Analytical study of the model of capsule formation of the system “Food lipids – calcium alginate”

Authors

DOI:

https://doi.org/10.15587/1729-4061.2017.117109

Keywords:

encapsulation process, sodium alginate, calcium alginate, extrusion head, surface mass exchange

Abstract

At present, a direction of the encapsulation of raw materials, different in origin, is very important in the food and pharmaceutical industries, as evidenced by numerous scientific studies into this issue the world over. The use of ionotropic polysaccharides makes it possible to provide lipid food systems with fundamentally new properties. They enable obtaining traditional oils, fats, and mixtures in the dosed form and in individual edible packaging. This promotes perception of lipid raw material as a product with fundamentally new properties that may change the structure of many technological processes. We substantiated a technique for obtaining seamless capsules with the contents of food lipids, which allowed us to determine physical parameters for the formation of a thermally-stable capsule. It was established that the formation of the resulting lipid capsule with preset organoleptic indicators is possible under conditions of individual structural design of an extrusion head for encapsulation. We derived dependences of the time of formation of the thermodynamic stable capsule “food lipids – Alg2Ca” on the magnitudes that serve as parameters of technological process – the concentration of AlgNa, calcium ions, dimensional characteristics of a capsule, mass ratios of a shell-former and the lipid contents, design features of the device that enable capsule rotation around its axis.

This makes it possible to receive a stable controlled technological process. It was found that the axial rotation of a capsule in the laminar flow of accepting medium at speed which is ensured by a special design of the device, allows the formation of capsules with preset organoleptic, product, technological properties over the analytically determined time

Author Biographies

Olga Neklesa, Kharkiv State University of Food Technology and Trade Klochkivska str., 333, Kharkiv, Ukraine, 61051

PhD, Associate Professor

Department of technology of bread, confectionery, pasta and food concentrates

Yevgeniia Yarantseva, Kharkiv State University of Food Technology and Trade Klochkivska str., 333, Kharkiv, Ukraine, 61051

PhD, Senior Lecturer

Department of Food Technology

Yevgen Pyvovarov, Kharkiv State University of Food Technology and Trade Klochkivska str., 333, Kharkiv, Ukraine, 61051

Doctor of Technical Sciences, Associate Professor

Department of Food Technology 

Olga Grinchenko, Kharkiv State University of Food Technology and Trade Klochkivska str., 333, Kharkiv, Ukraine, 61051

Doctor of Technical Sciences, Professor

Department of Food Technology 

References

  1. Potapov, V., Neklesa, O., Pyvovarov, P. (2017). Analysis of kinetics pattern in the formation and separation of a drop of fluid in the form of a capsule. Eastern-European Journal of Enterprise Technologies, 2 (10 (86)), 32–40. doi: 10.15587/1729-4061.2017.98537
  2. Plotnikova, R. V. (2011). Rozrobka tekhnolohichnoho protsesu vyrobnytstva napivfabrykativ dlia desertnoi produktsyi. Kharchova nauka i tekhnolohiya, 2 (15), 77–82.
  3. Korotaieva, Ye. O., Neklesa, O. P., Hrynchenko, O. O., Pyvovarov, P. P. (2015). The study of functional-technological properties of encapsulated vegetable oils. Eastern-European Journal of Enterprise Technologies, 6 (10 (78)), 16–23. doi: 10.15587/1729-4061.2015.56198
  4. Nahornyi, O. Yu. (2014). Teoretychni vlastyvosti kapsulovanykh modelnykh system na osnovi NaKMTs. Visnyk Natsionalnoho tekhnichnoho universytetu «KhPI». Ser.: Novi rishennia v suchasnykh tekhnolohiyakh, 7 (1051), 92‒97.
  5. Grinchenko, N. G., R. V. Plotnikova (2014). Issledovanie sorbcionnoj sposobnosti al'ginata natriya s cel'yu regulirovaniya sostava solevoj sistemy moloka obezzhirennogo. Scientific Letters of Academic Society of Michal Baludansky, 2 (5), 32–35.
  6. Gaserod, O., Larsen, C. K., Andersen, P. O. (2010). Pat. No. US20110059165 A1. Seamless alginate capsules. B01J13/20, A23P10/30, A23K40/30, A61K9/4808, A61K9/4833, A61K47/02, B01J13/046, A61K47/36, B01J13/206, A61K9/4816. No. US 12/874,567; declared: 2.09.2010; published: 10.03.2011.
  7. Plotnikova, R. V. (2011). Doslidzhennia sorbtsiynykh vlastyvostei alhinatu natriyu za umov rehuliuvannia solovoho skladu molochnoi syrovyny. Obladnannia ta tekhnolohyi kharchovykh vyrobnytstv, 27, 227–233.
  8. Peake, N. J., Pavlov, A. M., D’Souza, A., Pingguan-Murphy, B., Sukhorukov, G. B., Hobbs, A. J., Chowdhury, T. T. (2015). Controlled Release of C-Type Natriuretic Peptide by Microencapsulation Dampens Proinflammatory Effects Induced by IL-1β in Cartilage Explants. Biomacromolecules, 16 (2), 524–531. doi: 10.1021/bm501575w
  9. Neuberger, T., Schöpf, B., Hofmann, H., Hofmann, M., von Rechenberg, B. (2005). Superparamagnetic nanoparticles for biomedical applications: Possibilities and limitations of a new drug delivery system. Journal of Magnetism and Magnetic Materials, 293 (1), 483–496. doi: 10.1016/j.jmmm.2005.01.064
  10. Neklesa, O., Yarantseva, Y., Pyvovarov, Y., Grinchenko, O. (2017). Study of constructive provision of the capsule formation process of the "oil and fat raw materials – ionotropic shell-maker" system. EUREKA: Physics and Engineering, 6, 42–47. doi: 10.21303/2461-4262.2017.00508
  11. Pivovarov, P. P., Neklesa, O. P., Nagorniy, A. Yu. (2016). Pat. No. WO 2017|105378 A1. Kapsulyatornaya golovka i ustroystvo dlya polucheniya kapsul. MPK A23R (2006.01) A61J 3/07 (2006.01). No. WO 2017|105378; declareted: 15.12.2016; published: 22.06.2017, RST/UA2017/0000146, 8.
  12. Neklesa, O. P., Korotaieva, Ye. O., Pyvovarov, P. P. (2014). Pat. No. 108807 UA. Sposib oderzhannia kapsul z vnutrishnim umistom na osnovi zhyriv ta otrymana na yoho osnovi kapsula. MPK A 23 R 1/00. No. 108807; declareted: 25.01.2014; published: 10.06.2015, Bul. No. 11, 8.
  13. Kondratyuk, N. V., Bol'shakova, V. L., Pivovarov, P. P. (2016). Otsenka bufernyh svoystv fosfatov v sostave sredy dlya kapsulirovaniya atsidofil'noy palochki. Nauchnyy rezul'tat. Seriya: Tekhnologii biznesa i servisa, 2 (1 (7)), 32‒36.
  14. Harkins, W. D., Brown, F. E. (1919). The determination of surface tension (free surface energy), and the weight of falling drops: the surface tension of water and benzene by the capillary height method. Journal of the American Chemical Society, 41 (4), 499–524. doi: 10.1021/ja01461a003

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Published

2017-12-01

How to Cite

Neklesa, O., Yarantseva, Y., Pyvovarov, Y., & Grinchenko, O. (2017). Analytical study of the model of capsule formation of the system “Food lipids – calcium alginate”. Eastern-European Journal of Enterprise Technologies, 6(11 (90), 35–40. https://doi.org/10.15587/1729-4061.2017.117109

Issue

Section

Technology and Equipment of Food Production