IMPACT OF THE EXTINCTION BEHAVIOUR OF SIC LATTICES ON THEIR CONDUCTIVE-RADIATIVE HEAT TRANSFERS
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Begellhouse
Reference22 articles.
1. Bayaniahangar R, Okoh I, Nawaz K, Cesarano J, Bigham S. Toward extreme high-temperature supercritical CO2 power cycles: Leakage characterization of ceramic 3D-printed heat exchangers. Additive Manufacturing. 2022;54:102783.
2. Heisel C, Caliot C, Chartier T, Chupin S, David P, Rochais D. Digital design and 3D printing of innovative SiC architectures for high temperature volumetric solar receivers. Solar Energy Materials and Solar Cells. 2021;232:111336.
3. Pelanconi M, Barbato M, Zavattoni S, Vignoles G, Ortona A. Thermal design, optimization and additive manufacturing of ceramic regular structures to maximize the radiative heat transfer. Materials & Design. 2019;163:107539.
4. Pelanconi M, Zavattoni S, Cornolti L, Puragliesi R, Arrivabeni E, Ferrari L, et al. Application of ceramic lattice structures to design compact, high temperature heat exchangers: material and architecture selection. Materials. 2021;14:3225.
5. Ouchtout S, Rousseau B, Favennec Y. Finite element framework for modeling conducto-radiative transfers within heterogeneous media at both discrete and continuous scales. International Journal of Heat and Mass Transfer. 2022;197:123274.
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1. Deterministic and stochastic approaches for the modeling of conduction-radiation coupling within non-Beerian semi-transparent media;Journal of Quantitative Spectroscopy and Radiative Transfer;2024-10
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