J. C. Ferreri
National Scientific and Technical Research Council
37 Papers
141 Citations
J. C. Ferreri is an academic researcher from National Scientific and Technical Research Council. The author has contributed to research in topics: Natural circulation & Discretization. The author has an hindex of 11, co-authored 37 publications. Previous affiliations of J. C. Ferreri include Universidad Argentina de la Empresa.
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Papers
Processes of Formation and Alteration of Archaeological Fire Structures: Complexity Viewed in the Light of Experimental Approaches
TL;DR: In this paper, an experimental approach for studying the formation and transformation processes of archaeological fire structures is presented, and the results and problems associated with experimental fires lit on different kinds of soils and in different environments.
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Analysis of the unstable behaviour of a single-phase natural circulation loop with one-dimensional and computational fluid-dynamic models
D. S. Pilkhwal,Walter Ambrosini,Nicola Forgione,Pallippattu Krishnan Vijayan,D. Saha,J. C. Ferreri +5 more
TL;DR: In this paper, the results obtained using one-dimensional and three-dimensional computational fluid-dynamic codes for the prediction of the dynamic behaviour observed in experiments carried out in a single-phase natural circulation apparatus were discussed.
94
The effect of truncation error on the numerical prediction of linear stability boundaries in a natural circulation single-phase loop
Walter Ambrosini,J. C. Ferreri +1 more
TL;DR: In this article, the effects of truncation error on the stability of natural circulation in a single-phase loop as predicted by finite difference numerical methods are discussed, and a short description of the characteristics of the selected problem is firstly given, also showing results obtained by a modal solution.
66
Stability analysis of single-phase thermosyphon loops by finite-difference numerical methods
Walter Ambrosini,J. C. Ferreri +1 more
TL;DR: In this paper, the effect of truncation error on stability of single-phase natural circulation loops is investigated for thermal-hydraulic system code applications, with the aim to point out the effects of truncations on stability prediction.
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