The Calorimeter Temperature Sensor

The introduction of the C-3500 flame intensity calorimeter was mainly for that measurement of combustion chamber heat fluxes in power generating facilities. The calorimeter temperature sensor enables the direct and immediate power look at combustion chamber gasses for the best stoichiometric fuel/air mix. Furthermore, the calorimeter is broadly utilized in verifying flame intensities at different cracking tower stations across the complete oil refinery process, which assures process repeatability. Another essential application is used towards the flame testing of materials and components under Federal Aviation Rules. Other applications include power generation, hotbox flame control, jet exhaust output, gas energy content, reactor output, furnace intensity and many ASTM flame test evaluations.

The flame intensity temperature sensor is really a 1.00 - 2.00 inch diameter, fishing rod that's put into direct connection with the heated gasses. The signal generated is directly proportional towards the local heat flux a radial traverse from the source yields a stride from the total output. The sensor yields D.C. millivolt signals that may be measured with conventional millivolt meters or recorders.

The way the Calorimeter Works

The C-3500-3600 Flame Calorimeter will be placed via a port into the combustion gas stream. The HT-50 Hot Temperature Heat Flux Transducer continues to be welded as well as heat sunk to some location 50mm in the tip from the C-3500 Probe(C-3600 has sensor at tip of probe). The place of the sensor is on a single side because the water discharge port and it has been temporarily marked for your benefit. This location ought to be noted and situated so the combustion gasses impinge directly on there. The finest detected fluxes will occur once the sensor location reaches 900 or in a stagnation indicate the flame front.

The calorimeter includes an inner water feeding tube inside the hollow round probe. Awesome water enters with the inner tube and flows out with the annular gap between your inner tube and inner wall from the outer probe tube. A control system varies the speed of flow water to keep the interior temperature from the probe wall in a constant value. Water coolant ought to be provided towards the probes rear inlet in a flow rate of ten to twenty Liters/Minute. Boiling from the cooling water must not be permitted, for high thermal flux rates, waterOrcoolant flow rate should be elevated before the exit water temp is tepid. The typical heat flux is calculated by multiplying the C-3500-3600 Calibration Constant through the measured Electricity micro-current.

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