Abstract
Heat transfer in essence is the transport of thermal energy along certain paths in
a similar way as fluid motion is the transport of fluid parcels along fluid paths. This similarity admits Lagrangian heat-transfer analyses by the geometry of such "thermal paths" analogous to well-known Lagrangian mixing analyses. Essential to Lagrangian heat-transfer formalisms is the reference state for the convective flux. Existing approaches admit only uniform references. However, for convective heat transfer, a case of great practical relevance, the conductive state that sets in for vanishing fluid motion is the more natural reference. This typically is an
inhomogeneous state and thus beyond the existing formalism. The present study closes this gap by its generalisation to non-uniform references and thus substantially strengthens Lagrangian methods for thermal analyses. This ansatz is demonstrated by way of a 2D case study and offers new fundamental insight into thermal transport that is complementary to the Eulerian picture based on temperature and heat-transfer coefficients.
Original language | English |
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Title of host publication | Proceedings of the 6th Termal Sciences Conference (Eurotherm 2012), 4-9 September 2012, Poitiers, France |
Publisher | Institute of Physics |
Publication status | Published - 2012 |
Event | 6th European Thermal Sciences Conference, EUROTHERM 2012 - Poitiers, France Duration: 4 Sept 2012 → 4 Sept 2012 Conference number: 6 |
Publication series
Name | Journal of Physics: Conference Series |
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ISSN (Print) | 1742-6588 |
Conference
Conference | 6th European Thermal Sciences Conference, EUROTHERM 2012 |
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Abbreviated title | EUROTHERM 2012 |
Country/Territory | France |
City | Poitiers |
Period | 4/09/12 → 4/09/12 |