Product Name: Thermal Conductivity Gas Analyzer
Brand Name: GE
Model Number:XMTC-62-11-0
Country of Origin:USA
Warranty: 12 Months
Whatsapp:+86 18159889985
Email:[email protected]
Brand Name: |
General Electric |
Model Number: |
XMTC-62-11-0 |
Country of Origin: |
USA |
Packaging Details: |
Original new Factory Sealed |
Delivery Time: |
Delivery time in stock |
Payment Terms: |
T/T |
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Sales Manager: |
Stella |
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Send an email: |
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Contact in Whatsapp: |
The Panametrics XMTC-62-11-0 is a compact, microprocessor-based thermal conductivity transmitter designed for continuous online measurement of binary gas mixtures. Using ultra-stable glass-coated thermistors in a temperature-controlled cell, the XMTC-62-11-0 provides a linear 4-20 mA output proportional to the concentration of gases such as hydrogen, helium, carbon dioxide, or methane. The rugged, no-moving-parts design of the XMTC-62-11-0 withstands harsh industrial environments, vibration, and contamination, ensuring long-term reliability. It is available in weatherproof or explosion-proof enclosures with the 2-port (sealed reference) configuration as standard.
Hydrogen Purity in Generator Cooling: Monitoring H₂ purity in hydrogen-cooled turbine generators to prevent explosive air mixtures.
Heat Treat Furnace Atmospheres: Measuring H₂ concentration in N₂ for controlled atmosphere heat treating of metals.
Industrial Gas Blending: Verifying binary gas concentrations in mixing and distribution facilities.
Petrochemical & Chemical Processing: Monitoring process gases like H₂ in synthesis gas or CO₂ in fermentation.
Hydrogen Production Plants: Supervising H₂ concentration in electrolyzer systems.
Ultra-Stable Thermistors: Precision glass-coated thermistors provide excellent zero and span stability with minimal drift.
Temperature-Controlled Cell: Maintains a constant 55°C (or optional 70°C) to eliminate ambient temperature effects.
No Moving Parts: Robust design withstands shock and vibration common in industrial settings.
Modular Construction: Allows for fast field-calibration and easy replacement of the plug-in measuring cell.
Flexible Communication: Features an isolated 4-20 mA analog output and a digital RS232 (or optional RS485) interface.
Hazardous Area Certified: Available in ATEX, FM, and CSA certified explosion-proof enclosures
Continuously Measures Gas Concentration: Monitors the thermal conductivity of a sample gas against a sealed or flowing reference gas.
Provides a Linearized Output: Converts the raw bridge signal into a linear 4-20 mA current proportional to the concentration of the gas of interest.
Enables Digital Communication: Allows configuration, calibration, and data retrieval via an RS232/RS485 serial interface.
Operates in Hazardous Areas: Performs reliable gas analysis in potentially explosive environments.
Resists Contamination: Its cell design and temperature regulation provide tolerance to dirty sample gases.
Q1: What is the XMTC-62-11-0 used for?
A1: The XMTC-62-11-0 is a thermal conductivity transmitter used for the continuous online measurement of binary gas mixtures, such as hydrogen in nitrogen or helium in air.
Q2: Does the XMTC-62-11-0 require a sample system?
A2: Yes. A proper sample system is mandatory to deliver a clean, pressure-regulated, and representative gas sample to the XMTC-62-11-0 at the recommended flow rate (0.5 SCFH) and atmospheric pressure.
Q3: Is the XMTC-62-11-0 suitable for hydrogen-cooled generator monitoring?
A3: Yes. The XMTC-62-11-0 is commonly used to monitor the purity and detect air leaks in hydrogen-cooled turbine generators, providing a critical safety check.
Q4: How often does the XMTC-62-11-0 need calibration?
A4: The recommended calibration interval is typically 2 to 6 months, depending on the application, required accuracy, and sample gas cleanliness. The unit features a simple push-button calibration.
Q5: What is the difference between the standard 2-port and optional 4-port version?
A5: The XMTC-62-11-0 is a 2-port (sealed reference) version for zero-based gas mixtures (e.g., 0-25% H₂). The 4-port version uses a flowing reference gas and is intended for zero‑suppressed ranges (e.g., 80‑100% H₂) or special applications.
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