Development of Characteristic Equation for Thermometer P M V Subbarao Professor Mechanical Engineering Department Clues for Design of a thermometer ….

Common Thermometers (1)An element (2)Bobbin (3)Sheath (4)Connecting wires Liquid in Glass Thermometer Thermocouple Thermometer Resistance Thermometer

Development of Characteristic Equation for a Thermometer Conservation of Energy during a time dt Heat in – heat out = Change in energy of thermometer

Thermal Resistance of Thermometer Bulb R g RsRs RgRg RdRd T s (t) T tf (t) Thermometric fluid Assume no losses from the stem. Heat in = Change in energy of thermometer

System heat transfer coefficients in W/m 2 20 °C

Change in energy of thermometer:

Thermal Resistance of Thermometer Bulb R g The energy balance for mercury in the bulb:

The energy balance for the glass wall has both inflow and outflow of heat:

Substitution of relevant expressions and after manipulations we get:

Define Time constant Step Response of Thermometers : First Order Model

Response of Thermometers: Periodic Loading If the input is a sine-wave, the output response is quite different; but again, it will be found that there is a general solution for all situations of this kind.

T s,max - T tf,max 

Temperature: Standards & Insturuments P M V Subbarao Professor Mechanical Engineering Department Selection of an Instrument for a Range….

International Practice The thermodynamic scale of temperature (or the absolute scale) was derived from the second law of thermodynamics. This scale is independent of any thermometric substance. The unit for the absolute scale is K - Kelvin, named after Lord Kelvin (William Thomson). 1K= 1/ th of the temperature at the triple point of water. For practical purposes an International Practical Temperature Scale, IPTS-68 (adopted in 1968) has been used for 22 years. This scale was based on a number of fixed and easily reproducible points. Definite numerical values of temperature were assigned to these points. For interpolation purposes between the fixed points, specified formulas relating temperature to the readings on certain temperature-measuring instruments were used.

NNFixed points : ipts1968 Temperature,  C 1.Triple point of equilibrium-hydrogen (s+l+v) Boiling point of equilibrium hydrogen (l+v) at kPa Normal boiling point of equilibrium hydrogen at Pa Normal boiling point of neon Triple point of oxygen Normal boiling point of oxygen Triple point of water Normal boiling point of water100 9.Normal freezing point of zinc (s+l) at Pa Normal freezing point of silver (s+l) at Pa Normal freezing point of gold (s+l) at Pa

NFixed points:its1990 Temperature,  C 1.Normal boiling point of helium to Triple point of equilibrium-hydrogen (s+l+v) Boiling point of equilibrium hydrogen (l+v) at kPa  Normal boiling point of equilibrium hydrogen at Pa  Triple point of neon Triple point of oxygen Triple point of argon Triple point of mercury Triple point of water Melting point of gallium Normal freezing point of indium (s+l) at Pa Normal freezing point of tin (s+l) at Pa Normal freezing point of zinc (s+l) at Pa Normal freezing point of aluminium (s+l) at Pa Normal freezing point of silver (s+l) at Pa Normal freezing point of gold (s+l) at Pa Normal freezing point of copper (s+l) at Pa

Accuracy Realization of Temperature Scale