Abstract
This work evaluated the effect of microfluidization at different pressure (50, 100, 150, and 200 MPa)-cycle (1, 3, 5, 7) combinations on the physicochemical (total soluble solids, titratable acidity, pH, and electrical conductivity), sensory, and metal/mineral composition of sugarcane juice which was previously unexplored. Juice extracted from blanched sugarcane stems (var Co 0238) was microfluidized, and the analysis for different parameters was conducted using standard protocols. The mineral/metal composition was determined using ICP-OES following a wet digestion method. Results showed that TSS decreased from 18.88 °Brix to a range of 10.15–15.7 °Brix with the former (lower value) being due to the release of insoluble matter after microfluidization which was further solubilised at higher processing cycles (as in the latter). The pH did not vary significantly as compared to control and was in the range of 5.2–5.7. However, a decrease in titratable acidity (0.1–0.26%) was found as compared to control (0.26%). The electrical conductivity of microfluidized sugarcane juice varied from 4.45 to 5.12 mS as compared to 4.95 mS for control. Metal/mineral analysis showed rich reserves of magnesium, phosphorus, potassium, and calcium in sugarcane juice which degraded after microfluidization perhaps due to filtration effect caused by the micropore in the interaction chamber of the microfluidizer. The sensory score showed acceptability of the juice after microfluidization (overall acceptability ∼7).
Highlights
Microfluidization is an emerging liquid and semisolid food processing technique that has gained popularity in the food sector
A significant decrease in Total soluble solid (TSS) was observed after microfluidization (p < 0.05) that varied in the range of 10.16 ± 1.03 to 15.71 ± 1.49 °Brix
E reduction in TSS with microfluidization is in contradiction to the results observed during high-pressure processing of sugarcane juice,probably due to the nature of pressure augmentation in the two technologies
Summary
Microfluidization is an emerging liquid and semisolid food processing technique that has gained popularity in the food sector. It is a high-pressure processing technology that works on the principle of high-shear force generation with occasional cavitation through a microchannel of fixed geometry. The effect of microfluidization on the Journal of Food Quality physicochemical characteristics of sugarcane juice such as titratable acidity, pH, electrical conductivity, and metal/ mineral composition has not been reported yet. Erefore, this work aims to analyze the effect of microfluidization on the physicochemical, metal/ mineral, and sensory characteristics of sugarcane juice over a wide range of processing conditions (pressure/cycle combinations) to fill the identified knowledge gap The sensory attributes of sugarcane juice as affected by microfluidization has not been evaluated, to the best of our knowledge. erefore, this work aims to analyze the effect of microfluidization on the physicochemical, metal/ mineral, and sensory characteristics of sugarcane juice over a wide range of processing conditions (pressure/cycle combinations) to fill the identified knowledge gap
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
