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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.
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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.
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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
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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
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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
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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°.
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Fuji Electric Extractive Gas Analyzers for process control and continuous measurement of stack emissions. Their QAL1 certification guarantees high performance and regulatory and normative compliance. Reliable and precise, their design quality guarantees 24-hour operation in difficult environments such as smoke from industrial chimneys. Robustness reduces maintenance costs and increases the availability of boilers and equipment. Extractive measurement consists of taking a gas flow from the chimney or the gas pipe via a sampling probe and conveying it to the gas analyzer. The gas is sampled, treated in order to ensure optimal conditions for gas measurement.
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ZPA is best suited to the measurement of exhaust gas from refuse incinerators, boilers, and various industrial furnaces.
NO, SO2, CO2, CO, CH4 Non-dispersion infrared-ray absorption methodSingle light source and single beams (single beam system) O2 : Galvanic fuel cell O2 analyzer (built-in) paramagnetic O2 analyzer (built-in), or zirconia O2 analyzer (externally installed TYPE: ZFK7) -
De T-flensoplossing van NEO Monitors is ontworpen om twee LaserGas™ III (Ultra)-analysatoren op één paar flenzen te plaatsen. Dit maakt metingen met lange optische padlengtes mogelijk, terwijl de benodigde ruimte en installatiekosten worden verminderd. Door het compacte ontwerp zijn de spoelvereisten zeer laag, wat de bedrijfskosten verlaagt. Dankzij een zeer configureerbaar ontwerp kan de T-flensoplossing eenvoudig worden aangepast aan verschillende configuraties en toepassingen; individuele analysers kunnen eenvoudig worden vervangen. De certificeringen van de respectievelijke analysers, b.v. EX-d of SIL2 blijven behouden bij gebruik in de T-flensoplossing. Een typische toepassing is verbrandingsanalyse waarbij de T-Flange in combinatie met een LaserGas™ III O2 en een LaserGas™ III CO Ultra de perfecte oplossing is voor procesoptimalisatie en veiligheid.
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LaserGas™ III Ultra
It uses the innovative baseline-insensitive TDLAS technique specifically designed for combustion analysis. The Ultra simultaneously meets the requirements of combustion control and safety. That is, high measurement accuracy and high dynamic range with simultaneous real-time measurement capability. Applications with very long path lengths and high gas concentrations are no problem for the Ultra. Thanks to the baseline insensitivity and the use of the proprietary IROSS signal processing, high measurement accuracy is achieved even with complex gas mixtures. LaserGas™ III Ultra CO in combination with LaserGas™ III O2 are a perfect combination for proper combustion control and safety. -
For measuring mercury in natural gas the pressure of a high pressure sample feed has to be reduced to a suitable low pressure before measurement. The new NG-SAMPLING SYSTEM-3000 follows a straight forward design. It integrates a minimum of components. All gas wetted parts in the sample path have been silicon coated. This allows very fast conditioning and low memory effects.
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The air purifier CAP 15 and air purifier CAP 30 produces clean and hydrocarbon-free air out of normal compressed air. The Pt/Pd-catalyst convert by catalytical total-oxidation at 370°C all hydrocarbons inclusive methane (CH4) into carbondioxyde (CO2) and water (H2O). Hydrogen (H2) and carbonmonoxyde (CO) will be removed quantitatively.The produced air quality ist constantly free of hydrocarbons and better than sythetic air from gas bottles of class 5.0 (refering to organic components).On account of the high gas purity, the air purifier CAP 15/30 are used for FID-measuring systems as combustion air and as zero gas