Application of skimmed milk freeze concentrated in production of ice cream: physical, chemical, structural and rheological properties

Callebe Camelo-Silva,Amanda Alves Prestes,Ramon Silva,Silvani Verruck,Veronica Maria De Araujo Calado,Celso Fasura Balthazar,Erick Almeida Esmerino,Elane Schwinden Prudêncio,Bruna Marchesan Maran,Eulália Lopes Da Silva Barros,Maria Helena Machado Canella,Maryella Osório Vargas

doi:10.1590/fst.12221

Abstract

Freeze concentration process was used to concentrate milk until the third stage of freeze concentration. Thus, two samples of ice creams were manufacture, one with milk and the other with concentrated milk from the first stage of block freeze concentration, and denominated ice cream 1 and ice cream 2, respectively. Both ice creams were characterized according to physicochemical characteristics, overrun, microscopy, melting rate, texture, color, and rheological properties. The use of concentrated milk influenced the physicochemical properties of ice cream 2, promoting an increase in the total solids, protein, carbohydrates, and ashes content. Moreover, it was noted that ice cream 2 had a higher overrun, lower firmness, smaller ice crystals, and tended to color greenish and yellowish, however had a higher melting rate and larger hysteresis area. The models of the Power Law and Casson satisfactorily described the rheological behavior of ice creams, which proved to be a Newtonian fluid.

Highlights

Ice cream is considered the most known milk dessert worldwide, reaching a global consumption of 2 L per person/ year (Góral et al, 2018)
It was observed that the process efficiency was higher (p < 0.05) in the first freeze concentration stage, indicating higher total solids content in the concentrated milk fraction
These results indicated a greater recovery of solids content in the

Summary

Introduction

Ice cream is considered the most known milk dessert worldwide, reaching a global consumption of 2 L per person/ year (Góral et al, 2018) This food is a complex aerated emulsion containing milk proteins and fats that have an important role in stabilizing its structure. According to Góral et al (2018), the primary ingredient in ice cream is cow’s milk, which contains several beneficial substances for the human body, such as protein, fat, lactose, vitamins, and mineral compounds To concentrate these milk substances, the technology of freeze concentration stands out, since it is known as the best concentration method in terms of preserving the original quality of the product. The efficiency of the process depends mainly on the purity of the ice fraction (Aider et al, 2009)

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