All contact type of temperature sensors such as thermocouples, RTD's, thermistors, bi-metallic thermometers, etc. are subject to an error we call the "STEM EFFECT' (SE). When a probe is immersed into a gas or a liquid environment, a new thermal conductive path is created by the probe's stem. Thus, heat is conducted away from the sensing tip via the probe's stem to the outer atmosphere. This results in the sensing tip reading a temperature which is lower than the surrounding gas or liquid.
Several years ago, NANMAC conducted an experiment to determine the magnitude of the errors produced by the "Stem Effect". The experiment consisted of a container of hot water surrounded by a reservoir of cold water. The hot water was kept hot by an immersion type heater and the cold water was kept cold by a simple circulating pump and cooling radiator. A gradient of about 80 deg. F was thus maintained over extended time periods.
The temperatures in the hot and cold reservoirs were continuously monitored by laboratory thermometers with an accuracy of + .5 deg. F. The carbon steel hot water tank had a dimension of 5" O.D. with a wall of 1/2" thickness.
Four thermocouples, each with a different style of thermal junction,were installed in the wall of the hot water tank and aligned flush with the inner surface of the tank. All thermocouples were in direct contact with the hot water. All units had iron/constantan elements and the outputs were monitored by the same pyrometer through a thermocouple selector switch. In addition, all thermocouples were made from the same lot of wire and resistances were matched.
Thermocouples T-1, T-2 and T-3 are conventional type thermocouples, and T-4 is the "Right Angle" unit with ribbon elements. The conventional style thermal junctions produced errors of from 10% to 66% in the observed temperature changes while the "Right Angle" thermocouple showed no measurable errors due to conduction,
The Patented "Right Angle" thermocouple features a thermal junction at right angles to the longitudinal axis of the probe. The thermal elements consist of ribbons electrically welded together at the sensing tip. These ribbon elements are brought out to the opposing sides of the probes along the interface of a rod and cone assembly made out of high temperature insulation. The ribbons in the vicinity of the thermal junction are parallel to the plane of heat flow. Thus both the thermal junction and the ribbons are heated simultaneously and conduction errors are minimized. The distance from the junction to the corners of the ribbon elements divided by the junction thickness produces a ratio of 20 to 1. This ratio is the reason why the ribbon thermocouples have an insignificant error caused by the "Stem Effect". Ribbon elements also have response times in the low milliseconds to transients.
For more information on the NANMAC "Right Angle" thermocouples contact TALON Technical Sales.
Posts
0 comments:
Post a Comment