testo 340 – Flue gas analyzer for use in industry

  • Can measure CO, COlow, NO, NOlow, NO2 or SO2
  • Extended measuring range for use in environments with high gas concentrations
  • Precalibrated gas sensors for quick and easy sensor change
  • Integrated pressure difference and air flow measurements for mass flow calculations

 

Emission control in industry: the testo 340 flue gas analyzer gives you professional technology, easy handling and practical execution in one instrument. The high-performance testo 340 flue gas analyzer is fitted with an O2 sensor and can be equipped with up to 3 additional sensors.

Description

Details

Product Description
Precise technology: That’s what you want to be able to rely on when you’re working out in the field. But precise technology is nothing if it is not versatile, easy to use and adaptable for use in the field. The testo 340 flue gas analyzer ticks all these boxes.

The testo 340 combustion analyzer. For industrial emission measurements and more

Which sensors do you need in the course of your daily work and which measurements do you normally need to carry out? The testo 340 comes standard-fitted with an O2 sensor and four more sensors (CO, COlow, NO, NOlow, NO2 or SO2) for you to choose from, allowing you to customize your analyzer to suit your individual demands. The analyzer’s compact design and the reliable technology tucked away inside ensure increased mobility, making it ideal for use in international service operations and for installing or carrying out checks on firing plants or energy production systems. To find out more about the different application possibilities and to see which industrial applications your testo 340 flue gas analyzer is suitable for just click on the “Applications” tab.

High gas concentrations? No problem with the testo 340!

The flue gas analyzer has an extended measuring range which allows you to carry out measurements even when gas concentrations are very high (i.e. during industrial flue gas analysis). The extended measuring range (thinning) is activated automatically when high gas concentrations suddenly occur. The demands on the sensor are no different to than when the flue gas analyzer is used in low gas concentrations.

Delivery Scope

testo 340 flue gas analyzer, calibration protocol, shoulder strap, O2 sensor and integrated flow and pressure difference measurements.PLEASE NOTE: Your testo 340 must be fitted with a second gas sensor for it to work. Up to three additional sensors can be fitted.


Technical Data

Differential Pressure – Piezoresistive
Measuring range -200 to 200 hPa
Accuracy ±0.5 hPa (-49.9 to 49.9 hPa)

±1.5 % of mv (Remaining Range)

Resolution 0.1 hPa
Absolute Pressure
Measuring range +600 to +1150 hPa
Accuracy ±10 hPa
Resolution 1 hPa
Flue gas O₂
Measuring range 0 to 25 Vol.%
Accuracy ±0.2 Vol.%
Resolution 0.01 Vol.%
Reaction time t₉₀ < 20 s
Flue gas CO (with H₂-compensation)
Measuring range 0 to 10000 ppm
Accuracy ±10 ppm or ±10 % of mv (0 to 200 ppm)

±20 ppm or ±5 % of mv (201 to 2000 ppm)

±10 % of mv (2001 to 10000 ppm)

Resolution 1 ppm
Reaction time t₉₀ < 40 s
Flue gas COlow (with H₂-compensation)
Measuring range 0 to 500 ppm
Accuracy ±2 ppm (0 to 39.9 ppm)

±5 % of mv (Remaining Range) data corresponds to 20°C ambient temperature. Additional temperature coefficient 0.25% of reading/K.

Resolution 0.1 ppm
Reaction time t₉₀ < 40 s
Flue gas NO
Measuring range 0 to 4000 ppm
Accuracy ±5 ppm (0 to 99 ppm)

±5 % of mv (100 to 1999 ppm)

±10 % of mv (2000 to 4000 ppm)

Resolution 1 ppm
Reaction time t₉₀ < 30 s
Flue gas Nolow
Measuring range 0 to 300 ppm
Accuracy ±2 ppm (0 to 39.9 ppm)

±5 % of mv (Remaining Range)

Resolution 0.1 ppm
Reaction time t₉₀ < 30 s
Flue gas NO₂
Measuring range 0 to 500 ppm
Accuracy ±10 ppm (0 to 199 ppm)

±5 % of mv (Remaining Range)

Resolution 0.1 ppm
Reaction time t₉₀ < 40 s

To avoid absorption, a maximum measurement duration of 2 hours should not be exceeded.

Flue gas SO₂
Measuring range 0 to 5000 ppm
Accuracy ±10 ppm (0 to 99 ppm)

±10 % of mv (Remaining Range)

Resolution 1 ppm
Reaction time t₉₀ < 40 s

To avoid absorption, a maximum measurement duration of 2 hours should not be exceeded.

Differential Pressure flue gas Draught – Piezoresistive
Measuring range -40 to +40 hPa
Accuracy ±0.03 hPa (-2.99 to +2.99 hPa)

±1.5 % of mv (Remaining Range)

Resolution 0.01 hPa
Temperature
Measuring range -40 to +1200 °C
Accuracy ±0.5 °C (0 to +99 °C)

±0.5 % of mv (Remaining Range)

Resolution 0.1 °C
Flue gas degree of effectivity, Eta (calculated)
Measuring range 0 to 120 %
Resolution 0.1 %
Flue gas loss (calculated)
Measuring range 0 to 99.9 %
Resolution 0.1 %
Flue gas dewpoint (calculated)
Measuring range 0 to 99.9 °Ctd
Resolution 0.1 °Ctd
Flue gas CO₂ calculation (calculated from O₂)
Measuring range 0 to CO₂ max
Accuracy ±0.2 Vol.%
Resolution 0.1 Vol.%
Reaction time t₉₀ < 40 s
General technical data
Weight 960 g
Dimensions 283 x 103 x 65 mm
Operating temperature -5 to +50 °C
Product-/housing material TPE PC
Protection class IP40
Connectable probes 1 x flue gas probe; 1 x temperature probe; 1 x differential pressure
Product colour Black
Battery life > 6h (Pumpe an, Displaybeleuchtung aus, bei 20°C)
Display type graphic Display
Display size 160 x 240 pixels
Display function Graphic display
Power supply Battery block 3.7 V / 2.4 Ah, Mains unit 6.3 V / 2 A
User defined fuels 10 user-defined fuels incl. test gas as fuel
Pump flow 0.6 l/min (regulated)
Hose length max. 7.8 m (corresponds to two probe hose extensions)
Max. pos. press./flue gas 50 mbar
Max. neg. press./flue gas -200 mbar
Maximum memory 100 folders
Storage per folder Max. 10 sites
Storage per site Max. 200 logs
Miscellaneous The max. number of logs is determined by the number of folders or sites
Interface Bluetooth®; USB; IR/IRDA interface; gas outlet; Mains connection; probe input/ probe inputs; Differential Pressure
Storage temperature -20 to +50 °C

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