Özet:

In this study, an analytical, numerical and experimental study was carried out on a closed cycle thermophone in a straight-course form. In the heating and cooling areas that are at the bottom of the thermophone cycle, the fixed surface temperature limit condition is used, for the fully advanced laminer flow in the circular pipe, one-dimensional analytical and two-dimensional numeric resolution is made. In the heat transfer areas, one-dimensional analytical approach obtained by fixed surface temperature acceptance has been shown to be inadequate in determining flow and heat transfer. In the two-dimensional approach, the quantity of heat transfer, fluid speed and temperature obtained from the numerical model is consistent with the results obtained from experimental studies where the Reynolds number is up to 310. On the contrary, in the Reynolds numbers above this value; the results obtained from experimental studies and the numerical model; due to the turbulence effects in the flow, it is not enough to determine the flow speed and temperature. But, in the calculation of the transferred temperature in the system; the binary model is sufficiently compatible with the numerical results.

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