Model 5081FG Two-Wire In Situ Oxygen Analyzer (550° to 1400°C)

---

Intrinsically safe CENELEC EEx ia IIC Class I Div. I Gr. B, C, D (pending) Operates at high temperatures 550-1400°C (1022-2550°F) Assists in low NOx operation Calibration check ability Fast response - no flame arrestors HART®/AMS communications Accuracy ±1.5% of reading

MEASURES CLOSER TO THE FLAME WHILE MAINTAINING INTRINSIC SAFETY FEATURES Traditional in situ oxygen flue gas analyzers utilize zirconium oxide sensors to measure excess oxygen in process flue gas. These zirconium oxide sensors use a principle of operation based on the Nernst equation. This principle requires that the sensor cell be maintained at a high operating temperature using a heater that is powered via the analyzer’s electronics. Many operators of combustion processes have applications that involve hazardous gases in the process itself or in the ambient gases in the area where the analyzer’s electronics are installed. These operators are often concerned that the cell heater can serve as an ignition source to these hazardous gases inside the process or that the electronics can provide ignition to hazardous process or ambient gases that may be present. As a result of these concerns, these users must purchase oxygen analyzers with costly protection features. In addition, traditional in situ oxygen analyzers use metallic alloys that are also limited to temperatures in the range of 701°C (1300°F). This process temperature limitation prohibits the analyzer from being inserted close to the actual combustion process. Many operators prefer to measure flue gas oxygen close to the furnace or radiant section for a more representative oxygen measurement. Improved analyzer accuracy often results in significant fuel savings or improved process throughput. The Model 5081FG Two-Wire In Situ Oxygen Analyzer utilizes a zirconium oxide sensor to measure excess oxygen in combustion processes. The cost-effective design enables it to accurately measure excess oxygen in process temperatures ranging from 550° to 1400°C (1022° to 2550°F). In addition, the Model 5081FG is designed so that both its oxygen probe and the electronics are intrinsically safe without requiring costly design modifications such as flame arrestors. The oxygen probe is constructed of ceramic materials capable of withstanding high process temperatures. Also, the analyzer eliminates the use of the cell heater, using the higher process temperatures to heat the zirconium oxide sensor cell to the temperature required by the Nernst equation principle of operation. The Model 5081FG analyzer’s electronics are intrinsically safe, powered by the 4-20 mA signal wires. In addition, the electronics permit configuration, operation and diagnostics with an easy-to-use hand-held Infrared Remote Control (IRC). Only one IRC is required to communicate with any number of Model 5081FG Two-Wire In Situ Oxygen Analyzers at the user’s location. Communication with any specific Model 5081FG Analyzer is accomplished by aiming the IRC beam directly at the electronics and entering its factory or user ID number at the prompt. This instrument can also communicate over the 4-20 mA signal wires with a HART® communicator or Emerson Process Management AMS software. APPLICATIONS Process heaters – hazardous areas Reactor furnaces – hazardous areas Boiler radiant zones measures before air leaks tuning individual burners NOX reduction Sulfur recovery furnaces Hazardous waste incinerators Steel reheat furnaces Glass furnaces Carburizing furnaces MODEL 5081FG OPERATOR INTERFACE The Model 5081FG Oxygen Two-Wire In Situ Analyzer is also an Emerson Process Management SMART instrument. Operators can communicate with the Model 5081FG Analyzer using the Model 375 HART® Communicator and any other host that supports HART communication protocol such as Emerson Process Management's AMS system. Using AMS, operators may diagnose and communicate with the Model 5081FG Analyzer from a centrally located PC, which may also be communicating with all HART-compatible instruments within the operator’s plant. CALIBRATION CHECK CAPABILITY The Model 5081FG offers the ability to flow calibration gases to the probe for calibration check. This feature helps ensure that your Model 5081FG analyzer is performing within calibration and its specifications, providing accurate oxygen flue gas measurements to help you save fuel or improve process throughput.