An ultrasonic technique developed by Bonnet and Tavlarides for dispersed phase holdup determination in liquid-liquid contactors has been applied in a 0.10 m diameter Scheibel extraction column. The column consists of three alternate mixing and packing sections of 0.03 and 0.055 m in height, respectively. The packings were built with polypropylene mesh with 96% voidage. The liquid-liquid systems were toluene (dispersed)/water (continuous) and MIBK (dispersed)/water (continuous); the Rushton-type impellers were operated at 400, 500 and 600 rpm, and with four dispersed and continuous phase flow rates. In one of the mixing chambers two differnt holdup measuring devices were installed : two ultrasonic transducers and one controlled dispersion sampler. The values of dispersed phase holdup obtained by both methods were compared using statistical methods. It was found that at low agitation and for high interfacial tension, conditions for which the dispersion is not completely uniform, the difference was significant, whereas at high agitation and low interfacial tension the values obtained through both methods were statistically equal. This work demonstrates the applicability of the ultrasonic technique for holdup measurements to Scheibel columns, in which the only technique used so far was sampling. This ultrasonic technique allows us to solve the axial monitoring and control problems of these columns.