installed in the front-panel (not for APA 200). An atmospheric pressure sensor is implemented so that the actual absolute barometric pressure can be sent via RS232 and used for calculation or analysis purposes. -
The UT-3000 Ng mobile is specifically designed to measure ultratrace amounts of mercury in natural gas at differing sites. The system, for example, thus allows to monitor the efficiency of different Mercury Removal Units (MRUs) in natural gas processing plants. -
The MMS system basically comprises a multiplexer-valve unit and the highly accurate and selective mercury detector VM-3000 Vapor Monitor. A bypass pump maintains a steady flow of sample through the sample filters, sample lines and multiplexer valves. Flow meters with optical alarm sensors guarantee that flow rates are stable. All components are installed inside a protective cabinet. -
The Aurora 1030 line of TOC analyzers from OI Analytical includes instrument configurations for laboratory and process monitoring, employing 100 °C persulfate wet oxidation or thermal combustion techniques. The Aurora 1030 line incorporates several noteworthy innovations and can be equipped with parallel reactors allowing concurrent sample processing for increased analytical throughput. The unique 1030D Dual Mode TOC analyzer allows sample processing by wet oxidation or thermal combustion using the same instrument. -
Total organic carbon (TOC) measurement is a well-established technique that provides valuable information about water quality for process control and regulatory compliance. Though high-temperature combustion TOC has been shown to be very effective for the analysis of samples that are of high molecular weight or contain substantial amounts of salt or difficult-to oxidize organics (e.g, humic acid), these types of samples are problematic for combustion TOC analyzers. -
Experience two types of TOC analysis in one powerful instrument! Use the Aurora 1030D to analyze TOC through the proven heated persulfate wet oxidation technique or the high temperature combustion method. Both modes have distinct chamber features to ensure accurate and reliable results.