Development of C-3500 flame intensity calorimeter, especially for measurement of combustion heat fluxes in power generation facilities. The calorimeter temperature sensor allows evaluation of the direct and instantaneous power of the combustion chamber for the best stoichiometric fuel / air mixture. In addition, the calorimeter is widely used in verifying the intensity of heat sources at different crack tower stations throughout the complete oil refinery process, which guarantees repetition of the process. Other important applications are applied to the testing of materials and components under Federal Aviation Regulations. Other applications include power generation, hotbox fire control, jet exhaust output, natural gas energy content, reactor output, furnace intensity and some ASTM flame test evaluations.
The temperature sensor of the flame intensity is 1.00 - 2.00 inches in diameter, the rod placed in direct contact with the heated gas. The resulting signal is directly proportional to the local heat flux; the radial traverse of the source produces the total power output size. The sensor produces a D.C millivolt signal which can be measured with a conventional millivolt meter or meter.
How Does a Calorimeter Work?
The C-3500-3600 Flame Calorimeter must be inserted through the port directly into the combustion calorimeter indonesia gas stream. The HT-50 High Temperature Heat Flux Transducer has been welded and the heat sinks to a 50mm location from the tip of the C-3500 Probe (C-3600 has a sensor at the tip of the probe). The location of this sensor is on the same side as the drain port and has been temporarily marked for your convenience. This location must be recorded and placed in such a way that the combustion gas directly accompanies it. The biggest detected flux will occur when the sensor location is at 900 or at the point of stagnation to the front of the fire.
The calorimeter includes a deep water filling tube in a hollow cylinder probe. Cold water enters through the inner tube and flows out through the annular gap between the inner tube and the inner wall of the outer probe tube. A control system varies the flow rate to maintain the temperature of the inside of the probe wall at a constant value. Water cooling must be supplied to the probe inlet with a flow rate of 10-20 liters / minute. Boiling of cooling water should not be allowed, because the level of thermal flux is very high, the flow rate of water / cooling must be increased until the temperature of the water comes out warmer. The average heat flux is calculated by multiplying the Calibration Calibration of C-3500-3600 with a measured DC micro voltage.
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