Abstract
Considering the need for sustainable development in packaging production and environmental protection, a material based on lyophilized protein structures intended for frozen food packaging was produced and its selected thermophysical properties were characterized. Analyses of density, thermal conductivity and thermal diffusivity were performed and strength tests were carried out for lyophilized protein structures with the addition of xanthan gum and carboxymethyl cellulose. Packagings were made of new materials for their comparative assessment. Then, the surface temperature distribution during thawing of the deep-frozen product inside the packaging was tested. In terms of thermal insulation capacity, the best properties were obtained for sample B4 with a thermal conductivity of λ = 0.06 W∙(mK)−1), thermal capacity C = 0.29 (MJ∙(m3K)−1) and thermal diffusivity a = 0.21 (mm2∙s−1). The density and hardness of the obtained lyophilized protein structures were significantly lower compared to foamed polystyrene used as a reference material. Thermal imaging analysis of the packaging showed the occurrence of local freezing. Lyophilized protein structures obtained from natural ingredients meet the needs of consumers and are environmentally friendly. These were made in accordance with the principles of sustainable development and can be an alternative material used for the production of frozen food packaging.
Highlights
Packaging is an important factor in maintaining food quality and commercial attractiveness, facilitating its transport at the same time
At the same time, packaging made in accordance with the principles of sustainable development must be safe for health, life and the environment [5,6,7]
This paper discusses the need for sustainable development in packaging production to protect the environment, and a material based on lyophilized protein structures for frozen food has been produced and its selected thermophysical properties have been characterized
Summary
Packaging is an important factor in maintaining food quality and commercial attractiveness, facilitating its transport at the same time. Innovations play a special role in modifying packaging functionality and improving its barrier, strength and aging resistance properties while avoiding the use of environmentally harmful materials This contributes to the creation of a new generation of packagings that allow to maintain and even improve the quality of the packaged product, which is a very desirable feature, especially in the case of food packaging [1,2]. This paper discusses the need for sustainable development in packaging production to protect the environment, and a material based on lyophilized protein structures for frozen food has been produced and its selected thermophysical properties have been characterized. The present work used xanthan gum and carboxymethylcellulose as a crosslinking agents to form a potentially new natural and biodegradable materials For this purpose, prototype packagings were made from the obtained lyophilized structures. The thawing kinetics of food stored in these packagings and in packaging made of foamed polystyrene were compared
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