Photopyroelectric method for determination of thermophysical parameters and detection of phase transitions in fatty acids and triglycerides. Part I: Principles, theory, and instrumentational concepts
- 1 March 1995
- journal article
- Published by Wiley in Journal of Oil & Fat Industries
- Vol. 72 (3) , 273-279
- https://doi.org/10.1007/bf02541082
Abstract
The photopyroelectric (PPE) technique is proposed to detect solid‐to‐liquid phase transitions in fatty acids and triglycerides. Various PPE configurations and cell geometries were used to obtain thermal parameters in the vicinity of the melting points for these samples. In the standard (SPPE) configuration used to determine specific heat, the sample is thermally thin and optically opaque, while the sensor itself is thermally thick. The same configuration, but with a thermally thick sample instead, allows direct measurement of the sample’s thermal diffusivity. The temperature dependence of the thermal effusivity was obtained for a thermally thick sample and a thermally thin sensor [inverse (IPPE) configuration], and for a semitransparent thermally thick sensor by making use of the front configuration.Keywords
This publication has 6 references indexed in Scilit:
- Inverse photopyroelectric detection of phase transitionsApplied Physics A, 1993
- High-resolution simultaneous photothermal measurements of thermal parameters at a phase transition with the photopyroelectric techniqueJournal of Applied Physics, 1992
- Standard Versus New Photopyroelectric (PPE) Techniques: Reflection (RPPE) and Inverse (IPPE) ConfigurationsPublished by Springer Nature ,1992
- Theory of the photopyroelectric method for investigation of optical and thermal materials propertiesPhysical Review B, 1989
- Photopyroelectric detection of phase transitions in solidsApplied Physics A, 1985
- Theory of photopyroelectric spectroscopy of solidsJournal of Applied Physics, 1985