Sherwood correlation for finger-test experiments
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Abstract
Finger-test experiments are frequently conducted in continuous-wear investigations of ceramic materials. However, mass transfer equations accurately representing these scenarios are not yet available, which can lead to erroneous estimation of dissolution-related parameters due to poor approximations. In this study, a Sherwood correlation for finger-test experiments was developed. The equation applies to rods or nearly cylindrical specimens that are rotated in a liquid contained in a cylindrical receptacle. The equation is derived from numerical results simulating the dissolution of ceramic materials in liquid slags, where the dissolution is dominated by mass transfer in the liquid. For these simulations, surface profiles from the experimental results were employed. Based on the derived equation, a methodology for the calculation of mass transfer coefficients for dissolution processes was designed that enables diffusivity determination. This equation is also suitable for heat transfer calculations. The equation is in agreement with the results obtained by simulation and other documented heat and mass transfer equation, for the latter the fit is poorer due to differences in the experiment configuration.
Details
Original language | English |
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Article number | 100610 |
Number of pages | 5 |
Journal | Results in Engineering |
Volume | 15.2022 |
Issue number | September |
DOIs | |
Publication status | E-pub ahead of print - 27 Aug 2022 |