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Rosemount-QX1000 Continuous Gas Analyzer

Rosemount™ QX1000 Continuous Gas Analyzer

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Product Description

The Rosemount QX1000 Continuous Gas Analyzer is a reliable solution designed for comprehensive multi-component gas analysis in various industrial applications. Combining laser absorption spectroscopy with paramagnetic oxygen measurement, the QX1000 provides highly accurate and continuous gas monitoring tailored to your specific needs, resulting in unparalleled analytical performance. This hybrid system is designed to deliver highly accurate, continuous multi-component gas analysis, ensuring optimal process monitoring and control. The Rosemount QX1000 offers exceptional versatility, customizable to meet the stringent requirements of diverse applications, setting a new industry standard in gas analysis solutions.

Dane techniczne

Measurement Type
IR Absorption Spectroscopy and Paramagnetic O2 detection
Measurement Frequency
> 0.1 Hz
Repeatability
± 1 % of measurement or limit of detection (LOD), whichever is greater
Linearity
Maximum error < 2 % of full range
Detection Limit
Typically ≤ 1 % Full Range, dependent on application
Certification/Approvals
General Purpose/Safe Area
Enclosure Rating
IP20
Ambient Temperature Range
41 to 122 °F (5 to 50 °C)
Sample Gas Temperature
41 °F to 122 °F (5 °C to 50 °C)
Input Signal
Analog Signal Input 4- 20 mA (Optional)
Output Signal
Analog signal output 4-20 mA (Maximum 12)
Digital Signal over Modbus TCP
Relay Outputs
Configurable for NAMUR Alarms and Valve Control
Dimensions
436 x 623 x 133 mm (170.17 x 15.06 x 5.22 in.) (excluding feet and mounting rail)
Power Supply
100 to 240 Vac (50 to 60Hz)
Weight
12 kg (26.4 lbs)

Charakterystyka

  • Pioneering design combining laser and paramagnetic measurement methodologies
  • Ideal for Continuous Emission Monitoring Systems (CEMS), providing high selectivity and accuracy for real-time continuous gas analysis
  • A cost-efficient solution for emissions monitoring and process improvement, meeting regulatory market demands
  • Meets the necessary performance criteria required by regulatory bodies
  • Laser-based measurement method excels in complex gas streams
  • Low maintenance requirements and reduced lifetime costs due to fewer moving parts, minimizing analyzer downtime
  • Low Consumable Technology reduces operational expenditure
  • Reliable technology reduces system failures and maintenance needs for minimized downtime

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