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Calibration of Thermocouples

Calibration of Thermocouples. Calibration of Thermocouple. Mr. Jeerawong Kwangsukstit 503-00616-21 Mr. Chayamin Sinpaween 503-00811-21 Ms. Piyakul Laocharoen 503-03218-21 Mr. Nattaphon Chanrat 503-01434-21 Mr. Sarayu Sae-chua 503-05198-21. OUTLINE. Introduction Objective

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Calibration of Thermocouples

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  1. Calibration ofThermocouples

  2. Calibration of Thermocouple Mr. Jeerawong Kwangsukstit 503-00616-21 Mr. Chayamin Sinpaween 503-00811-21 Ms. Piyakul Laocharoen 503-03218-21 Mr. Nattaphon Chanrat 503-01434-21 Mr. Sarayu Sae-chua 503-05198-21

  3. OUTLINE Introduction Objective Experiment Result Discussion Conclusion

  4. Introduction

  5. INTRODUCTION • Temperature is important properties in engineering. • When we design product temperature is to be concerned. • Thermocouples are one of many temperature sensors. • Thermocouples can sensor temperature in wide range

  6. Objective

  7. OBJECTIVE • To calibrate thermocouples type J K T.

  8. Principle of Calibration

  9. Input from calibrator (Temperature) Thermocouple Transducer Output (Voltage)

  10. DATA REDUCTION DIAGRAM emf = V (∆T, M ;Tref ) emf = voltage (millivolt) Tmea = Temperature measurement(˚C) Tref = Temperature reference (˚C) M = Type of Thermocouples (J K T) ∆T = Tmea - Tref (˚C)

  11. emf = V( ∆T, M ; Tref ) Tref{ Thermometer }˚C emf{ HP 973A} mV M {Type Label : J K T} ∆T ( Tmea , Tref ) = Tmea- Tref Tref{ Thermometer }˚C Tmea{ Hakke HK-12206-55 }˚C DATA REDUCTION DIAGRAM

  12. Experiment

  13. Experiment Approach Equipments • Thermocouples type J K T • with an extension wire • Temperature-Control Bath • Multimeter • Ice • water • a bucket • Thermometer Hg type

  14. METHODOLOGY • Put ice and water into a bucket in purpose for equilibrium system which is temperature at 0⁰C. • Open the Temperature-Control bath and set the initial temperature for J K T type respectively. • Set Multi-meter to measure voltage (mV). • Set J type thermocouple with extension wire then do the same with the others. • Collect data from multimeter. • Increase temperature 3⁰C for every measurement. • Plot chart between Temperature and Voltage. • 8. Find the calibration curve.

  15. Result

  16. Regression Method

  17. y = 0.053x - 0.070 R² = 0.999

  18. Total Uncertainty Bias Precision Regression method

  19. Bias Measurement Equipment • Calibrator • Multimeter • Thermometer Hg type Bias = 0.02๐c

  20. y = 0.053x - 0.070 R² = 0.999

  21. Discussion

  22. Discussion • Calibration curve of thermocouples type J K T are about the same to reference calibration curve.

  23. http://www.omega.com/temperature/Z/zsection.asp

  24. Find and Compare the specific values of the three types of Thermo Couples • Including • Linearity • -Resolution • -Sensitivity • -R-Square

  25. Celsius Degree/mV mV/celcius Degree Celsius Degree/mV mV/celcius Degree Celsius Degree/mV mV/celcius Degree

  26. mV/ °C mV/ °C mV/ °C

  27. We can also do the same experiment by MS/ST. • Precisionfrom MS/ST is more than SS/ST but less than bias.

  28. Conclusion • -get calibration curve • -can use it to measure Temperature • -Know the specific values of each types • -can choose themo- couple to work

  29. References http://www.omega.com/temperature/Z/zsection.asp http://www.automationmedia.com/AutomationControls_KnowledgeBaseDetail.asp?ID=%20127 http://www.omega.com/techref/themointro.html

  30. BACK UP Formulas 2

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