38552 Panametrics Process Analyzer Process Guide - Final

Make process decisions with confidence using accurate and reliable analyzers Process Analyzers Product Guide Panametrics, a Baker Hughes business, offers a wide array of process analyzers that enable you to make process decisions with confidence. Reliable and stable, our products and services are backed by decades of industry experience and by knowledgeable experts to help you understand your application.We know that when it comes to process control, accuracy and reliability are two of the greatest factors when choosing a process analyzer. Because we serve such a wide variety of industries, applications, technologies, and use cases, we’ve developed one of the strongest portfolios of process analyzers on the market. Ensuring the integrity of your process liquids and gases 1 Key to industries Power Plant Natural Gas Steel Plant Industrial Gases Pharmaceutical Food and Beverages Quality, Test and Calibration Hydrogen Product Technology Moisture Analysis moisture.IQ Aluminum Oxide dew.IQ Aluminum Oxide HygroPro Aluminum Oxide MMY30 Aluminum Oxide MMY31 Aluminum Oxide PM880 Aluminum Oxide Aurora Laser Optica Chilled Mirror OptiSonde Chilled Mirror MMR30 Polymer Capacitance MMR31 Polymer Capacitance MMR101 Polymer Capacitance Gas Analysis XMO2 Thermoparamagnetic ox y. I Q Electrochemical Delta F Non-depleting / Electrochemical CGA351 Zirconia XMTC Thermal Conductivity Industry applications Panametrics’ process measurement solutions cover a wide range of industries and applications. Refinery / Petrochemical Plant 2 3 Moisture, Oxygen & Gas Analysis Moisture is considered a contaminant in many processes, causing corrosion in metal infrastructure, reduced process yield and impacting final product quality. As such, industrial processes may contain a moisture removal step using dryers like molecular sieves or glycol contactors to ensure moisture in process gases and liquids stay below permissible levels. Moisture measurement and control is therefore a critical component for a whole range of industries like natural gas, petrochemical processing, power generation, semiconductor manufacture and industrial gas, among others. Oxygen and gases such as hydrogen need to be measured and controlled in many processes and applications, from explosion prevention to ensuring process chemical reactions take place in a controlled manner. Applications for oxygen measurement range from tank inerting in the chemical industry to purity measurements in food packaging. Hydrogen measurement applications include power plant generators and electrolyzers for hydrogen production. The technologies used must be robust, reliable and proven in the field. Panametrics has a long tradition and experience in moisture, oxygen and gas analysis using various core technologies such as: aluminum oxide, laser, thermoparamagnetic, electrochemical, and thermal conductivity. 4 5 Moisture Analysis Aluminum Oxide Technology FEATURES • 1 to 6 channels of moisture and oxygen measurement • Touch screen display • Analog and digital outputs • Compatible with MISP2 and M series aluminum oxide moisture probes • 19" rack, panel, weatherproof wall-mount and explosionproof versions available Panametrics aluminum oxide moisture sensors have set the standard in process moisture measurement for more than 60 years. The sensor consists of a porous oxide layer with a very thin metal coating. Water vapor rapidly equilibrates on the pore walls of the oxide layer. The number of water molecules adsorbed on the oxide structure determines the conductivity of the pore walls, which in turn is functionally related to the water vapor pressure expressed as water dew point, PPMv, PPMw, etc. Benefits: • T he sensor reports pressure dew point at pressures up to 5000 psig (345 bar) • S ensors work in liquid- and vapor-phase applications • T he sensor is calibrated in nitrogen for all applications • L arge dynamic measurement range: -110 °C to +60 °C dew/frost point • S ensors are easy to replace in the field moisture.IQ Multi-channel moisture analyser for measurement in gases and liquids The flagship analyser of the IQ series is designed for installation in a control room or field setting, providing complete functionality where single or multiple measurements are required, for both moisture and oxygen analysis. APPLICATIONS Power Plant H 2 (cooling generator) Instrument Air lines SF6 gas Transformer oil Refinery / Petrochemical Hydrocarbon Liquids Hydrogen recycle gas Utility gas/Instrument air Ethylene Polyethelyene plant feedsl Natural Gas Natural gas pipelines LNG, LPGs, NGLs Biogas upgrading Steel Plant Annealing Lines Galvanisation Lines Utilities Industrial Gases Air Separation Units Cylinder filling Food & beverages CO 2 gas Hydrogen Steam Methane Reformers Electrolyzers Pipeline & Storage FEATURES • Intrinsically safe • Optional built-in temperature and pressure sensors • Nonvolatile calibration data storage • Calibrations traceable to national standards FEATURES • Intrinsically safe • Optional built-in temperature sensor • Calibrations traceable to national standards 6 7 APPLICATIONS Power Plant H 2 (cooling generator) Instrument Air lines SF 6 gas Refinery / Petrochemical Utility gas / Instrument air Steel Plant Annealing Lines Galvanisation Lines Utilities Industrial Gases Air Separation Units Cylinder filling Pharmaceutical Utility air Instrument calibration Food & beverages CO 2 gas Hydrogen Steam Methane Reformers Electrolyzers Pipeline & Storage APPLICATIONS Power Plant H 2 (cooling generator) Instrument Air lines SF 6 gas Transformer oil Refinery / Petrochemical Hydrocarbon Liquids Hydrogen recycle gas Utility gas/Instrument air Ethylene Polyethelyene plant feeds Natural Gas Natural gas pipelines LNG, LPGs, NGLs Biogas upgrading Steel Plant Annealing Lines Galvanisation Lines Utilities Industrial Gases Air Separation Units Cylinder filling Food & beverages CO 2 gas Hydrogen Steam Methane Reformers Electrolyzers Pipeline & Storage FEATURES • Rack, bench, panel and wallmount versions available • Displays moisture content in dew / frost point and ppmv • M Series or IQ.probe moisture probe compatible • Intrinsic safe operation of M Series probe with external zener barrier FEATURES • Intrinsically safe • Ambient to ppb moisture levels using aluminium oxide moisture sensor • Built-in temperature and pressure sensors • Gas and liquid applications dew. IQ Single-channel moisture analyser for measurement in gases An economical, single-channel, aluminium oxide hygrometer in the IQ Series line of analysers. It is intended for industrial applications requiring accurate, real-time moisture measurement.  HygroPro Intrinsically safe moisture transmitter for use in gas and liquid applications The intrinsically-safe HygroPro moisture transmitter measures the moisture content of gases and non-aqueous liquids in pipelines, natural gas, petrochemical, power generation, pharmaceutical, process and industrial applications. 8 9 8 APPLICATIONS Power Plant H 2 (cooling generator) Instrument Air lines SF 6 gas Refinery / Petrochemical Utility gas / Instrument air Natural Gas Natural gas pipelines LNG, LPGs, NGLs Biogas upgrading Steel Plant Annealing Lines Galvanisation Lines Utilities Industrial Gases Air Separation Units Cylinder filling Pharmaceutical Utility air Instrument calibration Food & beverages CO 2 gas Hydrogen Steam Methane Reformers Electrolyzers Pipeline & Storage FEATURES • Loop powered, 4-20mA transmitter • Integral filtering and flow regulation • Hazardous area configurations available DewPro MMY30 Loop powered moisture transmitter for measurement in gases The MMY30 is designed to measure dew point or ppm in gases at line or atmospheric pressure. An integral flow cell with filtration and flow regulation allows for easy implementation. APPLICATIONS Pharmaceutical Utility air Instrument calibration Environmental chambers Glove boxes FEATURES • Loop powered, 4-20mA transmitter • Hazardous area configurations available DewPro MMY31 Loop powered moisture transmitter for measurement in gases The MMY31 is designed for inline installation in clean applications where trace moisture meaurement is required and a bypass or extractive installation is not appropriate. 10 11 APPLICATIONS Power Plant H 2 (cooling generator) Instrument Air lines SF 6 gas Transformer oil Refinery / Petrochemical Hydrocarbon Liquids Hydrogen recycle gas Utility gas / Instrument air Ethylene Polyethelyene plant feeds Natural Gas Natural gas pipelines LNG, LPGs, NGLs Biogas upgrading Steel Plant Annealing Lines Galvanisation Lines Utilities Industrial Gases Air Separation Units Cylinder filling Pharmaceutical Utility air Food & beverages CO 2 gas Hydrogen Steam Methane Reformers Electrolyzers Pipeline & Storage FEATURES • Intrinscially safe in a rugged compact package • Measures moisture in gases and hydrocarbon liquids • Internal data logger • Lightweight handheld sample system • Large graphic display • Compatible with MISP2 and M series aluminum oxide moisture probes PM880 Rugged intrinscially safe portable moisture meter for gases and liquids The PM880 is the number one hazardous area rated portable moisture meter on the market. It is designed to measure moisture in gases and hydrocarbon liquids across a broad spectrum of applications and industry segments. The compact and rugged design makes it suitable for use in the toughest of environments. 12 13 APPLICATIONS Refinery / Petrochemical Hydrogen recycle gas Utility gas / Instrument air Natural Gas Natural gas dehydration Natural gas pipelines and storage LPGs, NGLs Biogas upgrading Steel Plant Annealing Lines Galvanisation Lines Utilities Industrial Gases Air Separation Units Cylinder filling CO 2 FEATURES • Rated for installation directly in a hazardous area • Optical response <2 seconds • Integrated sample system for measurement integrity • Patented temperature and pressure compensation • Optional safe area 19" rack mount and portable configurations available Aurora Laser based moisture analyzer for gases The Aurora uses tunable diode laser absorption spectroscopy (TDLAS) to quickly and accurately measure moisture in gases, with speed of light response and minimum maintenanace requirements. Panametrics Aurora analyzer uses tunable diode laser absorption spectroscopy (TDLAS) to rapidly and accurately measure moisture in a variety of background gases. The concentration of water is directly related to the partial pressure. At certain specific frequencies, light energy will be absorbed by water molecules. As the concentration of water increases, the absorption also increases. Aurora analyzers sweep the diode laser output through a narrow spectrum of light frequencies. Comparing the return light intensity with the incident light intensity, the analyzer provides a direct measure of the water vapor pressure in PPMv and related units. With the input of line pressure, the moisture content is expressed as pressure dew point. Benefits: • V ery fast response, especially after process upset • L ong-term stability, negligible drift • N on-contact based measurement, suitable for harsh applications Moisture Analysis Laser Technology 14 15 14 FEATURES • Measurements traceable to national standards • 1/4 color VGA display • Built-in data logger • Multiple measurement units can be displayed and transmitted • Patented PACER® cycle automatically cleans mirror to ensure measurement integrity Optica Chilled mirror based hygromter for high accuracy moisture measurements in gases The Optica is a primary standard measurement device designed for industrial and laboratory applications requiring high precision without long term drift. It may be used with a number of chilled mirror sensors providing a wide measurement range. APPLICATIONS Steel Plant Annealing Lines Galvanisation Lines Utilities Industrial Gases Air Separation Units Cylinder filling Pharmaceutical Utility air Instrument calibration Clean Room Food & beverages Utility air Instrument calibration Clean Room Quality, Test & Calibration Environmental test chambers Engine test cells Air conditioning and heat exchange coil testing Metrology labs Panametrics chilled mirror sensors use a thermoelectric cooling module to cool the mirror exposed to the flowing gas sample. Infrared light reflects off the mirror. The reflected light is received by a photodetector. As the mirror is cooled, and water vapor condenses on the mirror, the light received by the photodetector decreases due to absorption and scattering. The signal from the photodetector is utilized in a control loop to maintain a constant mass. A precision RTD measures the temperature of the mirror. This mirror temperature is by definition equal to the dew or frost point temperature.. Benefits: • D irect fundamental measurement of dew / frost point • H igh precision • L ong-term stability Moisture Analysis Chilled Mirror Technology 17 16 FEATURES • Measurements traceable to national standards • Built-in data logger • Multiple measurement units can be displayed and transmitted • Patented PACER® cycle automatically cleans mirror to ensure measurement integrity OptiSonde Economical chilled mirror based hygromter for high accuracy moisture measurements in gases The OptiSonde is a primary standard device designed for process and laboratory measurements requiring high precision without long term drift. It may be used with a number of chilled mirror sensors providing a wide measurement range. APPLICATIONS Steel Plant Annealing Lines Galvanisation Lines Utilities Industrial Gases Air Separation Units Cylinder filling Pharmaceutical Utility air Instrument calibration Clean Room Food & beverages Utility air Instrument calibration Clean Room Quality, Test & Calibration Environmental test chambers Engine test cells Air conditioning and heat exchange coil testing Metrology labs 18 19 Panametrics relative humidity transmitters use a proven polymer capacitive sensor to provide a humidity measurement in the range of 0 to 100% RH. The sensor consists of a hygroscopic polymer sensing layer whose dielectric properties change depending on the amount of water vapor in contact with the sensing surface. This causes a change in the capacitance of the sensor which is then converted into a relative humidity reading. Benefits: • G ood resistance to chemical vapors • A bility to function at high temperatures (>100 °C) • F ast speed of response • A bility to recover from condensation or full water immersion Moisture Analysis Polymer Capacitance Technology FEATURES • Loop powered 4-20mA transmitter • Proven Polymer Capacitive sensor • Integral filtering and flow regulation • Optional integral display with user interface MMR30 Loop powered mid-range moisture transmitter The MMR30 is designed for mid-range (5°F to 185°F/-15°C to 85°\ C) moisture applications such as refrigerated compressed air dryers. It is compact and can be easily installed in indoor or outdoor environments. APPLICATIONS Power Plant Gas Turbline inlet air Pharmaceutical Drying applications Product Validation Tablet coating ETO Sterilisation Food & beverages Dehydration applications Fruit Ripening Coating Quality, Test & Calibration Weather Stations 21 20 FEATURES • Loop powered 4-20mA transmitter • Proven Polymer Capacitive sensor • Simple field recalibration with salt bottles • Optional integral display with user interface • Hazardous area options available MMR31 Loop powered mid-range moisture transmitter The MMR31 is designed for relative humidity measurement (0-100%) applications. It is compact and can be easily installed in indoor or outdoor environments. APPLICATIONS Pharmaceutical Drying applications Product Validation Tablet coating ETO Sterilisation Food & beverages Dehydration applications Fruit Ripening Coating Quality, Test & Calibration Humidity control sterilization chambers APPLICATIONS Steel Plant Blast gas humidification Pharmaceutical High temperature drying applications Food & beverages High temperature drying applications Quality, Test & Calibration High temperature drying applications FEATURES • Loop powered 4-20mA transmitter • Proven Polymer Capacitive sensor • Optional integral display with user interface • Hazardous area options available • Operating temperature up to 300°F (150°C) MMR101 Loop powered high temperature relative humidity transmitter The MMR101 is designed for high temperature relative humidity (0-100%) applications. It’s rugged design is suitable for the harshest installations. 22 23 FEATURES • Background gas compensation • Push button field calibration • No moving parts assuring trouble - free operation • Class 1 Div 1 / ATEX and IECEx zone 1 as standard XMO2 Proven robustness in hazardous area oxygen analysis in gas applications Designed for stability and longevity in hazardous area locations, the XMO2 provides high accuracy percent-level measurements and easily recovers from process upsets. APPLICATIONS Refinery / Petrochemical Inerting of Storage Tanks Hydrocarbon Gas Supply Hydrogen Recycle Gas Ethylene/Polyethylene Plant Natural Gas Biogas Processing Steel Plant Heat treatment Processes Industrial Gases Percent Oxygen Analysis Pharmaceutical Storage Tanks for Liquid Hydrocarbons Centrifuges and Reactors Ambient Atmosphere Monitoring Carbon Reactivation Reaction Optimization Food & beverages Inert Gas Packing Prevention of Oxidation of Dry Powders Quality, Test & Calibration Waste Water Treatment Oxygen has the property of being attracted into a magnetic field. The Panametrics XMO2 thermoparamagnetic analyzer uses this paramagnetic property combined with heated thermistors to measure the oxygen concentration. This measurement technique along with the flow-through design and no moving parts ensure a stable measurement, long-term calibration stability, and immunity to process upsets. Benefits: • N o Moving Parts • I nfrequent Calibration • S imple, Easy to use • A utomatic Calibration / Verification • M inimized Cost of Ownership • C ompact design reduces cost in system solutions Ox ygen Analysis Thermoparamagnetic Technology 24 25 FEATURES • Compact and innovative design, easy installation and system solution flexibility • Built-in microprocessor, intuitive user interface to easily select range, trim outputs and perform calibration • User-selectable ranges, calibration, sensor diagnostics with keypad simplifies programming • Maintenance-free device ox y. I Q Highly reliable and cost effective oxygen measurement, all in a compact intrinsically safe package Designed for installation flexibility, the oxy.IQ is a two wire loop powered transmitter with 17 percent- and ppm-level oxygen ranges. oxy.IQ combines proven sensor technology, an intuitive user interface, and a compact design in an intrinsically safe package perfect for oxygen measurement in a variety of background gases. APPLICATIONS Power Plant Oxygen measurement H 2 cooled generators Refinery / Petrochemical Catalytic reformer for recycle hydrogen Isomerization unit for recycle hydrogen Butamer unit off-gas Hydrotreater for recycle hydrogen Fuel gas / off gas Natural Gas Natural gas pipelines Biogas processing Steel Plant Heat treatment Processes Industrial Gases Nitrogen Generators Oxygen Applications Pharmaceutical Glove Box Applications Food & beverages Inert Gas Packing CO 2 Purity (Breweries) Hydrogen Water Electrolysis: traces of oxygen in hydrogen Panametrics’ oxy.IQ utilizes galvanic fuel cell technology to measure trace and percent- level oxygen in gases. Oxygen in the gas flowing through the chamber reacts at the cathode to form ions that travel to the anode, converting from lead to lead oxide. The resultant current is proportional to the amount of oxygen. The oxy.IQ uses an advanced galvanic fuel cell, a self-contained cell that requires no electrolyte refueling or electrode replacement, providing superior performance, accuracy, stability and long life. The oxy.IQ is insensitive to background gas changes with drop-in sensors that cover different concentration ranges, with a special sensor option for acid gas compositions. Benefits: • C ompact design allows installation flexibility • P roven galvanic fuel cell technology • B ackground gas insensitivity • A cid gas sensor options Ox ygen Analysis Electrochemical Technology 27 26 Panametrics delivers Delta F oxygen sensor technology as a standard sensor input to the Panametrics flagship moisture.IQ analyzer. The oxygen from the sample takes part in a reaction. The voltage applied to the electrodes is the driving force. At the cathode, the oxygen is first converted into hydroxyl ions. These hydroxyl ions travel through the electrolyte to the anode where it is converted back to oxygen. The current is a direct measurement of the hydroxyl ion transport and therefore proportional to the oxygen concentration. Nothing is consumed in making the measurement. Benefits: • N on-depleting oxygen sensor • S ensitivity down to a ppb-level oxygen • F ast response to changes in oxygen concentration • Sh ort recovery time after exposure to high concentrations • A bility to work in acid gases using Stab-El electrodes Ox ygen Analysis Non-depleting Electrochemical FEATURES • Ultra-stable coulometric measurement technology • Non-depleting sensor • Fast response times • Unique combination with moisture.IQ offers up to 6-channels of moisture and oxygen • Safe and hazardous area configurations Delta F Delivering ultra-stable, trace oxygen analysis in industrial gas applications The Delta F non-depleting, coulometric oxygen sensor provides ultra-stable oxygen measurement and requires only an annual span calibration. Combined with Panametrics’ moisture.IQ, this offers a cost effective six-channel solution for multi-point oxygen measurement covering ppm and ppb measurements. The Delta F sensor is particularly suited to applications requiring high sensitivity measurements for process control. APPLICATIONS Refinery / Petrochemical Ethylene Polyethelyene plant feeds Steel Plant Heat treatment Processes Industrial Gases Air separation units (N 2 / Ar / O 2 / H 2) Cylinder filling Pharmaceutical Glove Box Applications 28 29 The CGA351 is a Clean Gas Analyzer that uses zirconium oxide technology to measure trace oxygen in clean, inert gases such as high-purity nitrogen. The tube-shaped sensor consists of yttrium-substituted zirconium oxide. The platinum coating acts as an electrode. At the elevated operating temperature of the sensor, oxygen reacts with the platinum to form ions that travel from the ambient air reference on the outer side of the sensor tube, through the walls of the sensor, towards the sample gas on the inner side of the sensor tube. The generated milli-volt signal correlates with the oxygen concentration in the sample gas. The lower the oxygen concentration, the more ions that travel through the matrix, and the higher the mV signal. Benefits: • T echnology with quick response time and outstanding performance • M easuring range from 0.1 ppm to 100% oxygen • Q uick single gas calibration • L ong sensor lifetime • M aintenance-free Ox ygen Analysis Zirconia Technology FEATURES • Fastest Responding Oxygen Sensor: T90 at under 2 seconds • Covers a wide Oxygen Concentration Range from 0.1 ppm to 100% oxygen • High accuracy at lower ppm levels • Maintenance free CGA351 Super fast response times covering all oxygen ranges in clean gas applications This fastest responding oxygen measurement technology is ultra-stable and covers low-ppm to percent-level measurements. Single-point calibration compliments a low maintenance analyzer particularly suited for clean gas applications where speed of response and accuracy are key requirements. APPLICATIONS Refinery / Petrochemical N 2 Plant Utilities Industrial Gases Air separation units (N 2 / Ar / O 2 / H 2) Cylinder Filling Pharmaceutical Glove Box Applications 30 31 FEATURES • One-button field calibration • Ultra stable thermistors • Temperature compensation for reduced temperature effect • Compact sensor Assembly • Class 1 Div 1, ATEX and IECEx Zone 1, IP66/4X XMTC High accuracy analysis in a compact binary gas analyzer The XMTC is a compact, reliable, and field-proven thermal conductivity analyzer for safety and measurement applications. Certified for hazardous area environments, the XMTC is a cost effective analyzer in a compact transmitter design for percent measurement of one gas in another. APPLICATIONS Power Plant Hydrogen-Cooled Generators Refinery / Petrochemical Catalytic Reformer for Recycle Hydrogen Isomerization Unit for Recycle Hydrogen Butamer Unit Off-Gas Hydrotreater for Recycle Hydrogen Fuel Gas/Exhaust Gas Natural Gas Biogas processing Steel Plant Heat treatment Processes Industrial Gases Air separation units (N 2 / Ar / O 2 / H 2) Cylinder filling Food & beverages CO 2-purity (Breweries) Hydrogen Water Electrolysis: Hydrogen and Oxygen Analysis Thermal conductivity is a physical property, a fluid’s ability to dissipate heat. This property is useful in measuring concentrations in binary gas mixtures such as oxygen in hydrogen, carbon dioxide in methane, etc. Panametrics’ XMTC compares the thermal conductivity of the sample gas to that of a reference gas to determine the percent-level concentration of one gas in a two-gas mixture or multi-gas mixture of gases with similar thermal conductivities. The sample gas flows through the measuring cell with built-in thermistors. The thermal conductivity difference between the sample and reference, when compared to the zero and span gas calibration, is directly proportional to the gas concentration. The XMTC can reliably measure percent-levels of one gas in another, when the two gases have sufficiently different thermal conductivities. Benefits: • C ompact, rugged, no moving parts • E nhanced signal measurement • R eal-time error detection • D igital communication • F lexible calibration, various gas combinations • M inimal calibration and service Gas Analysis Thermal Conductivity Technology 33 32 Panametrics offers a suite of local displays / controllers that connect to the blind oxygen and binary gas transmitters providing power and local read-out. Additional features include alarm contacts, additional analog outputs, and auto-calibration functionality. Benefits: • S ensor installed at point of use • D isplay installed where needed for visual indication • A uto-calibration / verification capabilities • P rovides DC power to the transmitters when AC power is available Multi-function Displays FEATURES • Full solution enabler to compliment the XMO2, XMTC and oxy.IQ with added functionality • 4 relay output for solenoid control • Very low maintenance requirement and reduced touch time of other transmitters • Class 1 Div 1 / ATEX and IECEx zone 1 as standard • Calibration Curve Management XDP Offering added functionality to Panametrics transmitters, the XDP is more than just a fully certified explosionproof display In addition to offering a local display, the auto-calibration and verification functionality of the XDP compliments the XMO2 and XMTC transmitters with even lower maintenance and calibration requirements, offering a full solution package. The advanced micro-processor control compares calibration readings with factory settings to verify calibration. Corrections are automatic with user notification. COMPATIBLE WITH XMO2 XMTC ox y. I Q 35 34 FEATURES • Single or dual isolated 4-20mA outputs • Up to four field-configurable process alarms • Automatic calibration relays for autocalibration of XMO2 and XMTC • Calibration Curve Management TMO2D Added functionality in a cost affective package, this safe area display compliments the Panametrics analyzers with increased functionality and control The TMO2D offers auto-calibration and verification control to support the XMO2, XMTC and oxy.IQ analyzers. This package comes in user selectable form factors which offers reduced maintenance and alarm outputs. COMPATIBLE WITH XMO2 XMTC ox y. I Q 36 37 Sample handling systems are essential for getting top performance from your process analyzer systems. To get the right sample system for your application, turn to Panametrics, the analyzer application expert with more than 50 years of design experience. Couple Panametrics process analyzers with the appropriate Panametrics sample handling and you will have reliable, accurate, and low maintenance measurements. Features and benefits: Panametrics sample systems ensure the performance of an analyzer by supplying a sample to the analyzer at optimal pressure, temperature, flow rate, and free from contaminants. Designed specifically to meet the needs of your Panametrics analyzers, Panametrics sample systems reduce cost and downtime by: • P roviding better measurement accuracy and reliability • E xtending analyzer life • M inimizing analyzer maintenance and associated parts and labor • F acilitating field calibration Sample Conditioning Systems Save money and time with the right sample system from the application experts Application engineering is the difference Our application and service engineering teams possess the expertise to provide a comprehensive sample system designed and built for your specific situation. We know how our analyzers perform in your applications and how our sample handling systems can help deliver the best measurements. We offer a cost-effective source for complete analyzer packages. • Standard systems for common applications • Engineered systems for customer-specific requirements • Design, construction, and inspection of all systems • Installation guidance • Start-up and commissioning • Calibration • Extended warranties and service plans for analyzer systems 39 38 Contact us For more information please contact your local Panametrics representative, or visit: panametrics.com © Copyright 2021. Baker Hughes Company. This material contains one or more registered trademarks of Baker Hughes Company and its subsidiaries in one or more countries. All third-party product and company names are trademarks of their respective holders. Panametrics, a Baker Hughes business, provides solutions in the toughest applications and environments for moisture, oxygen, liquid and gas flow measurement. Experts in flare management, Panametrics technology also reduces flare emissions and optimizes performance. With a reach that extends across the globe, Panametrics’ critical measurement solutions and flare emissions management are enabling customers to drive efficiency and achieve carbon reduction targets across critical industries including: Oil & Gas; Energy; Healthcare; Water and Wastewater; Chemical Processing; Food & Beverage and many others. Join the conversation and follow us on LinkedIn linkedin.com/company/panametricscompany