ADEV - Model 8869 -Infrared Multi-Gas Analyser

• Acetylene [C2H2]
• Carbon Monoxide [CO]
• Ethylene Oxide (ETO) [C2H4O]
• Nitric Oxide [NO]
• Styrene [C8H8]
• Vinyl Chloride (VCM) [C2H3Cl]
• Ammonia [NH3]
• Ethanol [C2H6O]
• Hydrogen Chloride [HCl]
• Nitrous Oxide [N2O]
• Sulfur Dioxide [SO2]
• Water [H2O]
• Carbon Dioxide [CO2]
• Ethylene [C2H4]
• Methane [CH4]
• Propane [C3H6]
• Toluene [C7H8]
• Xylene [C8H10]

Extreme Roughness

• No choppers and other moving parts
• Wet parts in selected materials for use with gas like pure Ammonia, VCM, HCl and other demanding streams
• Resistant to the most severe industrial environments

High Performances

• Designed to measure up to 3 IR-absorbing gases with a unique sensing unit
• Precision optical filters minimize effects of background gases
• Single beam source and no gas-filled cells
• A unique source-emission control system allows up to 20% windows fouling without effect on accuracy.
• Sensing unit temperature controlled
• Insensitive to ambient temperature variations

Easy Maintenance

• The sensing unit can be easily disassembled for field maintenance and cleaning.
• Modular construction
• Fast access to the inner PCB just unscrewing the housing cap

European Compliance

• Low Voltage Directive 2014/35/EU
• EMC Directive 2014/30/EU
• Directive ATEX 2014/34/EU (optional)

ATEX

ATEX certification for Zone 1 / Zone 21 with protection mode:

• II 2 G D     Ex db IIC T6 Gb
• Ex tb IIIC T85°C Db
• IP65
• ATEX Certificate Number CESI 03 ATEX 130

Performance  

• Accuracy ± 1% of span (output signal).
• Further improvable with autocalibration.
• Repeatability ± 0.3% of span (short term).
• Reproducibility 24 hours: ± 1% of span.
• Linearity with control unit: better than ± 0.5% of full scale
• Response Time Initial: less than 1 sec.; 90% of step-change: 6 sec. (with max. 1000 cc/min. flow rate)
• Drift (without autocalibration) Zero: max. ± 1% of span per week
• Span: max ± 1% of span per week
• Ambient Temp. Influence ± 0.05% O2 per °C
• Atm. Pressure Influence ± 0.1 ÷ 0.18 % of reading per hPa
• Flow Rate Influence < 0.5% of span over flow variation from 250 to 2000 cc/min.
• Line Voltage Influence max. 0.02% of span, for each 1% change of power voltage.
• Gas Interference Depending of gas. Typically less than 2% of span

Operative

• Sample Requirements Flow Rate: 250 ÷ 2000 cc/min.
• Pressure: min. 3000 Pa (with filter & flow meter).
• Output non-normalized output current that functions as input of the selected ADEV control unit
• Relative Humidity 90% maximum.
• Operation Temperature -10 ÷ +50°C (14 to 122 °F).
• Temperature controlled at 65°C (or higher depending on the application)
• Storage Temperature +70°C (158 °F) max.
• Power Requirements 24 ÷ 30 Vdc, 45 VA from dedicated power supplier.
• Pneumatic Connections ¼” or 6 mm OD tubing (compression fittings)
• Wiring Connections 2 openings for GK 1/2" (cable grip or conduit).

• Heat treatments (furnace atmosphere, carburizing, nitriding)
• Iron and steel industry
• Blast furnaces and combustion processes
• Sulphur Production
• Biogas & Landfill Gas
• Gas production industry (gas purity)
• Copper melting furnaces
• Water measurement in high concentration and at high temperature
• ETO sterilizing processes
• In general, selective measurement of any gas with infrared absorption spectrum

The heart of the model 8869 Infrared Analyser is the cell assembly, which consists of:

• 2 helically-wound Nichrome wires which provide the I.R. source
• 1 temperature-controlled sample cell in which the sample circulates
• 1 detector assembly with: one measuring detector with an interference filter focused on the selected IR absorption band for the gas to be analysed; and one reference detector with an interference filter with a band able to compensate ageing effects, dirty built-up on the optical path and background gas variations.

A very particular innovative technique allows a perfect system balance that eliminates drifts and the automatic restore of the sensitivity by controlling the energy that reaches the detector.

 This design can be expanded up to 3 gas variables.