A passive heat exchanger design for

A passive heat exchanger design for process intensification, reduced flow fluctuations, pressure-drop and
fouling is evaluated experimentally. A primal geometry of two unequally sized cylinders placed in tandem
arrangement under cross-flow is initially examined in order to establish the effect on the wake fluctuations,
compared to the single cylinder case. Three pairs of cylinders were considered with a diameter
ratio of d/D = 0.5 and at different longitudinal pitches, SL/D = 1.5, 2.0 and 2.5, at the subcritical Reynolds
number of ReD = 3900. The streamwise velocity fluctuations in the wake of the cylinders were found to be
lower for the cylinder pairs as compared to the case of the single cylinder. The preferred primal arrangement
with unequally sized cylinders was extended to form a heat exchanger tube bundle, where the
effect of the transverse distance between the tubes (ST/D) was also studied. Three tube bundle configurations
were examined with d/D = 0.5, SL/D = 1.5 and ST/D = 3.6 and ST/D = 2.5, and a common arrangement
with d/D = 1.0, SL/D = 2.5 and ST/D = 3.6. Measurements were performed with regard to the heat
transfer on the external surface of the tubes and the pressure drop across each configuration. When compared
to the conventional tube bundle arrangement, the arrangement with d/D = 0.5, SL/D = 1.5 and
ST/D = 3.6 led to specific (per unit volume) heat transfer enhancement by 40% with indications of a negligible
penalty in pressure drop.