OurEXTREL™MAX300-LG™ High Performance Laboratory Gas Analyzercombines the analytical capabilities of our high-performance industrial Mass Spectrometer for the laboratory. This analyzer offers our quadrupole performance in an economical package suitable for climate-controlled laboratory environments. Typical applications include Catalysis Research, Bench Scale Reactors, Process Development, and Pilot Scale Research.

The MAX300-LG Gas Analyzer is a powerful instrument designed for real-time monitoring of trace-level gas emissions from landfill and biogas sites. Here are some of the benefits:

• High Sensitivity:Offers high sensitivity and low detection limits, allowing for the measurement of trace-level gases in complex gas mixtures.
• Real-Time Monitoring:Provides real-time monitoring of gas concentrations, allowing for quick adjustments to landfill and biogas site conditions.
• Easy to Use:Easy to use, with an intuitive interface and simple calibration procedure.
• Low Maintenance:Requires minimal maintenance, reducing downtime and maintenance costs.
• Multiple Gas Detection:Is capable of detecting multiple gases simultaneously, including CH4, CO2, O2, H2S, and VOCs, making it a versatile option for landfill and biogas site monitoring.
• Robust and Durable:Is built to withstand harsh environments, ensuring reliable and accurate measurements in the field.
• Comprehensive Data Analysis:Includes data analysis software, allowing for comprehensive data analysis and visualization.

The MAX300-LG gas analyzer is a specialized instrument designed for use in the natural gas industry. Some of the industries that use the MAX300-LG gas analyzer include:

• Oil and Gas Industry:Used in the oil and gas industry for the analysis of natural gas during exploration, production, transportation, and processing.
• Energy Industry:Used in the energy industry for the analysis of natural gas for use in power generation and other energy-related applications.
• Environmental Monitoring:Used in environmental monitoring to measure gas emissions from industrial plants, landfills, and other sources.
• Academic and Research Institutions:Used in academic and research institutions for the study of natural gas properties and the development of new gas analysis techniques.
• Government Agencies:Used by government agencies for regulatory compliance monitoring, safety inspections, and other applications related to natural gas.

APPLICATIONS

• Real-Time Gas Analysis
• Catalysis Monitoring
• Trace Gas Detection
• Environmental Research
• Multi-Point Process Control
• Breath Analysis

HIGH RESOLUTION, SPECIFICITY & SENSITIVITY

• High repeatability ensures that calculated metabolic parameters derived from the gas analysis, like the respiratory quotient (RQ), are accurate and precise
• Analyzes all compounds in the sample with very high precision
• Flexible to easily measure trace volatiles such as formaldehyde, acetic acid, ammonia, and hydrocarbons for the purpose of diagnostic evaluation
• For high altitude conditions, the system automatically adjusts and delivers uniform, high precision data regardless of sample pressure
• Configurations built for sampling from high pressure (hyperbaric) conditions, or sub-atmospheric pressures, such as those found at high altitudes
• Fast acquisition software and inlet configuration designed specifically to produce the full breath-to-breath quantitative profile
• Complete sample composition allows the researcher to calculate metabolic parameters, like the RQ, without the need for integrating additional flow measurements

FEATURES

• Quantitative Analysis of O₂, CO₂, N₂, HvO, and trace volatiles
• Measurement Rates up to 5 milliseconds per compound
• Minimum Sample Flow < 0.04 atm cc/sec
• Sample Transit as fast as 0.1 seconds

SYSTEM SPECS

• Mass range: From 1-250 amu (optional 1-300 or 1-500 amu) with the capability to monitor gases and vapors with fragment masses that fall within that range
• Standard Dual Faraday/Electron Multiplier Detector Range from 5 ppb to 100%
• Detection Range with Membrane Inlet Option: 10 ppt to 100%*
• Fast Analysis Mode: Responds to changes in the sample stream in <0.1 seconds
• Quantitative Analysis performed at up to 5 milliseconds per component
• Dual filament ionizer: One filament is utilized for operation while the second filament acts as a spare
• The system provides automatic filament switchover for continuous operation
• High Compression Turbo Molecular Pump with Molecular Drag
• A “Fail safe” interlock protects the system against a power failure or sudden vacuum loss The vacuum chamber is also equipped with a vacuum gauge and an auto vent assembly
• A uniquely designed inlet that enables replacement in seconds without the need for tedious alignment procedures.

*Compound specific. Demonstrated on trace benzene.

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