Abstract

CACERES-ROA, Sergio Alejandro; MORA-GARCIA,, Said Andrey  and  MUVDI-NOVA, Carlos Jesús. Effect of operating parameters and modes in the filtration of acid whey using ultra- and microfiltration ceramic membranes. Ing. compet. [online]. 2023, vol.25, n.1, e-20912002.  Epub Dec 30, 2022. ISSN 0123-3033.  https://doi.org/10.25100/iyc.v25i1.12002.

Whey is a liquid by-product obtained by cheese elaboration, which is not completely used due to the large quantities produced. As a result, the whey is poured into rivers and soils and becomes a pollutant agent. The valorization of acid whey using membrane clarification was evaluated, where the effect of temperature and membrane cut-off were studied using acid whey. Permeability was three times higher at 70°C than 50°C (163.2±11.1 y 62.4±9.2 L/m2.h, respectively) for membranes with a cut-off of 0.2 µm. Furthermore, the permeate flux for this cut-off was three, six and ten times higher compared with the cut-off of 300, 150 y 50 kDa at 70°C, respectively. The clarification stage was scaled-up with 0.2 µm membranes, achieving about 22 L of whey filtered for Batch mode until a volume reduction factor (VRF) of 5 with protein retention of 68%. In Fed-Batch mode, the retention of protein was 61%, but the filtration could be carried out for longer, reducing fouling and filtering almost the double of the quantity of whey compared with Batch mode. In all cases, the turbidity of permeates was lower than 12 NTU (reduction >99%), regardless of whey turbidity whose values might be superior to 12,000 NTU.

Keywords : Ceramic membranes; Acid whey; Protein retention; Turbidity; Permeability.

        · abstract in Spanish     · text in English     · English ( pdf )