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AMETEK Thermox WDG-V Combustion Analyzer


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AMETEK THERMOX is now happy to announce the THERMOX WDG V Combustion Analyzer, a new standard of excellence from a company with more than 40 years experience in combustion analyzers. For more information in Northern California or Nevada contact:

Belilove Company Engineers
21060 Corsair Blvd
Hayward, CA 94545
Phone: (510) 274-1990
Fax: (510) 274-1999

Published in: Engineering
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AMETEK Thermox WDG-V Combustion Analyzer

  1. 1. # COMPONENT SENSOR ENHANCEMENTS 1 Enclosure The Sensor enclosure size and weight has been reduced by over 30% and features a hinged door IP65 enclosure as standard. Lightweight, high “R” value, blanket insulation inside the enclosure insures sensor temperature stability throughout wide ambient temperature cycles. 2 Sensor Heater Block High output single cartridge heater with improved thermal transfer radiant block maintains internal sensor and enclosure temperature to 235°C with only a 30% duty cycle leaving added capacity for extreme temperature environments. 3 Aspirator Block New Aspirator block design with increased orifice sizes reduce chances of particulate interference. Instrument Air or Nitrogen drive gas consumption is reduced by over 20% while directing more process convective flow to the sensors. Analyzer response time with sensor flame arresters is improved to levels of analyzers where no flame arresters are installed. 4 Combustible Sensor Combustible and Hydrocarbon detectors are installed in a thermally controlled flow block of substantial mass, independent of enclosure temperature, insuring precise temperature stability of detectors, reducing the effects of thermal drift. 5 Flame Arrestors Flame arrestors are incorporated into the convection flow loop so as the may be inspected or replaced in minutes. An upstream arrestor “cartridge” installed in the combustible flow sensor block can be inspected or replaced in minutes without disassembly of sensor piping. 6 Flow Sensor A flow sensor is incorporated into the sensor piping to detect and alarm when sensor flow is reduced or stopped to insure the sample transport integrity to the measurement sensors from inlet probe tip to exhaust port. 7 Zirconia Cell Furnace New cell furnace design reduces the size and susceptibility to vibration and environmental effects. Redundant thermocouples for cell temperature measurement improves reliability of the measurement. The re-orientation of the cell furnace parallel to the combustible sensor block efficiently utilizes cell furnace heat for maintaining combustible detector temperature stability. 8 Sensor Terminal Enclosure Modular snap in terminal strips with laser etched labels simplify wire connections. Recessed electronics and bottom conduit connections eliminate problems due to conduit stress, moisture egress, and improve the reliability and integrity of the sensor connection in high radiant heat areas. Introduces the Next Generation of Combustion Analyzers