SUBSTANTIATION AND DEVELOPMENT OF TECHNOLOGY FOR PRODUCING DRIED MOULDED SEA CUCUMBER PRODUCTS

Far Eastern sea cucumber is a biologically valuable object of aquaculture and marine fishing on the Eastern coast of the Russian Federation. The manufacture of food products from sea cucumber and expansion of the range of such products are relevant economic issues for the Far East. An important technological task is the creation of a sea cucumber product with a functional orientation, with attractive consumer properties and low moisture content. The aim of the work is to develop the technology for producing dried products from Far Eastern sea cucumbers, allowing their biologically active chemical compounds to be preserved and a ready product having a prolonged shelf life with high organoleptic characteristics to be obtained. As a result of experimental studies, a recipe, production scheme and technological parameters for a new dried sea cucumber product are substantiated. The developed product is approved by STO 00471515-054-2017 «Snacks from dried sea cucumber». The quality evaluation of the finished product according to its organoleptic and physicochemical parameters is implemented, and its biological value is confirmed. Dried sea cucumber snacks meet the microbiological parameter requirements of EAEU TR 040/2016 «On the safety of fish and fish products». The shelf life of the dried moulded product from the sea cucumber in a sealed package is evaluated and confirmed.

Far Eastern sea cucumber, biological value, technology, dryer, snack products

1. Левин В.С. Дальневосточный трепанг. Биология, промысел, воспроизводство. СПб: Голанд, 2000. С. 146-147.

2. Wijesinghe W., Jeon J. et all. Anticancer activity and mediation of apoptosic in human HL - 60 leuraemia cells by adible sea cucumber (Holothuria edulis) extract // Food Chemistry. 2013. V. 139. P. 326-331.

3. Kariya У., Wаtаbе S., Ochiai У., Hashimoto К., Мurаtа К. Glucosamino-Glycan from thе Воdу Wall оf the sеа cucumber Stichopus japonicus // Соmр. Biochem. Physiol. 1990. V. 95В, N 2. Р. 387-392.

4. Kim S., Ravichandran Y., Kong C. Applications of calcium and its supplement derived from marine organisms // Critical Reviews in Food Science and Nutrition. 2012. V. 6, Is. 6. P. 469-474.

5. Максимова С.Н., Ким А.Г., Федосеева Е.В., Полещук Д.В. Характеристика трепанга как ценного объекта аквакультуры для получения физиологически полезных продуктов // Известия вузов. Прикладная химия и биотехнология, 2017. Т. 7, N 3. С. 92-98. https://doi.org/ 10.21285/2227-2925-2017-7-3-00-00

6. Аминин Д.Л., Шевцова Е.Б., Анисимов М.М., Кузнецова Т.А. Спектрофотометрическое определение стихопозида А из голотурии Stichopus Japonicus S. // Антибиотики.1981.Т. 26, N 8. С. 585-588.

7. Шульгин Ю.П., Шульгина Л.В., Петров В.А. Ускоренная биотис оценка качества и безопасности сырья и продуктов из водных биоресурсов. Владивосток: Изд-во ТГЭУ, 2006. 124 с.

8. Потапова В.А., Мезенова О.Я. Использование вторичного рыбного сырья для производства снековой продукции повышенной биологической ценности // Рыбное хозяйство. 2014. N 5. С. 93-95

9. Нехамкин Б.Л., Деменева Е.Ю. О технологических параметрах рыбных снеков, стойких в хранении: материалы 6-й Международной научно-практической конференции «Производство рыбной продукции: проблемы, новые технологии, качество». Калининград, 2007. C. 168-170.

10. Neiva C. R. P. et al. Fish crackers development from minced fish and starch: an innovative approach to a traditional product // Food Science Technology (Campinas). 2010. V. 31, N 4. P. 672-678.

11. Duan X., Zhong M., Mujumdar A.S. Study on a combination drying technique of sea cucumber // Drying Technology. 2007. 25 (12). P. 2011-2019.

12. Khaoula Telahigue, Tarek Hajji. Effects of drying methods on the chemical composition of the Sea Cucumber Holothuria forskali // The Open Food Science Journal. 2014. N 8. P. 1-8.

13. Duan X., Zhong M., Arun S., Mujumdar, S. Wang. Microwave freeze drying of sea cucumber (Stichopus japonicus) // Journal of Food Engineering. 2010. V. 96. P. 491-497.