Pressure drop in a close-coupled double bend in pneumatic conveying of,fly ash is studied. Tests are carried out with a 6.35 cm (2.5 in) diameter 169.8 m (557 ft) long pipeline with various combinations of airflow, ash,flow, phase density, and conveying velocity. The pressure drop across two close-coupled 90-degree bends is compared to the pressure drop in an isolated single 90-degree bend. Six ash samples of different physical and chemical compositions are used in the tests. Resulting bend pressure drops are correlated to the corresponding phase density and superficial air velocity at the bend inlet. The correlation pattern represented by the relationship DeltaP(solids)/SLR = Y1 . VY2 is established and found to vary with ash properties. For both single and close-coupled double bends and operating test conditions with DeltaP(solids)/SLR > 0.15 at the bend entry, 86 0 of tire measured test points fall within the range of +/-20% of the DeltaP(solids)/SLR calculated point. Below this threshold, the test results shoo that the pressure drops due to solids flow through a close-coupled double bend and single bends are often indistinguishable. Consequently, the loss through a close-coupled double bend cannot be considered as the cumulative effect of two isolated single bends.