Obiettivo
Modern machines, energy production equipment, composite materials, ceramics, glass production equipment, and other materials work under extreme thermal conditions and aggressive media, at high temperatures and thermal loads. Under such conditions traditional methodology cannot give satisfactory values for different thermal quantities, in particular for heat fluxes, thermophysical and optical characteristics, because such heat transfer processes can be multi-dimensional, transient, and complicated by scattering, transformations of separate components, and anisotropy of optical and thermal properties. Difficulties in the optimization, design and control of thermal processes therefore exist because of uncertainties in the above quantities. The methods of structural and parameter identification based on solving inverse heat transfer problems are the most effective tools for solving these problems.
One of the goal of this project is to preserve the high level of investigation in this field in the NIS. Moreover, French and German partners are interested in exchanging information in this field and transferring the main results to automobile manufacturers, composite material producers, casting and other industries.
The scope of the project is interdisciplinary. The project will combine results obtained in thermal science, thermal measurements, applied mathematics, computer science, design of experiments and data processing. The results of the project will include numerical algorithms for experimental data processing to estimate heat fluxes, thermophysical and optical properties of materials, and recommendations for their practical application.
Argomento(i)
Invito a presentare proposte
Data not availableMeccanismo di finanziamento
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75272 Paris
Francia