Litcius/Paper detail

Effect of mixing and hydrating time on the structural properties of high-temperature shear cell products from multiple plant-based ingredients

Nienke Köllmann, Kasidaj Sivakul, Lu Zhang, Atze Jan van der Goot

2023Journal of Food Engineering15 citationsDOIOpen Access PDF

Abstract

Mixing and hydrating plant-based ingredients to form a dough is an essential step to produce meat analogues using high-temperature shear cell (HTSC) technology. In this study the effect of mixing and hydrating time on the structural properties of soy protein concentrate (SPC), pea protein isolate (PPI)-wheat gluten (WG) and soy protein isolate (SPI)-WG doughs and HTSC products was investigated. Our results showed mixing and hydrating time minimally affected the structural properties of the dough and corresponding HTSC products of SPC. For both PPI-WG and SPI-WG mixtures, longer mixing resulted in tougher doughs. Additionally, for PPI-WG, mixing the dough to the optimal dough development time led to higher tensile strength of HTSC products. The same effect was not observed for SPI-WG, which showed the importance of ingredient properties in determining structural properties of plant-based meat analogues. These findings offer insights for optimizing processes for meat analogue production through tailored mixing strategies.

Topics & Concepts

Mixing (physics)IngredientGlutenSoy proteinFood scienceChemistryUltimate tensile strengthFood productsCorn gluten mealMaterials scienceRaw materialSoybean mealComposite materialOrganic chemistryQuantum mechanicsPhysicsMeat and Animal Product QualityFood composition and propertiesProteins in Food Systems
Effect of mixing and hydrating time on the structural properties of high-temperature shear cell products from multiple plant-based ingredients | Litcius