measured the thermal effectiveness of a cross-flow spiral plate heat exchanger the aim was to convert radiation energy from a combustion chamber. ![]() determined the heat transfer behaviour for a system of two fluids by implementing a countercurrent spiral plate heat exchanger the data were obtained from varying mass fraction inlets and demonstrated efficient results between the experiment and the correlation. Khorshidi and Heidari fabricated a spiral heat exchanger geometry to study the performance, the examination showed that spiral heat exchanger is an excellent option to transfer heat especially from fouling fluids and also a computational fluid dynamic was presented to determine a previous design. ![]() The new correlation was based on the experimental data, and the results were agreement with the theoretical correlation. presented a study to evaluate a new equation to approximate the Nusselt number of an immiscible mixture using a countercurrent spiral heat exchanger for two-phase flow. However, most of the correlations and methods explain the single-phase liquid-liquid, and as a consequence, this is not sufficiently to describe heat transfer and hydraulic behaviour, i.e., two-phase flow in spiral heat exchangers liquid–gas and liquid-vapour. ![]() Spiral plate heat exchangers have important industrial applications particularly, they are suitable for dirty fluids and viscous fluids.
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