Method 3 Flue Gas Analyzer
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Method 3 - Industro Model B Orsat Analyzer |
Measures:
• Carbon Monoxide (CO)
• Carbon Dioxide (CO 2)
• Oxygen (O 2)
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Method 3 Flue Gas Analyzer Features:
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The Method 3 INDUSTRO-B is a simplified instrument for the rapid and accurate field analysis of gas mixtures.
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For the determination of carbon dioxide, oxygen and carbon monoxide in gas mixtures.
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Commonly used in the analysis of chimney gases for the regulation of combustion in coal-, oil-, and gas-fired furnaces.
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It can also be used for combustion control, furnace atmosphere analysis, air-leak detection, research and plant control, calibration of control instruments, and EPA testing.
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Minimum number of glass parts combined with metal components for rugged field applications.
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Two auto-bubbler pipettes and one contact pipette.
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Bulb type burette, 50 ml. graduated 0 to 21% in 0.2%.
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Carrying case
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Operating instructions
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Price also includes one 3 ounce bottle of each Reagent.
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Reagents are: Oxsorbent, Di-Sorbent, Cosorbent and Burette Solution.
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DIMENSIONS: 15 inches high x 9 inches wide x 4 inches deep.
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WEIGHT: 10 pounds
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Clean Air Express gas Analyzer rapidly analyzes gas mixtures, specifically to determine carbon dioxide, oxygen and carbon monoxide.
- Burrell Allied Cabinet Model Gas Analyzer:
- Graduated 100-ml gas measuring burette, one contact and two auto bubbler absorption pipettes for determining carbon dioxide, oxygen, and carbon monoxide levels.
- Burrell Industro Model B Gas Analysis System:
- Graduated 0-21% gas measuring burette, one contact and tow auto bubbler absorption pipettes for determining carbon dioxide, oxygen, and carbon monoxide levels. Solutions included.
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Part Number |
Item |
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Allied cabinet model (A) |
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Same as 0650 with three contact bubblers |
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Industro model B (B) |
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The operating principle consists of subjecting a measured volume of the gas sample to successive contact with chemical solutions which serve to absorb the specific components; carbon dioxide, oxygen and carbon monoxide from the mixture. The decrease in volume of the sample, after each contact, is the basis for calculating the percentage of a specific gas in the gas mixture. |
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