TECHNIQUE FOR CALCULATING THE PARAMETERS OF THERMOELECTRIC HEAT FLUX SENSORS

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DOI:

https://doi.org/10.30890/2709-2313.2023-21-01-025

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References

Geraschenko, O. (1971). Fundamentals of heat flow measurement (192 p.). Kiev: Naukova dumka.

Gryschenko, T., Dekusha, L., Vorobiov, L. and others. Ed. Gryschenko, T. (2017). HEAT FLOW MEASUREMENT: theory, metrology, practice. Book 1. Methods and means of heat flux measuring. Kyiv: Institute of Engineering Thermophysics.- 493 p.

Gryschenko, T., Dekusha, L., Vorobiov, L. (2009). A heat flow and methods of measurement. Metrology and Instrumentation, Vol. 2 (2307-2180), p. 3-11.

Geraschenko, О., Gryschenko, T., Dekusha, L. (1990). The technique constructing optimal heat flow transducers. Problems of Energy Saving, Vol. 3, p. 36-42.

Dulnev, G., & Zarichnyak, Y. (1974). Thermal conductivity of mixtures and composite materials (264 p.). L: Energy.

Gryschenko, T., Dekusha, L., Vorobiov, L., Shmarov, I. (2012). Effective thermal resistance of heat flow transducer type auxiliary wall. Metrology and Instrumentation, Vol. 6 (2307-2180), p. 20-26.

Kovtun, S., Gryschenko, T., Dekusha, L., Vorobiov, L. (2008). Instrumental verification scheme to ensure a heat flow measurement. Measuring Equipment and Metrology,68 (0368-6418), p. 126-133.

Van der Graaf, F. (1990). Heat-flux Sensor. In Thermal Sensors (Chapter 8., Vol. 4, 28 p.). Weinheim.

Published

2023-06-30

How to Cite

Gryshchenko, T., Dekusha, L., Vorobiov, L., & Dekusha, H. (2023). TECHNIQUE FOR CALCULATING THE PARAMETERS OF THERMOELECTRIC HEAT FLUX SENSORS. European Science, 1(sge21-01), 84–93. https://doi.org/10.30890/2709-2313.2023-21-01-025