Measurement of suspended sediment for model experiments using general-purpose optical sensors

Abstract

A specialized measurement system for measuring suspended sediment concentration in model experiments was developed; it utilizes general-purpose optical sensors to perform measurements. A photoelectric sensor was used for measuring the transmitted light, and a fiber optic sensor was used for measuring the backscattered light. The values of the light absorbance and intensity of backscattered light for turbid standard solutions measured with these sensors show a linear relationship with the turbidity. The calibration lines for sand particles with a large settling velocity were established by using a calibration tank containing upwelling water. The vertical profiles of the sediment concentration measured with the photoelectric sensor corresponded well to those of the sediment concentration measured with a water sampler in an artificial channel. This result suggests that the measurement system using a photoelectric sensor functions satisfactorily. The sediment concentrations measured using the fiber optic sensor correlate well with the concentrations measured through siphon sampling; however, the values measured with the fiber optic sensor are approximately 25% larger than those measured with the siphon. This disagreement may result from the differences in the optical conditions between the calibration tank and the actual channel. Thus, it may be possible to utilize fiber optic sensors calibrated on the basis of siphon sampling for the measurement of sediment concentration.