Abstract
In this work drop dispersion of disintegrating jets for a liquid–liquid system in a direct contact thermal energy storage pilot was investigated experimentally. The coalescence behavior of the dense packed emulsion layer was linked to the size of drops. It was found that coalescence rates were strongly affected by the drop sizes, where a three-fold increase was achieved by increasing the drop sizes. By varying the number and size of injection nozzles, drop sizes from >1 to <10 mm were produced. Drop size distributions were studied and described in terms of the inlet jet breakup behavior, which was quantified by the Ohnesorge and Reynolds numbers.