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High Temperature Measurement System Design for Thermoelectric Materials In Power Generation Application

Published online by Cambridge University Press:  01 February 2011

Sim Loo
Affiliation:
Electrical and Computer Engineering Department, Michigan State University, 2120 Engineering Building, East Lansing, MI 48824–1226
Jarrod Short
Affiliation:
Electrical and Computer Engineering Department, Michigan State University, 2120 Engineering Building, East Lansing, MI 48824–1226
Kuei Fang Hsu
Affiliation:
Chemistry Department, Michigan State University East Lansing, MI 48824–1322
Mercouri Kanatzidis
Affiliation:
Chemistry Department, Michigan State University East Lansing, MI 48824–1322
Tim Hogan
Affiliation:
Electrical and Computer Engineering Department, Michigan State University, 2120 Engineering Building, East Lansing, MI 48824–1226
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Abstract

Recent interest in thermoelectric materials for power generation applications has initiated the development of a measurement system in our laboratory for characterization of materials in the 80K to 800K temperature range. This system has been specifically designed for measuring thermoelectric power and electrical conductivity as needed for determining the power factor of the measured samples. This is a single sample measurement system based on a continuous flow cryostat. Significant effort has gone into the computer controlled data acquisition and PID controlled temperature stabilization. Investigation of the influence of temperature stability on the measured data will be presented along with important aspects of the system design, development, and testing. Data collected on reference materials and new thermoelectric materials of interest will be presented.

Type
Research Article
Copyright
Copyright © Materials Research Society 2004

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References

REFERENCES

[1] Loo, S. and Hogan, T., publication in process.Google Scholar
[2] Al-Obaidi, T. A. and Goldsmid, H. J., “Determination of the Thermoelectric Figure of Merit from Thermal Conductivity Measurements,” Energy Conversion, Vol. 9, pp. 131132, 1969.Google Scholar
[3] LakeShore User's Manual Model 330 Autotuning Temperature Controller, 11 August 1998, Chapter 3.3.5 Manual control settings (PID), pg. 310 to 3–11.Google Scholar
[4] Loo, S., Hogan, T. P., “High Temperature Power Factor Measurement System for Thermoelectric Materials,” 204th Electrochemical Society conference, October 12–16 2003, Orlando, FL.Google Scholar