The development with the C-3500 flame depth calorimeter was mostly for the measurement of combustion chamber heat fluxes in ability building facilities. The calorimeter temperature sensor allows the immediate and instantaneous electricity analysis of combustion chamber gasses for ideal stoichiometric gasoline/air blend. Also, the calorimeter is broadly Utilized in verifying warmth source intensities at distinct cracking tower stations alongside the complete oil refinery system, which assures process repeatability. One more critical application is applied to the flame testing of elements and elements beneath Federal Aviation Polices. Other programs consist of electricity technology, hotbox flame Handle, jet exhaust output, normal gas Power articles, reactor output, furnace intensity and a number of other ASTM flame take a look at evaluations.

The flame depth temperature sensor is really a one.00 – 2.00 inch diameter, rod which is positioned in direct contact with the heated gasses. The sign produced is  cảm biến nhiệt độ specifically proportional for the area warmth flux; a radial traverse on the supply yields a measure of the entire electrical power output. The sensor yields D.C. millivolt alerts that can be measured with typical millivolt meters or recorders.

How the Calorimeter Will work

The C-3500-3600 Flame Calorimeter would be to be inserted by way of a port immediately into your combustion fuel stream. The HT-fifty Superior Temperature Heat Flux Transducer is welded and warmth sunk to the site 50mm within the suggestion in the C-3500 Probe(C-3600 has sensor at suggestion of probe). The location of the sensor is on precisely the same aspect since the h2o discharge port and continues to be briefly marked for your advantage. This location should be mentioned and located so that the combustion gasses impinge specifically on it. The best detected fluxes will come about in the event the sensor place is at 900 or at a stagnation issue to your flame front.

The calorimeter involves an internal water feeding tube inside the hollow cylindrical probe. Awesome h2o enters from the inner tube and flows out through the annular gap amongst the inner tube and internal wall in the outer probe tube. A Regulate system may differ the speed of move of drinking water to take care of The within temperature of your probe wall at a constant value. H2o coolant ought to be supplied towards the probes rear inlet at a movement charge of 10 – twenty Liters/Moment. Boiling from the cooling water need to in no way be authorized, for very large thermal flux premiums, the h2o/coolant flow level should be elevated until the exit h2o temp is tepid. The standard heat flux is calculated by multiplying the C-3500-3600 Calibration Constant from the measured DC micro-voltage.