УДК:
DOI:

Микрокапсулирование: обзор концепций, методов и перспектива использования в процессах нефтегазовой и химической отрасли

Microencapsulation: an overview of concepts, methods and prospects for use in the processes of the oil and gas and chemical industries

A.L. MAKSIMOV1, S.V. ANTONOV1, L.A. ALIYEVA2, A.V. ZAMRIY2, E.D. KOTIKOVA2,
I.S. KOSTRUBOVA2, N.P. BEZRUKOV1, A.R. KHAMATOV2
1Institute of Petrochemical Synthesis, Russian Academy of Sciences,
Moscow, 119991, Russian Federation
2Intersectoral Expert and Analytical Center of the Union of Oil and Gas Producers of Russia
Moscow, 125009, Russian Federation

Микрокапсулирование – это защитная технология инкапсулирования твердых, жидких или газовых материалов в микрочастицы диаметром 1–1000 мкм, которая широко используется в областях медицины, косметики, пищевых продуктов, текстиля и современных материалов [1], [2]. Уникальное преимущество микрокапсулирования состоит в том, что материал ядра капсулы полностью покрыт и изолирован оболочкой от внешней среды. Данная статья посвящена обзору технологий микрокапсулирования жидких веществ и рассмотрению перспективных направлений их интегрирования в промышленные процессы, например, для решения проблем адресной доставки в труднодоступные зоны.

Microencapsulation is a protective technology for encapsulating solid, liquid or gaseous materials into microparticles with a diameter of 1–1000 µm, which is widely used in the fields of medicine, cosmetics, food products, textiles and modern materials [1], [2]. The unique advantage of microencapsulation is that the material of the capsule core is completely covered and isolated from the external environment by the shell. This article is devoted to an overview of technologies for microencapsulation of liquid substances and consideration of promising areas for their integration into industrial processes, for example, to solve the problems of targeted delivery to hard-to-reach areas.

Если вас интересует полный текст статьи, Вы можете заказать ее в издательстве.

Литература

1. E. Campos, J. Branquinho, A. Carreira, A. Carvalho,
P. Coimbra, P. Ferreira и M. Gil. «Designing polymeric microparticles for biomedical and industrial applications», European Polymer Journal, 49 (8), 2005–2021, 2013.
2. R. Dubey, T.C. Shami и K.U. Rao. «Microencapsulation technology and applications», Defence Science Journal, т. 59,
№ 1, pp. 82–95, 2009.
3. M. Hu, J. Guo, Y.Yu, L. Сао и Y. Xu. «Research Advances of Microencapsulation and Its Prospects in the Petroleum Industry», Materials, т. 10, № 4, p. 369, 2017.
4. M. Orlov. «Materials Microencapsulation Applications in Oil Drilling and Production», Journal of Physics Conference Series,
т. 1, p. 1942, 2021.
5. D.A. McIlroy, B.J. Blaiszik, M.M. Caruso, S R. Whitе, J.S. Moore и N.R. Sottos. «Microencapsulation of a Reactive Liquid-Phase Amine for Self-Healing Epoxy Composites», Macromolecules, т. 43, № 4, pp. 1855–1859, 2010.
6. А.В. Замрий и Н.В. Викторова. «Умные микроконтейнеры», Нефтегазовая вертикаль, pp. 27-31, 2019.
7. N.V.N. Jyothi, P.M. Prasanna, S.N. Sakarkar, K.S. Prabha, P.S. Ramaiah и G.Y. Srawan. «Microencapsulation techniques, factors influencing encapsulation efficiency», Journal, pp. 187-197, 2010.
8. F. Fu и L. Hu. «Temperature sensitive colourchanged composites», Advanced High Strength Natural Fibre Composites in Construction, т. 15, pp. 406-423, 2017.
9. С.А. Кедик, М.Д. Сапельников, А.В. Панов, В.В. Суслов и Е.С. Жаворонок. «Получение полимерных микрочастиц с биологически активными веществами методом распылительной сушки (обзор литературы)», Вестник ВГУ: Химия. Биология. Фармация, т. 2, pp. 28-32, 2014.
10. A.M. Bakry, S. Abbas, B. Ali, H. Majeed, Y.M. Abouelwafa, A. Mousa и L. Liang. «Microencapsulation of Oils: A Comprehensive Review of Benefits», Techniques, and Applications. Compr. Rev. Food Sci. Food Saf., т. 15, pp. 143-182, 2016.
11. A. Gharsallaoui, G. Roudaut, O. Chambin, V. A и R. Saurel. «Applications of Spray-Drying in Microencapsulation of Food Ingredients: An Overview», Food Res. Int., т. 40, pp. 1107-1121, 2007.
12. V.T. Šaponjac, J. Čanadanović-Brunet, G. Ćetković,
M. Jakišić, S. Djilas, J. Vulić и S. Stajčić. «Encapsulation of Beetroot Pomace Extract: RSM Optimization, Storage and Gastrointestinal Stability», Molecules, т. 21, p. 584, 2016.
13. S.K. Sosnik A. «Advantages and Challenges of the Spray-Drying Technology for the Production of Pure Drug Particles and Drug-Loaded Polymeric Carriers», Adv. Colloid Interface Sci.,
№ 223, pp. 40-54, 2015.
14. «Распылительная спрей сушка (с центробежным атомайзером или форсунками), серии «РСС»». В Интернете. Available: http://elliron.ru. Дата обращения: 25.10.2021.
15. «Sprühtrocknung - Spray drying,» Wikipedia. В Интернете. Available: https://wiki2.wiki/wiki/Spray_drying.
16. J.A. Pellicer. «Optimization of the Microencapsulation of Synthetic Strawberry Flavour with Different Blends of Encapsulating Agents Using Spray Drying», Powder Technol, № 338, pp. 591-598, 2018.
17. B. Başyiğit, H. Sağlam, Ş. Kandemir, A. Karaaslan и
M. Karaaslan. «Microencapsulation of Sour Cherry Oil by Spray Drying: Evaluation of Physical Morphology, Thermal Properties, Storage Stability, and Antimicrobial Activity», Powder Technol,
№ 364, pp. 654-663, 2020.
18. T.A. Comunian. «Echium oil with oxidative stability increased by emulsion preparation in the presence of the phenolic compound sinapic acid followed by dehydration by spray and freeze drying processes», J Food Sci Technol, т. 56, № 3, pp. 1155-1164, 2019.
19. M. Wittner, H.P. Karbstein и V. Gaukel. «Spray drying of high viscous food concentrates: Investigations on the applicability of an Air-Core-Liquid-Ring (ACLR) nozzle for liquid atomization», International Drying Symposiu, pp. 1221-1228, 2018.
20. N. Mys, R.V. D. Sande, A.Verberckmoes и L. Cardon. «Processing of Polysulfone to Free Flowing Powder by Mechanical Milling and Spray Drying Techniques for Use in Selective Laser Sintering». В Интернете. Available: https://www.mdpi.com/2073-4360/8/4/150/htm.
21. D. Franсa, А.F. Medina, L.L. Messa и C.F. R. Faez. «Chitosan spray-dried microcapsule and microsphere as fertilizer host for swellable − controlled release materials», Carbohydrate Polymers, т. 196, pp. 47-55, 2018.
22. J.J. Blouin. «Spray dried water dispersible fertilizer». US Патент 5435822A, 25 July 1995.
23. С.А. Кедик, М.Д. Сапельников, А.В. Панов, В.В. Суслов и Е.С. Жаворонок. «Получение полимерных микрочастиц с биологически активными веществами методом распылительной сушки», Вестник ВГУ, серия: ХИМИЯ. БИОЛОГИЯ. ФАРМАЦИЯ, № 2, pp. 28-32, 2014.
24. М.Г. Гордиенко, Т.Н. Сомов, Ю.С. Юсупова, Н.И. Чупикова и Н.В. Меньшутина. «Получение микрочастиц из биодеградируемых природных и синтетических полимеров для применения в области регенеративной медицины», Тонкие химические технологии, т. 10, № 5, pp. 50-56, 2015.
25. Ю.В. Маковская, А.О. Касимова, М.Г. Гордиенко и Н.В.Меньшутина. «Исследование и оптимизация процесса инкапсулирования лекарственного вещества в полимерную оболочку в аппарате псевдоожиженного слоя», Вестник МИТХТ, т. 5, № 1, pp. 93-97, 2010.
26. Л.Г. Голубев, Б.С. Сажин и Е.Р. Валашек. Сушка в химико-фармацевтической промышленности, М.: «Медицина», 1978.
27. H. Mok. «Water-free microencapsulation of proteins within PLGA microparticles by spray drying using PEG-assisted protein solubilization technique in organic solvent», European J. of Pharmaceutics and Biopharmaceutics, т. 70, pp. 137-144, 2008.
28. T. Shoinkhorova, A. Dikhtiarenko, A. Ramirez, A. D. Chowdhury, M. Caglayan, J. Vittenet, A. Bendjeriou-Sedjerari, O. S. Ali, I. Morales-Osorio, W. Xu и J. Gascon. «Shaping of ZSM-5-Based Catalysts via Spray Drying: Effect on Methanol-to-Olefins Performance», Applied Materials & Interfaces, т. 47, № 11, p. 44133–44143, 2019.
29. S.N. Grigoriev, T.N. Soe, A. Malakhinsky, I. Makhadilov, V. Romanov и E. Kuznetsova. «Granulation of Silicon Nitride Powders by Spray Drying: A Review», Materials, т. 15, p. 23, 2022.
30. H.H. Tantawy, L.S. Cardozo и A.B. G. PATTON. «Spray-drying process». US Патент 20130320575A1, 5 Декабрь, 2014.
31. T.P.R. Santos, C.M.L. Franco, I. MottinDemiate, E.L.G. Xue-HongLi, Jay-linJane и M. Leonel. «Spray-drying and extrusion processes: Effects on morphology and physicochemical characteristics of starches isolated from Peruvian carrot and cassava», International Journal of Biological Macromolecules, т. 118, pp. 1346-1353, 2018.
32. L.S.C. Wan, P.W.S. Heng и C.G.H. Chia. «Plasticizers and their effects on microencapsulation process by spray-drying in an aqueous system», Journal of Microencapsulation, т. 9, № 1, pp. 53-62, 2008.
33. Nussinovitch A, editor. Liquid-core beads and their applications in food, biotechnology, and other fields. Polymer macro- and micro-gel beads: Fundamentals and applications. Springer-Verlag New York: Springer, 2010:163–189.
34. Somerville и J. G. R. «Encapsulating apparatus». US Патент 3015128, 02.01.1960.
35. Somerville и J. G. R. «Encapsulating method and apparatus». United States Патент 3310612A, 21.03.1967.
36. G.R. Somerville. «Method for mass producing small spherical particles». United States Патент 3389194A, 18.06.1968.
37. W. Schlameus, «Centrifugal Extrusion Encapsulation». American Chemical Society, p. 8, 24 March 1995.
38. W. Harlowe, Southwest Research Institute, San Antonio, Tex.: Private Communication, 1988.
39. R. Lyle, D.J. Mangold и W.W. Harlowe. The making microencapsules., San Antonio, Tex.: Technol. Today, Southwest Research Institute, 1984.
40. J. Dziezak. «Food Technology», April 1988.
41. S. Hagenbart, «Food Product Design», April 1993.
42. PHARMACEUTICAL EXTRUSION» LEISTRITZ. В Интернете. Available: http://www.itc-equip.com/img/file/pharma_prospekt_gb_2016.pdf.
43. S.C. Chew и K.L. Nyam. «Microencapsulation of kenaf seed oil by co-extrusion technology», т. 143, pp. 43-50, 2016.
44. Khor C.M. et al. Hot-melt extrusion microencapsulation of quercetin for taste-masking // Journal of microencapsulation. – 2017. – Т. 34. – №. 1. – С. 29-37. В Интернете.
45. Harrington J., Schaefer M. Extrusion-based micro-encapsulation for the food industry // Microencapsulation in the Food Industry. – Academic Press, 2014. – С. 81-84. В Интернете.
46. Seth D., Mishra H.N., Deka S.C. Effect of microencapsulation using extrusion technique on viability of bacterial cells during spray drying of sweetened yoghurt // International journal of biological macromolecules. – 2017. – Т. 103. – С. 802-807. В Интернете.
47. З.В. Валерьевич. «Способ изготовления кормов путем экструзии биологических и сельскохозяйственных отходов». RU Патент 2 667 161 C1. 17 Сентябрь 2018.
48. П.В. Сковородников и М.В. Черепанова. «Способы гранулирования органо-минеральных удобрений», ВЕСТНИК ПНИПУ, № 3, pp. 117-126, 2017.
49. Г.П. Щетинин, Д.В. Шипицын и В.А. Левицкий. «Способ гранулирования дисперсного углеродного материала». RU Патент 2465958C1, 10 Ноябрь 2012.
50. Y. Yang, N. Zheng, X. Wang, R. Ivone, W. Shan и J. Shen. «Rapid Preparation of Spherical Granules via the Melt Centrifugal Atomization Technique», Pharmaceutics, т. 11, № 5, p. 198, 2019.
51. Q. Chang, L. Xianwang, H.Ni,Z. Wenyuan, C. Pan и H. Shengde. «Modeling on Dry Centrifugal Granulation Process of Molten Blast Furnace Slag», Isij International, т. 55, № 7, pp. 1361-1366, 2015.
52. R.P. Scherer. «Apparatus for forming and filling capsules». United States Патент US2288327A, 08.10.1935.
53. http://900igr.net/kartinka/meditsina/tverdye-lekarstvennye-formy-96764/metod-shtampovki-rotatsionno-matrichnyj-promyshlennye-mzhk-32.html. В Интернете.
54. A. Devay. «The theory and practice of pharmaceutical technology», University of Pecs, 2013.
55. N.S. Stroud. «Encapsulation apparatus and process». Патент US 5735105, 1998.
56. Ф. Баранов. «Медицинские капсулы микрокапсулы», 2014. В Интернете. Available: http://www.myshared.ru/slide/643265. Дата обращения: 02.06.2021.
57. П. Беке, С. Бернетт и Н. Страуд. «Apparatus and method for manufacturing encapsulated products». Патент AU2002343580B2, 02.11.2001.
58. N.S. Stroud и D. J.Walker. «Encapsulation apparatus and process». Патент WO 94/13249, 23.06.1994.
59. R.E. Moule. «Capsule making machine and method». United States Патент US2549327A, 11.09.1948.
60. E. Brocker и A. Peter. «Method and device for producing soft capsules». WIPO (PCT) Патент WO2010108948A1, 26.03.2010.
61. C.S. Altamar, O. Torres и B. Teran. «Method and device for producing soft capsules». WIPO (PCT) Патент WO2012010980A2, 19.07.2010.
62. G.A. Schurig, B. Bezaire, M. Ratko, L.A. Baker и R. Mikalian. «Apparatus and methods for forming patterned soft gelatin capsules». EP Патент 0653979B1, 16 April 1997.
63. FOSHAN POLYVA MATERIALS CO., LTD, 2018. В Интернете. Available: https://www.polyva-pvafilm.com/how-does-laundry-detergent-pods-packaging-machine-producing-pods. Дата обращения: 23 September 2022.
64. «Sainty International Group (SaintyCo)». В Интернете. Available: https://www.saintyco.com/. Дата обращения: 23 September 2022.
65. Suganya V., Anuradha V. Microencapsulation and nanoencapsulation: a review // Int. J. Pharm. Clin. Res. – 2017. – Т. 9. – №. 3. – С. 233-239.
66. Солодовник В. Д. Микрокапсулирование. – 1980.».
67. В.И. Чуешов, Е.В. Гладух и И.В. Сайко. Технология лекарств промышленного производства: учебник для студ. высш. учеб. завед.: перевод с укр.: в 2 ч // Винница: Новая Книга.-2014-160 с. – 2014.
68. «Ongmayeb, G. (2008). Formation de capsules par réticulation interfaciale. Genie des procédés. Nantes: université de Nantes, faculté des sciences et techniques».
69. Poncelet*, C. Perignon and G. Ongmayeb, INTERFACIAL POLYMERIZATION VERSUS, Nantes France, March 2013.
70. S.K. Ghosh. «Functional Coatings: By Polymer Microencapsulation», Weinheim: Wiley VCH, 2006.
71. A. Jamekhorshid, S.M. Sadrameli и M. Farid. «A review of microencapsulation methods of phase change materials (PCMs) as a thermal energy storage (TES) medium», Renew Sustain Energy Rev., т. 31, pp. 531-542, 2014.
72. H. Zhang, A. Balram, H. Tiznobaik, D. Shin и S. Sant-hanagopalan. «Microencapsulation of molten salt in stable silica shell via a water-limited sol-gel process for high temperature thermal energy storage», Appl Therm Eng., т. 136, pp. 268-274, 2018.
73. M.D. Romero-Sanchez, R.R. Piticescu, A.M. Motoc, F. Aran-Ais и A.I. Tudor. «Green chemistry solutions for sol-gel micro-encapsulation of phase change materials for high-temperature thermal energy storage». Manuf Rev., т. 5, № 8, pp. 1-10, 2018.
74. X. Wu, M. Fan, S. Cui, G. Tan и X. Shen. «Novel Na2SO4@SiO2 phase change material with core-shell structures for high temperature thermal storage». Sol Energy Mater Sol Cells, т. 178, pp. 280-288, 2018.
75. R. Gurny. «Development of biodegradable and injectable latices for controlled release of potent drugs», Drug development and indastrial phurmacy, т. 7, pp. 1-25, 1981.
76. N.K. Jain. «Controlled and Novel drug delivery. CBS Publisher». pp. 236-237, 1997.
77. Vyas S.P, Khar R.K. Targeted and Controlled drug delivery. CBS Publisher, 2002, 418.
78. «Полимеры как функциональные и вспомогательные материалы для создания лекарственных форм медицинских препаратов». StudFiles. В Интернете. Available: https://studfile.net/preview/7207447/page:10/.
79. Н. Меньшутина. «Технологии инкапсуляции», Фармацевтические технологии, № 5, pp. 30-33, 2014.
80. E. Pope, C. Cartmell, B. Haltli, A. Ahmadi и R.G. Kerr. «Microencapsulation and in situ incubation methodology for the cultivation of marine bacteria», Sec. Aquatic Microbiology, p. 11, 2022.
81. B. Berdy, A.L. Spoering, L.L. Ling и S.S. Epstein. «In situ cultivation of previously uncultivable microorganisms using the ichip», Nat. Protoc., т. 12, p. 2232–2242, 2017.
82. C. Tomaro-Duchesneau, S. Saha, M. Malhotra, I. Kahouli и S. Prakash. «Microencapsulation for the Therapeutic Delivery of Drugs, Live Mammalian and Bacterial Cells, and Other Biopharmaceutics: Current Status and Future Directions», J Pharm (Cairo), p. 103527, 2013.
83. M.A. Garg, K. Chhipa и L. Kumar. «MICROENCAPSULATION TECHNIQUES IN PHARMACEUTICAL FORMULATION», EUROPEAN JOURNAL OF PHARMACEUTICAL AND MEDICAL RESEARCH, т. 5, № 3, pp. 199-206, 2022.
84. S. Iravani, H. Korbekandi и S.V. Mirmohammadi. «Technology and potential applications of probiotic encapsulation in fermented milk products», J Food Sci Technol, т. 52, № 8, pp. 4679-96, 2014.
85. A.M. Bakry, S. Abbas, B. Ali, H. Majeed, M.Y. Abouelwafa, A. Mousal и L. Liang. «Microencapsulation of Oils: A Comprehensive Review of Benefits, Techniques, and Applications», Compr Rev Food Sci Food Saf, т. 15, № 1, pp. 143-182, 2016.
86. S.-B.K. Suengmok Cho. «The processing optimization of caviar analogs encapsulated by calcium-alginate gel membranes», Food Science and Biotechnology, т. 16, № 4, pp. 557-564, 2007.
87. Saihi D, Vroman I, S. Giraud, S. Bourbigot. Microencapsulation of ammonium phosphate with a polyurethane shell. Part II. Interfacial polymerization technique, Reactive and Functional Polymers 2006,66: 1118–1125.
88. A. Attila Hincal and H. Suheyla Kas, Handbook of Pharmaceutical Controlled Release Technology; Microencapsulation Technology: Interfacial Polymerization Method, 271-286.
89. ВикиБриф. В Интернете. Available: https://ru.wikibrief.org/wiki/Interfacial_polymerization. Дата обращения: 20 Июль 2022.
90. C. Perignon, G. Ongmayeb, R. Neufeld, Y. Frere и D. Poncelet. «Microencapsulation by interfacial polymerisation: membrane formation and structure», J Microencapsul, т. 32, № 1, pp. 1-15, 2015.
91. C. Barrow, B. Wang, B. Adhikari и H. Liu. «Spray drying and encapsulatoin og omega-3 oils», Woodhead Puplishing Limited, Cambridge, UK, pp. 194-219, 2013.
92. K.-i. Shimokawa, K. Saegusa, Y. Wada и F. Ishii. «Physicochemical properties and controlled drug release of microcapsules prepared by simple coacervation», Colloids and Surfaces B: Biointerfaces, т. 104, № 1, pp. 1-4, 2013.
93. B. Ocak, G. Gülümser и E. Baloğlu. «Microencapsulation of Melaleuca alternifolia (Tea Tree) Oil by Using Simple Coacervation Method», Journal of Essential Oil Research, т. 23, № 4, pp. 58-65, 2011.
94. E.J. o. P.A. Biopharmaceutics. «Microencapsulation of citronella oil for mosquito-repellent application: Formulation and in vitro permeation studies», European Journal of Pharmaceutics and Biopharmaceutics, т. 80, № 1, pp. 61-66, 2012.
95. J. Lazkoa, Y. Popineaub и J. Legrand. «Soy glycinin microcapsules by simple coacervation method», Colloids and Surfaces B: Biointerfaces, т. 37, № 1-2, pp. 1-8, 2004.
96. F. V.Leimann, O.H. Gonçalves, A.F. Ricardo и M.A. Bolzan. «Antimicrobial activity of microencapsulated lemongrass essential oil and the effect of experimental parameters on microcapsules size and morphology», Materials Science and Engineering: C, т. 29, № 2, pp. 430-436, 2009.
97. Q.X.Ke-Gang Wu. «Microencapsulation of Fish Oil by Simple Coacervation of Hydroxypropyl Methylcellulose», Chinese Journal of Chemistry, т. 23, № 11, pp. 1569-1572, 2005.
98. M. Jelvehgari и S.H. Montazam. «Comparison of Microencapsulation by Emulsion-Solvent Extraction/Evaporation Technique Using Derivatives Cellulose and Acrylate-Methacrylate Copolymer as Carriers», Jundishapur J Nat Pharm Prod, т. 7, № 4, pp. 144-152, 2012.
99. H.Y. Karasulu. «Microemulsions as novel drug carriers: the formation, stability, applications and toxicity», Expert Opinion on Drug Delivery, т. 5, № 1, pp. 119-135, 2007.
100. M.A. Uddin и H.P.Chan. «Adhesive technology for photonics», Advanced Adhesives in Electronics, pp. 214-258, 2011.
101. C.P. Reis, J.R. Neufeld, J.A. Ribeiro и F.Veiga. «Nanoencapsulation I. Methods for preparation», Nanomed Nanotechnol Biol Med, т. 2, pp. 8-21, 2006.
102. J.P.Rao и K.E. Geckeler. «Polymer nanoparticles: preparation techniques and size control parameters», Polym Sci, т. 36, pp. 887-913, 2011.
103. I.D. Rosca, F. Watari и M. Uo. «Microparticle formation and its mechanism in single and double emulsion solvent» . Control. Release, т. 99, № 2, pp. 271-280, 2004.
104. J. Siepmann и F. Siepmann. «Microparticles used as drug», Prog.Coll. Pol. Sci., т. 133, pp. 15-21, 2006.
105. Kamyshny A, Megdassi S. Microencapsulation. Encyclopedia Surface Colloidal Sci. 2004:1–1.
106. Е.А. Киржанова, М.А. Печенкин, Н.Д. Демина и Н.Г. Балабушева. «Микро- и наночастицы из альгинита и хитозина для трансмукозальной доставки белка», т. 57, № 2, pp. 103-110, 2016.
107. «ОСНОВЫ ВЗАИМОДЕЙСТВИЯ БИОЛОГИЧЕСКИХ ТКАНЕЙ С ИСКУССТВЕННЫМИ МАТЕРИАЛАМИ». В Интернете. Available: http://www.ispms.ru/files/Publications/sharkeev_2013/pdf/5_4.pdf.
108. Gonzalez-Rodriguez ML, Holgado MA, Sanchez-Lafuente C, Rabasco AM, Fini A. Alginate/chitosan particulate systems for sodium diclofenac release. Int J Pharm. 2002;232(1-2):225-34.
109. Manjanna, K.M., Shivakumar, B.,& Kumar, T. M. P. (2010). Microencapsulation: An Acclaimed Novel Drug-Delivery System for NSAIDs in Arthritis. Critical Reviews™ in Therapeutic Drug Carrier Systems, 27(6), 509–545.
110. Б.Х. Мусабаева, К.Б. Мурзагулова, М.Е. Ким, В.А. Изумрудов и З.Ж. Арипжанова. «Получение микрокапсул противотуберкулезных препаратов на основе биополимеров и полиэлектролитов», т. 5, № 2, 2017.
111. А.Н. Баранов, Т.В. Букреева, И.В. Марченко, Г.С. Плотников и А.М. Салецкий. «Получение полиэлектролитных микрокапсул с химически связанными и адсорбированными молекулами флуорисцеина, изотиоцианата и их разрушение при лазерных воздействиях», № 5, 2011.
112. D.J. Schmidt, J.S. Moskowitz и P.T.Hammond. «Electrically Triggered Release of a Small Molecule Drug from a Polyelectrolyte Multilayer Coating».
113. В.И. Чуешов и Е.В. Гладух. Технология лекарств промышленного производства, Казань: Новая Книга, 2014.
114. S. Banerjee, R. Premchandran, M. Tata, V.T. John, G.L. McPherson, J. Akkara и D. Kaplan. «Polymer Precipitation Using a Micellar Nonsolvent:  The Role of Surfactant−Polymer Interactions and the Development of a Microencapsulation Technique», Ind. Eng. Chem. Res., т. 35, № 9, pp. 3100-3107, 1996.
115. J. Godbee, E. Scott, P. Pattamunuch, S. Chen и E. Mathiowitz. «Role of solvent/non-solvent ratio on microsphere formation using the solvent removal method», Journal of Microencapsulation, т. 21, № 2, pp. 151-160, 2004.
116. S.H. Soh и L.Y. Lee. «Microencapsulation and Nanoencapsulation Using Supercritical Fluid (SCF) Techniques», Pharmaceutics, т. 11, № 21, pp. 1-18, 2019.
117. L.Y. Lee, C.H. Wang и K.A. Smith. «Supercritical antisolvent production of biodegradable micro- and nanoparticles for controlled delivery of paclitaxel», J. Control., т. 125, pp. 96-106, 2008.
118. G. Murtaza, M. Ahmad и G. Shahnaz. «Microencapsulation of Diclofenac Sodium by Nonsolvent Addition Technique», Tropical Journal of Pharmaceutical Research, т. 9, № 2, pp. 187-195, 2010.
119. Y. Taguchi, N. Saito, A. Uchida и M. Tanaka. «Preparation of Thermosensitive Microcapsules Containing Water Soluble Powder by Melting Dispersion Cooling Method», Journal of Encapsulation and Adsorption Sciences, т. 6, № 3, pp. 57-69, 2016.
120. N. Trivedi и R. Parameshwaran. «Cryogenic conditioning of microencapsulated phase change material for thermal energy storage», Nature reserch, т. 10, pp. 1-11, 2020.
121. J.D. Oxley. «Spray cooling and spray chilling for», Woodhead Publishing Limited, pp. 110-130, 2012.
122. B.F. Gibbs, S. Kermasha, I. Alli и C.N. Mulligan. «Encapsulation in the food industry: a review», International Journal of Food Sciences and Nutrition, т. 50, pp. 213-224, 1999.
123. P. Vilstrup. «Effects of lipids on mechanical and moisture barrier properties of edible gellan film», Food Research International, т. 33, pp. 571-578, 2001.
124. Pudziuvelyte L. et al. Freeze-drying technique for microencapsulation of Elsholtzia ciliata ethanolic extract using different coating materials // Molecules. – 2020. – Т. 25. – №. 9.
– С. 2237. В Интернете.
125. Ezhilarasi P. N. et al. Freeze drying technique for microencapsulation of Garcinia fruit extract and its effect on bread quality // Journal of Food Engineering. – 2013. – Т. 117. – №. 4.
– С. 513-520.
126. El-Abbassi A. et al. Recent advances in microencapsulation of bioactive compounds // Analytical and Processing Techniques. – 2015. – Т. 41. – С. 129-146.
127. H.A. Schiffter, European Pharmaceutical Review, т. 3, 2007.
128. A. Rezvankhah, Z. Emam-Djomeh и G. Askari. «Encapsulation and delivery of bioactive compounds using spray and freeze-drying techniques: A review», Dry. Technol, т. 38, pp. 235-258, 2019.
129. A. Jeyakumari. «Microencapsulation of Bioactive Food Ingredients and Controlled Release—A Review», MOJ Food Process. Technol., т. 2, pp. 214-224, 2016.
130. L. Šturm, I.G.O. Črnivec, K. Istenič, A. Ota, P. Megušar, A. Slukan, M. Humar, S. Levic, V. Nedović и R. Kopinč. «Encapsulation of non-dewaxed propolis by freeze-drying and spray-drying using gum Arabic, maltodextrin and inulin as coating materials», Food Bioprod. Process, т. 116, pp. 196-211, 2019.
131. A. Wilkowska, W. Ambroziak, A. Czyzowska и J. Adamiec. «Effect of Microencapsulation by Spray-Drying and Freeze-Drying Technique on the Antioxidant Properties of Blueberry (Vaccinium myrtillus) Juice Polyphenolic Compounds», Pol. J. Food Nutr. Sci, т. 66, pp. 11-16, 2016.
132. Kalogiannis, C.G., Michailof, C.M., & Panayiotou, C.G. (2006). Microencapsulation of Amoxicillin in Poly(l-lactic acid) by Supercritical Antisolvent Precipitation. Industrial & Engineering Chemistry Research, 45(25), 8738–8743.
133. Kalogiannis, C.G.; Pavlidou, E.; Panayiotou,
C.G. Production of Amoxicillin Microparticles by Supercritical Antisolvent Precipitation. Ind. Eng. Chem. Res. 2005, 44, 9339.
134. Е.Е. Быковская. «СПОСОБ ПОЛУЧЕНИЯ МИКРОКАПСУЛ ЛЕКАРСТВЕННЫХ ПРЕПАРАТОВ ГРУППЫ ЦЕФАЛОСПОРИНОВ В КОНЖАКОВОЙ КАМЕДИ В ХЛОРОФОРМЕ». RU Патент 2012119204, 10 Сентябрь 2013.
135. Е.Е. Быкова. «Способ получения микрокапсул водорастворимых препаратов пестицидов». RU Патент 2572992, 2014.
136. Е.Е. Быковская и А.А. Кролевец. «Способ получения микрокапсул риванола в водорастворимых полимерах». RU Патент 21601258, 27.07.2013.
137. «Микроинкапсуляция - Micro-encapsulation». В Интернете. Available: https://ru.xcv.wiki/wiki/Micro-encapsulation. Дата обращения: 08.06.2021.
138. P.K. Mehrotra. «Production of Granulated Powder by Spray Drying», в Comprehensive Hard Materials, 2014.
139. Risch SJ. Encapsulation of flavors by extrusion. In: Flavor encapsulation, vol. 370(ACS Symposium Series, no. 370): American Chemical Society, 1988:103–109.10.1021/bk-1988-0370.
140. Zhang, H., Dicker, K.T., Xu,X.,Jia, X., & Fox, J. M. (2014). Interfacial Bioorthogonal Cross-Linking. ACS Macro Letters, 3(8), 727–731.
141. Taki, S.; Badens, E.; Charbit, G. Controlled release system formed by supercritical anti-solvent coprecipitation of a herbicide and a biodegrad able polymer. J. Supercrit. Fluids 2001, 21, 61.
142. P.A. Carmona, L.C. Garcia, J. . d. A.Ribeiro, F.L. Valadares, A.d.F. Marçal, F.L.d. França и S. Mendonça. «Effect of Solids Content and Spray-Drying Operating Conditions on the Carotenoids Microencapsulation from Pressed Palm Fiber Oil Extracted with Supercritical CO2», Food Bioprocess. Technol., № 11, pp. 1703-1718, 2018.
143. Б.Т. Николаева, П.А. Менчерова, О.О. Александрова и Б.Т. Владимирова. «СПОСОБ МОДИФИКАЦИИ ОБОЛОЧЕК ПОЛИЭЛЕКТРОЛИТНЫХ КАПСУЛ НАНОЧАСТИЦАМИ МАГНЕТИТА». Патент RU 2 522 204 C2, 10 07 2014.
144. B. Wang, T.O. Akanbi, D. Agyei, B.J. Holland и C.J. Barrow. «Coacervation Technique as an Encapsulation and Delivery Tool for Hydrophobic Biofunctional Compounds», In book: Role of Materials Science in Food Bioengineering, pp. 235-261, 2018235-261.

References

1. E. Campos, J. Branquinho, A. Carreira, A. Carvalho,
P. Coimbra, P. Ferreira and M. Gil. «Designing polymeric microparticles for biomedical and industrial applications», European Polymer Journal, 49 (8), 2005-2021, 2013. (In English).
2. R. Dubey, T.C. Shami and K.U. Rao. «Microencapsulation technology and applications», Defence Science Journal, Vol. 59, no. 1, pp. 82-95, 2009. (In English).
3. M. Hu, J. Guo, Y.Yu, L. Сао and Y. Xu. «Research Advances of Microencapsulation and Its Prospects in the Petroleum Industry», Materials, Vol. 10, no. 4, p. 369, 2017. (In English).
4. M. Orlov. «Materials Microencapsulation Applications in Oil Drilling and Production», Journal of Physics Conference Series, Vol. 1, p. 1942, 2021. (In English).
5. D.A. McIlroy, B.J. Blaiszik, M.M. Caruso, S R. Whitе, J.S. Moore and N.R. Sottos. «Microencapsulation of a Reactive Liquid-Phase Amine for Self-Healing Epoxy Composites», Macromolecules, Vol. 43, no 4, pp. 1855-1859, 2010. (In English).
6. A.V. Zamriy and N.V. Viktorova. «Umnyye mikrokonteynery»["Smart microcontainers"], Neftegazovaya vertikal' [Oil and Gas vertical], pp. 27-31, 2019. (In Russian).
7. N.V.N. Jyothi, P.M. Prasanna, S.N. Sakarkar, K.S. Prabha, P.S. Ramaiah and G.Y. Srawan. «Microencapsulation techniques, factors influencing encapsulation efficiency», Journal, pp. 187-197, 2010.(In English).
8. F. Fu and L. Hu. «Temperature sensitive colourchanged composites», Advanced High Strength Natural Fibre Composites in Construction, Vol. 15, pp. 406-423, 2017.(In English).
9. S.A. Kedik, M.D. Sapel'nikov, A.V. Panov, V.V. Suslov and Ye.S. Zhavoronok. «Polucheniye polimernykh mikrochastits s biologicheski aktivnymi veshchestvami metodom raspylitel'noy sushki (obzor literatury)» ["Obtaining polymeric microparticles with biologically active substances by spray drying (literature review)"]. Pharmacy Vestnik VGU: Khimiya. Biologiya. Farmatsiya, [Bulletin of the VSU: Chemistry. Biology. Pharmacy]. Vol. 2, pp. 28-32, 2014.
(In Russian).
10. A.M. Bakry, S. Abbas, B. Ali, H. Majeed, Y.M. Abouelwafa, A. Mousa and L. Liang. «Microencapsulation of Oils: A Comprehensive Review of Benefits», Techniques, and Applications. Compr. Rev. Food Sci. Food Saf., Vol. 15, pp. 143-182, 2016. (In English).
11. A. Gharsallaoui, G. Roudaut, O. Chambin, V. A and R. Saurel. «Applications of Spray-Drying in Microencapsulation of Food Ingredients: An Overview», Food Res. Int., Vol. 40, pp. 1107-1121, 2007. (In English).
12. V.T. Šaponjac, J. Čanadanović-Brunet, G. Ćetković, M. Jakišić, S. Djilas, J. Vulić and S. Stajčić. «Encapsulation of Beetroot Pomace Extract: RSM Optimization, Storage and Gastrointestinal Stability», Molecules, Vol. 21, p. 584, 2016. (In Poland).
13. S.K. Sosnik A. «Advantages and Challenges of the Spray-Drying Technology for the Production of Pure Drug Particles and Drug-Loaded Polymeric Carriers», Adv. Colloid Interface Sci., no. 223, pp. 40-54, 2015. (In English).
14. «Raspylitel'naya sprey sushka (s tsentrobezhnym atomayzerom ili forsunkami), serii «RSS» ["Spray spray dryer (with centrifugal atomizer or nozzles), RSS series"»]. Available at: http://elliron.ru. (accessed: 25.10.2021). (In Russian).
15. «Sprühtrocknung - Spray drying,» Wikipedia. Available: at https://wiki2.wiki/wiki/Spray_drying. (In English).
16. J.A. Pellicer. «Optimization of the Microencapsulation of Synthetic Strawberry Flavour with Different Blends of Encapsulating Agents Using Spray Drying», Powder Technol, no. 338, pp. 591-598, 2018. (In English).
17. B. Başyiğit, H. Sağlam, Ş. Kandemir, A. Karaaslan and M. Karaaslan. «Microencapsulation of Sour Cherry Oil by Spray Drying: Evaluation of Physical Morphology, Thermal Properties, Storage Stability, and Antimicrobial Activity», Powder Technol, no 364, pp. 654-663, 2020. (In English).
18. T.A. Comunian. «Echium oil with oxidative stability increased by emulsion preparation in the presence of the phenolic compound sinapic acid followed by dehydration by spray and freeze drying processes», J Food Sci Technol, Vol. 56, no 3, pp. 1155-1164, 2019. (In English).
19. M. Wittner, H.P. Karbstein and V. Gaukel. «Spray drying of high viscous food concentrates: Investigations on the applicability of an Air-Core-Liquid-Ring (ACLR) nozzle for liquid atomization», International Drying Symposium, pp. 1221-1228, 2018. (In English).
20. N. Mys, R.V. D. Sande, A.Verberckmoes and L. Cardon. «Processing of Polysulfone to Free Flowing Powder by Mechanical Milling and Spray Drying Techniques for Use in Selective Laser Sintering». Available at: https://www.mdpi.com/2073-4360/8/4/150/htm. (In English).
21. D. Franсa, А.F. Medina, L.L. Messa and C.F. R. Faez. «Chitosan spray-dried microcapsule and microsphere as fertilizer host for swellable − controlled release materials», Carbohydrate Polymers, Vol. 196, pp. 47-55, 2018. (In English).
22. J.J. Blouin. «Spray dried water dispersible fertilizer». US Patent 5435822A, 25 July 1995. (In English).
23. S.A. Kedik, M.D. Sapel'nikov, A.V. Panov, V.V. Suslov and Ye.S. Zhavoronok. «Polucheniye polimernykh mikrochastits s biologicheski aktivnymi veshchestvami metodom raspylitel'noy sushki», "Obtaining polymeric microparticles with biologically active substances by spray drying"]. Vestnik VGU, seriya: Khimiya. Biologiya. Farmatsiya [Bulletin of VSU, series: Chemistry. Biology. Pharmacia] no. 2, pp. 28-32, 2014. (In Russian).
24. M.G. Gordiyenko, T.N. Somov, Yu.S. Yusupova, N.I. Chupikova and N.V. Men'shutina. «Polucheniye mikrochastits iz biodegradiruyemykh prirodnykh i sinteticheskikh polimerov dlya primeneniya v oblasti regenerativnoy meditsiny» ["Obtaining microparticles from biodegradable natural and synthetic polymers for use in the field of regenerative medicine"]. Tonkiye khimicheskiye tekhnologii, [Fine Chemical Technologies] Vol. 10, no. 5, pp. 50-56, 2015. (In Russian).
25. Yu.V. Makovskaya, A.O. Kasimova, M.G. Gordiyenko and N.V.Men'shutina. «Issledovaniye i optimizatsiya protsessa inkapsulirovaniya lekarstvennogo veshchestva v polimernuyu obolochku v apparate psevdoozhizhennogo sloya» ["Research and optimization of the process of drug substance encapsulation in a polymer shell in a fluidized bed apparatus"], Vestnik MITKHT [Bulletin of MITHT], Vol. 5, no. 1, pp. 93-97, 2010. (In Russian).
26. L.G. Golubev, B.S. Sazhin i Ye.R. Valashek. Sushka v khimiko-farmatsevticheskoy promyshlennosti [Drying in the chemical and pharmaceutical industry], Moscow: «Meditsina» Publ., 1978 (In Russian).
27. H. Mok. «Water-free microencapsulation of proteins within PLGA microparticles by spray drying using PEG-assisted protein solubilization technique in organic solvent», European J. of Pharmaceutics and Biopharmaceutics, Vol. 70, pp. 137-144, 2008. (In English).
28. T. Shoinkhorova, A. Dikhtiarenko, A. Ramirez, A. D. Chowdhury, M. Caglayan, J. Vittenet, A. Bendjeriou-Sedjerari, O. S. Ali, I. Morales-Osorio, W. Xu and J. Gascon. «Shaping of ZSM-5-Based Catalysts via Spray Drying: Effect on Methanol-to-Olefins Performance», Applied Materials & Interfaces, Vol. 47, no 11,
pp. 44133–44143, 2019. (In English).
29. S.N. Grigoriev, T.N. Soe, A. Malakhinsky, I. Makhadilov, V. Romanov and E. Kuznetsova. «Granulation of Silicon Nitride Powders by Spray Drying: A Review», Materials, Vol. 15, p. 23, 2022. (In English).
30. H.H. Tantawy, L.S. Cardozo and A.B. G. PATTON. «Spray-drying process». US Patent 20130320575A1, 5.12.2014. (In English).
31. T.P.R. Santos, C.M.L. Franco, I. MottinDemiate, E.L.G. Xue-HongLi, Jay-linJane and M. Leonel. «Spray-drying and extrusion processes: Effects on morphology and physicochemical characteristics of starches isolated from Peruvian carrot and cassava», International Journal of Biological Macromolecules, Vol. 118, pp. 1346-1353, 2018. (In English).
32. L.S.C. Wan, P.W.S. Heng and C.G.H. Chia. «Plasticizers and their effects on microencapsulation process by spray-drying in an aqueous system», Journal of Microencapsulation, Vol. 9, no 1, pp. 53-62, 2008. (In English).
33. Nussinovitch A, editor. Liquid-core beads and their applications in food, biotechnology, and other fields. Polymer macro- and micro-gel beads: Fundamentals and applications. Springer-Verlag New York: Springer, 2010:163–189. (In English).
34. Somerville and J. G. R. «Encapsulating apparatus». US Patent 3015128, 02.01.1960. (In English).
35. Somerville and J. G. R. «Encapsulating method and apparatus». United States Patent 3310612A, 21.03.1967. (In English).
36. G.R. Somerville. «Method for mass producing small spherical particles». United States Patent 3389194A, 18.06.1968. (In English).
37. W. Schlameus, «Centrifugal Extrusion Encapsulation». American Chemical Society, p. 8, 24 March 1995. (In English)
38. W. Harlowe, Southwest Research Institute, San Antonio, Tex.: Private Communication, 1988. (In English).
39. R. Lyle, D.J. Mangold and W.W. Harlowe. The making microencapsules., San Antonio, Tex.: Technol. Today, Southwest Research Institute, 1984.(In English).
40. J. Dziezak. «Food Technology», April 1988. (InEnglish).
41. S. Hagenbart, «Food Product Design», April 1993.
(In English).
42. Pharmaceutical extrusion» leistritz. Available at: http://www.itc-equip.com/img/file/pharma_prospekt_gb_2016.pdf.
(In English).
43. S.C. Chew and K.L. Nyam. «Microencapsulation of kenaf seed oil by co-extrusion technology», Vol. 143, pp. 43-50, 2016. (In English).
44. Khor C.M. et al. Hot-melt extrusion microencapsulation of quercetin for taste-masking // Journal of microencapsulation. – 2017. – Vol. 34. – no. 1. – С. 29-37. In the Internet. (In English).
45. Harrington J., Schaefer M. Extrusion-based microencapsulation for the food industry // Microencapsulation in the Food Industry. – Academic Press, 2014. – pp. 81-84. Online
(In English).
46. Seth D., Mishra H.N., Deka S.C. Effect of microencapsulation using extrusion technique on viability of bacterial cells during spray drying of sweetened yoghurt // International journal of biological macromolecules. – 2017. – Vol. 103. – pp. 802-807. Online. (In English).
47. Z.V. Valer'yevich. «Sposob izgotovleniya kormov putem ekstruzii biologicheskikh i sel'skokhozyaystvennykh otkhodov» ["Method of making feed by extrusion of biological and agricultural waste"]. RU Patent 2 667 161 C1. 17.09.2018. (In Russian).
48. P.V. Skovorodnikov and M.V. Cherepanova. «Sposoby granulirovaniya organo-mineral'nykh udobreniy» ["Methods of granulation of organo-mineral fertilizers"] Vestnik PNIPU [Vestnik PNRPU], no. 3, pp. 117-126, 2017. (In Russian).
49. G.P. Shchetinin, D.V. Shipitsyn i V.A. Levitskiy. «Sposob granulirovaniya dispersnogo uglerodnogo materiala» ["Method of granulating dispersed carbon material"]. RU Patent 2465958C1, 10.11.2012. (In Russian).
50. Y. Yang, N. Zheng, X. Wang, R. Ivone, W. Shan and J. Shen. «Rapid Preparation of Spherical Granules via the Melt Centrifugal Atomization Technique», Pharmaceutics, Vol. 11, no 5, p. 198, 2019. (In English).
51. Q. Chang, L. Xianwang, H.Ni,Z. Wenyuan, C. Pan and H. Shengde. «Modeling on Dry Centrifugal Granulation Process of Molten Blast Furnace Slag», Isij International, Vol. 55, no. 7,
pp. 1361-1366, 2015. (In English).
52. R.P. Scherer. «Apparatus for forming and filling capsules». United States Patent US2288327A, 08.10.1935. (In English).
53. Available at: http://900igr.net/kartinka/meditsina/tverdye-lekarstvennye-formy-96764/metod-shtampovki-rotatsionno-matrichnyj-promyshlennye-mzhk-32.html.
54. A. Devay. «The theory and practice of pharmaceutical technology», University of Pecs, 2013. (In English).
55. N.S. Stroud. «Encapsulation apparatus and process». Patent US 5735105, 1998.(In English).
56. F. Baranov. «Meditsinskiye kapsuly mikrokapsuly» ["Medical capsules microcapsules"]. Available at: http://www.myshared.ru/slide/643265. (Accessed: 02.06.2021, 2014).
57. P.Beke, S.Bernett, N.Straynd «Apparatus and method for manufacturing encapsulated products». Patant AU2002343580B2, 02.11.2001. (In English).
58. N.S. Stroud and D. J.Walker. «Encapsulation apparatus and process». Patant WO 94/13249, 23.06.1994. (In English).
59. R.E. Moule. «Capsule making machine and method». Patent US2549327A, 11.09.1948.(In English).
60. E. Brocker and A. Peter. «Method and device for producing soft capsules». WIPO (PCT) Patent WO2010108948A1, 26.03.2010. (In English).
61. C.S. Altamar, O. Torres and B. Teran. «Method and device for producing soft capsules». WIPO (PCT) Patent WO2012010980A2, 19.07.2010. (In English).
62. G.A. Schurig, B. Bezaire, M. Ratko, L.A. Baker and R. Mikalian. «Apparatus and methods for forming patterned soft gelatin capsules». EP Patent 0653979B1, 16 April 1997.
(In English).
63. “Foshan polyva materials CO.”, LTD, 2018. Available at: https://www.polyva-pvafilm.com/how-does-laundry-detergent-pods-packaging-machine-producing-pods. (Accessed: 23.09.2022). (In English).
64. «Sainty International Group (SaintyCo)». Available at: https://www.saintyco.com/. (Accessed: 23.09.2022). (In English).
65. Suganya V., Anuradha V. Microencapsulation and nanoencapsulation: a review // Int. J. Pharm. Clin. Res. – 2017.
– Vol. 9. – no. 3. – pp. 233-239 (In English).
66. Solodovnik V. D. Mikrokapsulirovaniye [Microencapsulation]– 1980. (In Russian).
67. V.I. Chuyeshov, Ye.V. Gladukh and I.V. Sayko. Tekhnologiya lekarstv promyshlennogo proizvodstva: uchebnik dlya stud. vyssh. ucheb. zaved.: perevod s ukr.: v 2 ch [Technology of drugs for industrial production: a textbook for students. higher textbook head: translation from Ukrainian: at 2 parts]. // Vinnitsa: “Novaya Kniga” Publ., 2014- p.160. (In Russian).
68. «Ongmayeb, G. (2008). Formation de capsules par réticulation interfaciale. Genie des procédés. Nantes: université de Nantes, faculté des sciences et techniques». (In France).
69. Poncelet*, C. Perignon and G. Ongmayeb, Interfacial polymerization versus, Nantes France, March 2013. (In France).
70. S.K. Ghosh. «Functional Coatings: By Polymer Microencapsulation», Weinheim: Wiley VCH, 2006. (In English).
71. A. Jamekhorshid, S.M. Sadrameli and M. Farid. «A review of microencapsulation methods of phase change materials (PCMs) as a thermal energy storage (TES) medium», Renew Sustain Energy Rev., Vol. 31, pp. 531-542, 2014. (In English).
72. H. Zhang, A. Balram, H. Tiznobaik, D. Shin and S. Santhanagopalan. «Microencapsulation of molten salt in stable silica shell via a water-limited sol-gel process for high temperature thermal energy storage», Appl. Therm Eng., Vol. 136, pp. 268-274, 2018. (In English).
73. M.D. Romero-Sanchez, R.R. Piticescu, A.M. Motoc, F. Aran-Ais and A.I. Tudor. «Green chemistry solutions for sol-gel micro-encapsulation of phase change materials for high-temperature thermal energy storage». Manuf Rev., Vol. 5, no. 8, pp. 1-10, 2018. (In English).
74. X. Wu, M. Fan, S. Cui, G. Tan and X. Shen. «Novel Na2SO4@SiO2 phase change material with core-shell structures for high temperature thermal storage». Sol Energy Mater Sol Cells, Vol. 178, pp. 280-288, 2018. (In English).
75. R. Gurny. «Development of biodegradable and injectable latices for controlled release of potent drugs», Drug development and indastrial phurmacy, Vol. 7, pp. 1-25, 1981. (In English).
76. N.K. Jain. «Controlled and Novel drug delivery. CBS Publisher». pp. 236-237, 1997. (In English).
77. Vyas S.P, Khar R.K. Targeted and Controlled drug delivery. CBS Publisher, 2002, 418. (In English).
78. «Polimery kak funktsional'nyye i vspomogatel'nyye materialy dlya sozdaniya lekarstvennykh form meditsinskikh preparatov». StudFiles ["Polymers as functional and auxiliary materials for the creation of dosage forms of medical preparations". StudFiles]. Available at: https://studfile.net/preview/7207447/page:10/. (In Russian).
79. N. Men'shutina. «Tekhnologii inkapsulyatsii» ["Encapsulation Technologies"], Farmatsevticheskiye tekhnologii [Pharmaceutical Technologies], no. 5, pp. 30-33, 2014. (In Russian).
80. E. Pope, C. Cartmell, B. Haltli, A. Ahmadi and R.G. Kerr. «Microencapsulation and in situ incubation methodology for the cultivation of marine bacteria», Sec. Aquatic Microbiology, p. 11, 2022. (In English).
81. B. Berdy, A.L. Spoering, L.L. Ling and S.S. Epstein. «In situ cultivation of previously uncultivable microorganisms using the ichip», Nat. Protoc., Vol. 12, pp. 2232–2242, 2017. (In English).
82. C. Tomaro-Duchesneau, S. Saha, M. Malhotra, I. Kahouli and S. Prakash. «Microencapsulation for the Therapeutic Delivery of Drugs, Live Mammalian and Bacterial Cells, and Other Biopharmaceutics: Current Status and Future Directions»,
J Pharm (Cairo), p. 103527, 2013. (In English).
83. M.A. Garg, K. Chhipa and L. Kumar. «Microencapsulation techniques in pharmaceutical formulation», European journal of pharmaceutical and medical research, Vol. 5, no 3, pp. 199-206, 2022. (In English).
84. S. Iravani, H. Korbekandi and S.V. Mirmohammadi. «Technology and potential applications of probiotic encapsulation in fermented milk products», J Food Sci Technol, Vol. 52, no 8, pp. 4679-96, 2014. (In English).
85. A.M. Bakry, S. Abbas, B. Ali, H. Majeed, M.Y. Abouelwafa, A. Mousal and L. Liang. «Microencapsulation of Oils:
A Comprehensive Review of Benefits, Techniques, and Applications», Compr Rev Food Sci Food Saf, Vol. 15, no. 1, pp. 143-182, 2016. (In English).
86. S.-B.K. Suengmok Cho. «The processing optimization of caviar analogs encapsulated by calcium-alginate gel membranes», Food Science and Biotechnology, Vol. 16, no 4, pp. 557-564, 2007. (In English).
87. Saihi D, Vroman I, S. Giraud, S. Bourbigot. Microencapsulation of ammonium phosphate with a polyurethane shell. Part II. Interfacial polymerization technique, Reactive and Functional Polymers 2006,66: pp.1118–1125. (In English).
88. A. Attila Hincal and H. Suheyla Kas, Handbook of Pharmaceutical Controlled Release Technology; Microencapsulation Technology: Interfacial Polymerization Method, pp. 271-286. (In English).
89. Viki Brif. Available at: https://ru.wikibrief.org/wiki/Interfacial_polymerization. (accessed: 20.07.2022). (In English).
90. C. Perignon, G. Ongmayeb, R. Neufeld, Y. Frere and D. Poncelet. «Microencapsulation by interfacial polymerisation: membrane formation and structure», J Microencapsul, Vol. 32,
no. 1, pp. 1-15, 2015. (In English).
91. C. Barrow, B. Wang, B. Adhikari and H. Liu. «Spray drying and encapsulatoin og omega-3 oils», Woodhead Puplishing Limited, Cambridge, UK, pp. 194-219, 2013. (In English).
92. K.-i. Shimokawa, K. Saegusa, Y. Wada and F. Ishii. «Physicochemical properties and controlled drug release of microcapsules prepared by simple concervation», Colloids and Surfaces B: Biointerfaces, Vol. 104, no. 1, pp. 1-4, 2013.
(In English).
93. B. Ocak, G. Gülümser and E. Baloğlu. «Microencapsulation of Melaleuca alternifolia (Tea Tree) Oil by Using Simple Coacervation Method», Journal of Essential Oil Research, Vol. 23, no. 4, pp. 58-65, 2011. (In English).
94. E.J. o. P.A. Biopharmaceutics. «Microencapsulation of citronella oil for mosquito-repellent application: Formulation and in vitro permeation studies», European Journal of Pharmaceutics and Biopharmaceutics, Vol. 80, no 1, pp. 61-66, 2012. (In English).
95. J. Lazkoa, Y. Popineaub and J. Legrand. «Soy glycinin microcapsules by simple coacervation method», Colloids and Surfaces B: Biointerfaces, Vol. 37, no. 1-2, pp. 1-8, 2004. (In English).
96. F. V.Leimann, O.H. Gonçalves, A.F. Ricardo and M.A. Bolzan. «Antimicrobial activity of microencapsulated lemongrass essential oil and the effect of experimental parameters on microcapsules size and morphology», Materials Science and Engineering: Vol. 29, no. 2, pp. 430-436, 2009. (In English).
97. Q.X.Ke-Gang Wu. «Microencapsulation of Fish Oil by Simple Coacervation of Hydroxypropyl Methylcellulose», Chinese Journal of Chemistry, Vol. 23, no. 11, pp. 1569-1572, 2005. (In English).
98. M. Jelvehgari and S.H. Montazam. «Comparison of Microencapsulation by Emulsion-Solvent Extraction/Evaporation Technique Using Derivatives Cellulose and Acrylate-Methacrylate Copolymer as Carriers», Jundishapur J Nat Pharm Prod, Vol. 7, no. 4, pp. 144-152, 2012. (In English).
99. H.Y. Karasulu. «Microemulsions as novel drug carriers: the formation, stability, applications and toxicity», Expert Opinion on Drug Delivery, Vol. 5, no. 1, pp. 119-135, 2007. (In English).
100. M.A. Uddin and H.P.Chan. «Adhesive technology for photonics», Advanced Adhesives in Electronics, pp. 214-258, 2011.(In English).
101. C.P. Reis, J.R. Neufeld, J.A. Ribeiro and F.Veiga. «Nanoencapsulation I. Methods for preparation», Nanomed Nanotechnol Biol Med, Vol. 2, pp. 8-21, 2006. (In English).
102. J.P. Rao and K.E. Geckeler. «Polymer nanoparticles: preparation techniques and size control parameters», Polym Sci, Vol. 36, pp. 887-913, 2011.(In English).
103. I.D. Rosca, F. Watari and M. Uo. «Microparticle formation and its mechanism in single and double emulsion solvent» . Control. Release, Vol. 99, no. 2, pp. 271-280, 2004. (In English).
104. J. Siepmann and F. Siepmann. «Microparticles used as drug», Prog.Coll. Pol. Sci., Vol. 133, pp. 15-21, 2006. (In English).
105. Kamyshny A, Megdassi S. Microencapsulation. Encyclopedia Surface Colloidal Sci. 2004:1–1. (In English).
106. Ye.A. Kirzhanova, M.A. Pechenkin, N.D. Demina and N.G. Balabusheva. «Mikro- i nanochastitsy iz al'ginita i khitozina dlya transmukozal'noy dostavki belka» ["Micro- and nanoparticles from alginite and chitosin for transmucosal protein delivery]. Vol. 57,
no. 2, pp. 103-110, 2016. (In Russian).
107. «Osnovy vzaimodeystviya biologicheskikh tkaney s iskusstvennymi materialami». ["Foundations of interaction of biological tissues with artificial materials"]. Available at: http://www.ispms.ru/files/Publications/sharkeev_2013/pdf/5_4.pdf. (In Russian).
108. Gonzalez-Rodriguez ML, Holgado MA, Sanchez-Lafuente C, Rabasco AM, Fini A. Alginate/chitosan particulate systems for sodium diclofenac release. Int J Pharm. 2002;232(1-2):225-34.
(In English).
109. Manjanna, K.M., Shivakumar, B.,& Kumar, T. M. P. (2010). Microencapsulation: An Acclaimed Novel Drug-Delivery System for NSAIDs in Arthritis. Critical Reviews in Therapeutic Drug Carrier Systems, 27(6), 509–545. (In English).
110. B.Kh. Musabayeva, K.B. Murzagulova, M.Ye. Kim, V.A. Izumrudov and Z.Zh. Aripzhanova. «Polucheniye mikrokapsul protivotuberkuleznykh preparatov na osnove biopolimerov i polielektrolitov» ["Obtaining microcapsules of anti-tuberculosis drugs based on biopolymers and polyelectrolytes"], Vol. 5, no. 2, 2017. (In Russian).
111. A.N. Baranov, T.V. Bukreyeva, I.V. Marchenko, G.S. Plotnikov and A.M. Saletskiy. «Polucheniye polielektrolitnykh mikrokapsul s khimicheski svyazannymi i adsorbirovannymi molekulami fluoristseina, izotiotsianata i ikh razrusheniye pri lazernykh vozdeystviyakh» ["Obtaining polyelectrolyte microcapsules with chemically bound and adsorbed molecules of fluoriscein, isothiocyanate and their destruction under laser exposure"], no. 5, 2011. (In Russian).
112. D.J. Schmidt, J.S. Moskowitz and P.T.Hammond. «Electrically Triggered Release of a Small Molecule Drug from a Polyelectrolyte Multilayer Coating». (In English).
113. V.I. Chuyeshov and Ye.V. Gladukh. Tekhnologiya lekarstv promyshlennogo proizvodstva [Technology of drugs for industrial production]. Kazan': “Novaya Kniga” Publ., 2014. (In Russian).
114. S. Banerjee, R. Premchandran, M. Tata, V.T. John, G.L. McPherson, J. Akkara and D. Kaplan. «Polymer Precipitation Using a Micellar Nonsolvent:  The Role of Surfactant−Polymer Interactions and the Development of a Microencapsulation Technique», Ind. Eng. Chem. Res., Vol. 35, no. 9, pp. 3100-3107, 1996. (In English).
115. J. Godbee, E. Scott, P. Pattamunuch, S. Chen and E. Mathiowitz. «Role of solvent/non-solvent ratio on microsphere formation using the solvent removal method», Journal of Microencapsulation, Vol. 21, no. 2, pp. 151-160, 2004. (In English).
116. S.H. Soh and L.Y. Lee. «Microencapsulation and Nanoencapsulation Using Supercritical Fluid (SCF) Techniques», Pharmaceutics, Vol. 11, no. 21, pp. 1-18, 2019. (In English).
117. L.Y. Lee, C.H. Wang and K.A. Smith. «Supercritical antisolvent production of biodegradable micro- and nanoparticles for controlled delivery of paclitaxel», J. Control., Vol. 125, pp. 96-106, 2008. (In English).
118. G. Murtaza, M. Ahmad and G. Shahnaz. «Microencapsulation of Diclofenac Sodium by Nonsolvent Addition Technique», Tropical Journal of Pharmaceutical Research, Vol. 9, no. 2, pp. 187-195, 2010. (In English).
119. Y. Taguchi, N. Saito, A. Uchida and M. Tanaka. «Preparation of Thermosensitive Microcapsules Containing Water Soluble Powder by Melting Dispersion Cooling Method», Journal of Encapsulation and Adsorption Sciences, Vol. 6, no. 3, pp. 57-69, 2016. (In English).
120. N. Trivedi and R. Parameshwaran. «Cryogenic conditioning of microencapsulated phase change material for thermal energy storage», Nature reserch, Vol. 10, pp. 1-11, 2020. (In English).
121. J.D. Oxley. «Spray cooling and spray chilling for», Woodhead Publishing Limited, pp. 110-130, 2012. (In English).
122. B.F. Gibbs, S. Kermasha, I. Alli and C.N. Mulligan. «Encapsulation in the food industry: a review», International Journal of Food Sciences and Nutrition, Vol. 50, pp. 213-224, 1999. (In English).
123. P. Vilstrup. «Effects of lipids on mechanical and moisture barrier properties of edible gellan film», Food Research International, Vol. 33, pp. 571-578, 2001. (In English).
124. Pudziuvelyte L. et al. Freeze-drying technique for microencapsulation of Elsholtzia ciliata ethanolic extract using different coating materials // Molecules. – 2020. – Vol. 25. – no. 9. – p. 2237. Online. (In English).
125. Ezhilarasi P. N. et al. Freeze drying technique for microencapsulation of Garcinia fruit extract and its effect on bread quality // Journal of Food Engineering. – 2013. – Vol. 117. – no. 4. – pp. 513-520. (In English).
126. El-Abbassi A. et al. Recent advances in microencapsulation of bioactive compounds // Analytical and Processing Techniques. – 2015. – Vol. 41. – pp. 129-146. (In English).
127. H.A. Schiffter, European Pharmaceutical Review, Vol. 3, 2007. (In English).
128. A. Rezvankhah, Z. Emam-Djomeh and G. Askari. «Encapsulation and delivery of bioactive compounds using spray and freeze-drying techniques: A review», Dry. Technol, Vol. 38, pp. 235-258, 2019. (In English).
129. A. Jeyakumari. «Microencapsulation of Bioactive Food Ingredients and Controlled Release—A Review», MOJ Food Process. Technol., Vol. 2, pp. 214-224, 2016. (In English).
130. L. Šturm, I.G.O. Črnivec, K. Istenič, A. Ota, P. Megušar,
A. Slukan, M. Humar, S. Levic, V. Nedović and R. Kopinč. «Encapsulation of non-dewaxed propolis by freeze-drying and spray-drying using gum Arabic, maltodextrin and inulin as coating materials», Food Bioprod. Process, Vol. 116, pp. 196-211, 2019. (In Enlish).
131. A. Wilkowska, W. Ambroziak, A. Czyzowska and J. Adamiec. «Effect of Microencapsulation by Spray-Drying and Freeze-Drying Technique on the Antioxidant Properties of Blueberry (Vaccinium myrtillus) Juice Polyphenolic Compounds», Pol. J. Food Nutr. Sci, Vol. 66, pp. 11-16, 2016. (In English).
132. Kalogiannis, C.G., Michailof, C.M., & Panayiotou, C.G. (2006). Microencapsulation of Amoxicillin in Poly(l-lactic acid) by Supercritical Antisolvent Precipitation. Industrial & Engineering Chemistry Research, 45(25), 8738–8743. (In English).
133. Kalogiannis, C.G.; Pavlidou, E.; Panayiotou, C.G. Production of Amoxicillin Microparticles by Supercritical Antisolvent Precipitation. Ind. Eng. Chem. Res. 2005, 44, 9339. (In English).
134. Ye.Ye. Bykovskaya. «Sposob polucheniya mikrokapsul lekarstvennykh preparatov gruppy tsefalosporinov v konzhakovoy kamedi v khloroforme». ["Method for producing microcapsules of medicines of the cephalosporin group in konjac gum in chloroform"]. RU Patent 2012119204, 10.09.2013. (In Russian).
135. Ye.Ye. Bykova. «Sposob polucheniya mikrokapsul vodorastvorimykh preparatov pestitsidov» ["Method for obtaining microcapsules of water-soluble pesticide preparations"]. RU Patent 2572992, 2014. (In Russian).
136. Ye.Ye. Bykovskaya and A.A. Krolevets. «Sposob polucheniya mikrokapsul rivanola v vodorastvorimykh polimerakh» ["A method for obtaining rivanol microcapsules in water-soluble polymers"]. RU Patent 21601258, 27.07.2013. (In Russian).
137. «Mikroinkapsulyatsiya - Micro-encapsulation» ["Micro-encapsulation - Micro-encapsulation"]. Available at: https://ru.xcv.wiki/wiki/Micro-encapsulation. (accessed: 08.06.2021). (In Russian).
138. P.K. Mehrotra. «Production of Granulated Powder by Spray Drying», in Comprehensive Hard Materials, 2014. (In English).
139. Risch SJ. Encapsulation of flavors by extrusion. In: Flavor encapsulation, vol. 370(ACS Symposium Series, no. 370): American Chemical Society, 1988:103–109.10.1021/bk-1988-0370. (In English).
140. Zhang, H., Dicker, K.T., Xu,X.,Jia, X., & Fox, J. M. (2014). Interfacial Bioorthogonal Cross-Linking. ACS Macro Letters, 3(8), 727–731. (In English).
141. Taki, S.; Badens, E.; Charbit, G. Controlled release system formed by supercritical anti-solvent coprecipitation of a herbicide and a biodegrad able polymer. J. Supercrit. Fluids 2001, 21, 61. (In English).
142. P.A. Carmona, L.C. Garcia, J. . d. A.Ribeiro, F.L. Valadares, A.d.F. Marçal, F.L.d. França and S. Mendonça. «Effect of Solids Content and Spray-Drying Operating Conditions on the Carotenoids Microencapsulation from Pressed Palm Fiber Oil Extracted with Supercritical CO2», Food Bioprocess. Technol., no. 11, pp. 1703-1718, 2018. (In English).
143. B.T. Nikolayeva, P.A. Mencherova, O.O. Aleksandrova and B.T. Vladimirova. «Sposob modifikatsii obolochek polielektrolitnykh kapsul nanochastitsami magnetita» [“Method for modifying shells of polyelectrolyte capsules with magnetite nanoparticles”]. Patent RU 2 522 204 C2, 10.07.2014.(In Russian).
144. B. Wang, T.O. Akanbi, D. Agyei, B.J. Holland and C.J. Barrow. «Coacervation Technique as an Encapsulation and Delivery Tool for Hydrophobic Biofunctional Compounds», In book: Role of Materials Science in Food Bioengineering, pp. 235-261, 2018235-261. (In English).

Комментарии посетителей сайта

    Функция комментирования доступна только для зарегистрированных пользователей

    Авторизация


    регистрация

    Максимов А.Л.

    Максимов А.Л.

    член-корр. РАН, директор

    ИНХС РАН

    Антонов С.В.

    Антонов С.В.

    к.х.н., заместитель директора

    Институт нефтехимического синтеза Российской Академии наук

    Алиева Л.А.

    Алиева Л.А.

    старший аналитик МЭАЦ

    Союз нефтегазопромышленников России

    Замрий А.В.

    Замрий А.В.

    исполнительный директор МЭАЦ

    Союз нефтегазопромышленников России

    Котикова Е.Д.

    Котикова Е.Д.

    аналитик МЭАЦ

    Союз нефтегазопромышленников России

    Кострубова И.С.

    Кострубова И.С.

    аналитик МЭАЦ

    Межотраслевой экспертно-аналитический центр Союза нефтегазопромышленников

    Безруков Н.П.

    Безруков Н.П.

    младший научный сотрудник ИНХС РАН

    Институт нефтехимического синтеза Российской Академии наук

    Хаматов А.Р.

    Хаматов А.Р.

    аналитик

    МЭАЦ СНГПР

    Ключевые слова: микрокапсулирование, распылительная сушка, экструзия, осадитель, метод Шерера, in-situ, УМК
    Keywords: microencapsulation, spray drying, extrusion, precipitant, Scherer method, in-situ, UMK

    Просмотров статьи: 1325

    Рейтинг@Mail.ru

    admin@burneft.ru