Abstract:
This paper is to show that the current work suggests a modification of the temperature
measurement system in a steam-jacketed mixing tank by redesigning and changing the
position of the sensors for accuracy in temperature reading as well as lesser frequency in
calibration. The main issue with the current configuration has been with K-type
thermocouples measuring three simultaneous sources of heat: liquid contents inside the tank,
condensate, and protective jacket heat. Inaccurate measurement and product failure have
resulted from the liquid temperature not well controlled during boiling. Reconfigured to
measure only liquid contents, PT100 sensors will replace K-type thermocouples (accuracy:
0.1–0.5°C).
I tested the performance of the original K-type thermocouples and the modified PT100
sensors using a comparative test method using liquid as purified water. Six tests were
conducted using clean, purified water to guarantee consistent results. I have tested the new
PT100 sensors and the results show that they are more accurate (±0.3°C) than the old
thermocouple (±2.5°C), almost removing measurement error and temperature-related
product defects.
With an 88% accuracy rate in liquid temperature readings, stable readings assist avoid
product failure and lessen the need for calibration. To increase production efficiency and
product quality, other relevant industries should implement system redesigns like to those in
the pharmaceutical sector.
