Physico-chemical Characterization of Turbidity-Causing Particles in Beet Sugar Solutions

Abstract

Abstract The occurrence of turbidity is a frequently observed phenomenon in beet sugar manufacturing, particularly in thick juice. The presence of small dispersed turbidity-causing particles can have a direct impact on the consumer’s perceivable quality of white sugar containing products. Therefore, this work aims to characterize those turbidity-causing particles and elucidate the mechanism of their formation. Samples from various European beet sugar plants were collected during different sugar production periods. The turbidity of white sugar is found to be mainly related to small calcium oxalate particles (0.45–1 µm). Their occurrence is obviously related to the presence of calcium and oxalate. However, the analysis presented documents that beyond the levels of these ions, other factors like storage time, the change of environment due to microbiological processes as well as simple processing steps have a profound effect on turbidity levels. The results confirm that also at an industrial scale calcium oxalate dihydrate precipitates from concentrated sucrose solutions despite the fact that calcium oxalate monohydrate is the most stable form. In summary our analysis of turbidity at an industrial scale marks a starting point for any further turbidity reduction approach.