Research into effectiveness of using the integrated bread baking improver «Mineral Freshness +» to slow down the staling of bakery products

Authors

DOI:

https://doi.org/10.15587/1729-4061.2018.140333

Keywords:

integrated bakery improver, wheat loaf, staling, gluten, structural and mechanical properties of dough

Abstract

Nutritionists recommend elderly people to eat bakery products that were baked on the previous day and enriched with mineral substances. That is why the relevant problem of the baking industry is extension of freshness retention by bakery products for gerodietary purposes. To solve the stated problem, it is recommended to use food additives and ingredients with the GRAS status and integrated bakery improvers. To prolong freshness of bakery products, we developed the integrated bakery improver «Mineral Freshness +», composed of white pharmacopoeian clay, carboxymethylcellulose, emulsifier, amylolytic enzyme preparation, ascorbic acid, maltodextrin and apple pectin. The technological effectiveness of using the integrated bakery improver «Mineral Freshness +» in order to slow down products’ staling was proved. The optimal dosage of the improver was found to be 1.5 % of the weight of flour.

The regularities of the influence of the integrated bakery improver «Mineral Freshness +» on the formation of the structural-mechanical properties of dough were determined. It was established that its introduction in dough leads to an increase in the amount of gluten in it and its elastic properties, improves plastic properties of dough, resulting in shorter kneading. Given the intensification of the dough fermentation process at the use of the improver, we recommend applying it in the accelerated technologies, specifically, the fermentation process must be replaced with the process of resting that lasts 30 minutes.

It was found that the products with addition of the integrated bakery improver «Mineral Freshness +» retain freshness better, which is proved by a decrease in friability of crumb, as well as by in increase in its overall deformation and hydrophilic properties. A positive impact of using the integrated bakery improver «Mineral Freshness +» on microbiological indicators was observed, which testifies to its impact on inhibition of the processes of microbiological spoilage of products.

The results of the comprehensive research prove the usefulness of the integrated bakery improver «Mineral Freshness +» in the technology in bakery products to increase their freshness retention up to 72 h of storage without being packaged.

Author Biographies

Olena Bilyk, National University of Food Technologies Volodymyrska str., 68, Kyiv, Ukraine, 01601

PhD, Associate Professor

Department of Bakery and Confectionary Goods Technology

Yulia Bondarenko, National University of Food Technologies Volodymyrska str., 68, Kyiv, Ukraine, 01601

PhD, Associate Professor

Department of Bakery and Confectionary Goods Technology

Mykola Desyk, National University of Food Technologies Volodymyrska str., 68, Kyiv, Ukraine, 01601

PhD

Department of Machines and apparatus of food and pharmaceutical productions

Anatoliy Sokolenko, National University of Food Technologies Volodymyrska str., 68, Kyiv, Ukraine, 01601

Doctor of Technical Sciences, Professor

Department of Mechatronics and Packaging Technology

Volodymyr Kovbasa, National University of Food Technologies Volodymyrska str., 68, Kyiv, Ukraine, 01601

Doctor of Technical Sciences, Professor

Department of Bakery and Confectionary Goods Technology

Vоlоdymyr Bondar, National University of Food Technologies Volodymyrska str., 68, Kyiv, Ukraine, 01601

PhD, Associate Professor

Department of Thermal Power and Refrigeration Engineering

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Published

2018-08-09

How to Cite

Bilyk, O., Bondarenko, Y., Desyk, M., Sokolenko, A., Kovbasa, V., & Bondar, V. (2018). Research into effectiveness of using the integrated bread baking improver «Mineral Freshness +» to slow down the staling of bakery products. Eastern-European Journal of Enterprise Technologies, 4(11 (94), 69–78. https://doi.org/10.15587/1729-4061.2018.140333

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Section

Technology and Equipment of Food Production