Microwave calorimeter for dielectric and thermal analysis of materials

[EN] A fast method for microwave processing and measurement of dielectric and thermal properties of materials as a function of temperature has been developed (MW-DETA). Unlike previous approaches, the method provides totally new quantitative measurements of the thermal parameters, which are fundamental for calculating the specific heat and in particular, the energy requirements of electrification of materials processing via microwave heating.The in-situ measurement of dielectric properties of the sample with temperature, together with the precise numerical modelling of the thermal process, provided the necessary information to quantify the thermal and microwave losses and, therefore, the precise amount of power delivered to the sample that is converted into heat.Compared to conventional calorimeters, microwave heating reduces the experimental time and improves the uniformity of heating, which leads to a fast and reliable method to determine the thermal properties of the material under test with different operation modes, either constant or variable heating rates.The functionality of the thermal parameters measurement system has been demonstrated by heating and measuring a ceramic sample of Macor up to 400 degrees C. Accuracy reached in the thermal process has been validated by comparison with a conventional DSC analysis. This research project has received funding from the Ministerio de Universidades by the European Union- NextGenerationEU programme under the grant Margarita Salas (MS/2) . Funding for open access charge: CRUE-Universitat Politecnica de Valencia. Sánchez-Marín, JR.; Gutiérrez Cano, JD.; Plaza González, PJ.; Penaranda-Foix, FL.; Catalá Civera, JM. (2022). Microwave calorimeter for dielectric and thermal analysis of materials. Energy. 263. https://doi.org/10.1016/j.energy.2022.125909