Thermocouple modeling
Abstract
The temperature measurements provided by thermocouples (TCs) are important for the operation of pressurized water reactors. During severe inadequate core cooling incidents, extreme temperatures may cause type K thermocouples (TCs) used for core exit temperature monitoring to perform poorly. A model to TC electrical behavior has been developed to determine how TCs react under extreme temperatures. The model predicts the voltage output of the TC and its impedance. A series of experiments were conducted on a length of type K thermocouple to validate the model. Impedance was measured at several temperatures between 22 C and 1100 C and at frequencies between dc and 10 MHz. The model was able to accurately predict impedance over this wide range of conditions. The average percentage difference between experimental data and the model was less than 6.5%. Experimental accuracy was + or - 2.5%. There is a striking difference between impedance versus frequency plots at 300(0)C and at higher temperatures. This may be useful in validating TC data during accident conditions.
- Publication:
-
NASA STI/Recon Technical Report N
- Pub Date:
- 1984
- Bibcode:
- 1984STIN...8524273F
- Keywords:
-
- Electric Potential;
- Electrical Measurement;
- Impedance;
- Impedance Measurement;
- Models;
- Thermocouples;
- Cooling Systems;
- Reactor Safety;
- Temperature Measurement;
- Temperature Measuring Instruments;
- Instrumentation and Photography