Процесс получения макропористых частиц гидрогелей на основе поливинилового спирта
Диссертация
В настоящее время все большее внимание исследователей привлекают полимерные гидрогели, представляющие собой химически сшитые полимерные тела, способные к обратимому набуханию в воде и водных растворах. Гидрогели находят широкое применение в качестве сорбентов, фильтров, каталитических систем, в качестве материалов для гидроразбухающей герметизации. Как материалы биомедицинского… Читать ещё >
Список литературы
- Jie Wu, Zhi-Guo Su, Guang-Hui Ma. A thermo- and pH-sensitive hydrogel composed of quaternized chitosan/glycerophosphate // International Journal of Pharmaceutics. 2006. Volume 315. Issue 12. Pp. 1−11.
- Wen-Yu Su, Yu-Chun Chen, Feng-Huei Lin. Injectable oxidized hyaluronic acid/adipic acid dihydrazide hydrogel for nucleus pulposus regeneration // Acta Biomaterialia. 2010. Volume 6. Issue 8. Pp. 3044−3055.
- Xiaohong Hu, Dan Li, Feng Zhou, Changyou Gao. Biological hydrogel synthesized from hyaluronic acid, gelatin and chondroitin sulfate by click chemistry//Acta Biomaterialia. 2011. Volume 7. Issue 4. Pp. 1618−1626.
- Stammen J.A., Williams S., Ku D.N., Guldberg R.E. Mechanical properties of a novel PVA hydrogel in shear and unconfined compression // Biomaterials-2000, Volume 22. Pp. 799−806.
- Hassan C.M., Ward J.H., Peppas N.A. Modeling of crystal dissolution of poly (vinyl alcohol) gels produced by freezing/thawing processes // Polymer. 2000. Volume 41. Pp. 6729−6739.
- Hernandez R., Sarafian A., Lopez D., Mijangos C. A reappraisal of the 'thermoreversible' gelation of aqueous poly (vinyl alcohol) solutions through freezing-thawing cycles // Polymer. 2002. Volume 43. Pp. 5661−5663.
- Ijima II., Ohchi T., Ono T., Kawakami K. Hydroxyapatite for use as an animal cell culture substratum obtained by an alternate soaking process // Biochemical Engineering Journal. 2004. Volume 20. Pp. 155−161.
- Kim S.J., Park S. J., Kim Sun Issue Syntesis and characteristics of interpenetrating polymer network hydrogels composed of poly (vinyl alcohol) and poly (N-isopropylacrylamide) // Reactive & Functional Polymers. 2003. Volume 55. Pp. 61−67.
- Shafee E. El., Nag H.F. Water sorption in cross-linked poly (vinyI alcohol) networks // Polymer. 2003. Volume 44. Pp. 1647−1653.
- D. Darwis, P. Stasica, M.T. Razzak, J. M. Rosiak. Characterization of poly (vinyl alcohol) hydrogel for prosthetic intervertebral disc nucleus // Radiation Physics and Chemistry. 2002. Volume 63. Pp. 539−542.
- Kim S.J., Park S. J., Kim S. Issue Swelling behavior of interpenetrating polymer network hydrogels composed of poly (vinyl alcohol) and chitosan // Reactive & Functional Polymers. 2003. Volume 55. Pp. 53−59.
- Park K. R., Nho Y. C. Synthesis of hydrogels by irradiation of polymers in aqueous solution // Radiation Physics and Chemistry. 2003. Volume67. P. 361−365
- M. T. Razzak, D. Darwis, Z. Sukirno. Irradiation of polyvinyl alcohol and polyvinyl pyrrolidone blended hydrogel for wound dressing. Radiation Physics and Chemistry. 2001. Volume 62. Pp. 107−113.
- Zhai M., Yoshii F., Kume T., Hashim K. Syntheses of PVA/starch grafted hydrogels by irradiation // Carbohydrate Polymers. 2002. Volume50. Pp. 295−303.
- Yamamoto Y., Tagawa S. Radiolytically prepared poly (vinyl alcohol) hydrogel containing a-cyclodextrin // Radiation Physics and Chemistry. 2004. Volume 69. Pp. 347−349.
- Martens P., Anseth K.S. Characterization of hydrogels formed from acrylate modified poly (vinyl alcohol) macromers // Polymer. 2000. Volume 41. 77 157 722.
- Gunanan C.M., Storie B., Smith P., Knight P. M // Polym.Mater.Sci.Eng. 1993. Volume 69. Pp. 506−507.
- Shaoyu Lii, Mingzhu Liu, Boli Ni. Degradable, injectable poly (N-isopropylacrylamide)-based hydrogels with low gelation concentrations forprotein delivery application // Chemical Engineering Journal. 2011. Volume 173. Issue 1. Pp. 241−250.
- Nikolaos A. Peppas, Shauna R. Stauffer. Reinforced uncrosslinked poly (vinyl alcohol) gels produced by cyclic freezing-thawing processes: a short review // Journal of Controlled Release. 1991. Volume 16. Issue 3. Pp. 305−310.
- Nikolaos A. Peppas, Jill E. Scott. Controlled release from poly (vinyl alcohol) gels prepared by freezing-thawing processes // Journal of Controlled Release. Volume 18. Issue 2. February 1992. Pp. 95−100.
- Becky J. Ficek, Nikolaos A. Peppas. Novel preparation of poly (vinyl alcohol) microparticles without crosslinking agent for controlled drug delivery of proteins // Journal of Controlled Release. 1993. Volume 27. Issue 3. Pp. 259 264.
- H. Yasunaga, Y. Shirakawa, H. Urakawa, K. Kajiwara. Dynamic behaviour of water in hydrogel containing hydrophobic side chains as studied by pulse 1H NMR//Journal of Molecular Structure. 2002. Volume 602. 603. Pp. 399−404.
- N.A. Peppas, P. Bures, W. Leobandunga, H. Ichikawa. Hydrogels in pharmaceutical formulations // European Journal of Pharmaceutics and Biopharmaceutics. Volume 50, Issue 1, 3 July 2000, Pp. 2716.
- Ying Zhou, Yinghui Zhao, Lu Wang, Ling Xu, Maolin Zhai, Shicheng Wei. Radiation synthesis and characterization of nanosilver/gelatin/carboxymethyl chitosan hydrogel // Radiation Physics and Chemistry. 2012. Volume 81. Issue 5. Pp. 553−560.
- Lan Wei, Chunhua Cai, Jiaping Lin, Tao Chen. Dual-drug delivery system based on hydrogel/micelle composites // Biomaterials. 2009. Volume 30. Issue 13. Pp.2606−2613.
- M. George, T.E. Abraham. pH sensitive alginate-guar gum hydrogel for the controlled delivery of protein drugs // International Journal of Pharmaceutics. 2007. Volume 335. Issues 1−2. Pp. 123−129.
- Xian Jun Loh, Priscilla Peh, Susan Liao, Colin Sng, Jun Li. Controlled drug release from biodegradable thermoresponsive physical hydrogel nanofibers // Journal of Controlled Release. 2010. Volume 143. Issue 2. Pp. 175−182.
- Congming Xiao, Nannan Geng. Tailored preparation of dual phase concomitant methylcellulose/poly (vinyl alcohol) physical hydrogel with tunable thermosensivity // European Polymer Journal. 2009. Volume 45. Issue 4. Pp. 1086−1091.
- Daniel Cohn, Gilad Lando, Alejandro Sosnik, Shai Garty, Avraham Levi. PEO-PPO-PEO-based poly (ether ester urethane) s as degradable reverse thermo-responsive multiblock copolymers // Biomaterials. 2006. Volume 27. Issue 9. Pp. 1718−1727.
- Tao Wang, Xiao-Kang Zhu, Xu-Ting Xue, Da-Yang Wu. Hydrogel sheets of chitosan, honey and gelatin as burn wound dressings // Carbohydrate Polymers. 2012. Volume 88. Issue 1. Pp.75−83.
- Kwangwoo Nam, Junji Watanabe, Kazuhiko Ishihara. Network structure of spontaneously forming physically cross-link hydrogel composed of two-water soluble phospholipid polymers // Polymer. 2005. Volume 46. Issue 13. Pp.4704713.
- Nuttelman C. R., Henry S. M., Anseth K. S. Synthesis and characterization of photocrosslinkable, degradable poly (vinyl alcohol)-based tissue engineering scaffolds. // Biomaterials. 2002. Volume 23. Pp. 3617−3626.
- Yan Li, David Julian McClements. Controlling lipid digestion by encapsulation of protein-stabilized lipid droplets within alginate-chitosan complex coacervates // Food Hydrocolloids. 2011. Volume 25. Issue 5. Pp. 1025−1033.
- S.L. Turgeon, C. Schmitt, C. Sanchez. Protein-polysaccharide complexes and coacervates // Current Opinion in Colloid & Interface Science. 2007. Volume 12. Issues 4−5. Pp. 166−178.
- El-Refaie Kenawy, Mohamed H. El-Newehy, Salem S. Al-Deyab. Controlled release of atenolol from freeze/thawed poly (vinyl alcohol) hydrogel // Journal of Saudi Chemical Society. 2010. Volume 14. Issue 2. Pp. 237−240.
- Hongxia Liu, Chaoyang Wang, Quanxing Gao, Xinxing Liu, Zhen Tong. Fabrication of novel core-shell hybrid alginate hydrogel beads // International Journal of Pharmaceutics. 2008. Volume 351. Issues 1−2. Pp. 104−112.
- David J. S Birch, Chris D Geddes. Cluster dynamics, growth and syneresis during silica hydrogel polymerization // Chemical Physics Letters. 2000. Volume 320. Issues 31. Pp. 229−236.
- F. Khoylou, F. Naimian. Radiation synthesis of superabsorbent polyethylene oxide/tragacanth hydrogel // Radiation Physics and Chemistry. 2009. Volume 78. Issue 3. Pp. 195−198.
- Lalit Varshney. Role of natural polysaccharides in radiation formation of PVA-hydrogel wound dressing // Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms. 2007. Volume 255. Issue 2. Pp. 343−349.
- Natalja E. Fedorovich, Marion H. Oudshoorn, Daphne van Geemen, Wim E. Hennink, Jacqueline Alblas, Wouter J.A. Dhert. The effect of photopolymerization on stem cells embedded in hydrogels // Biomaterials. 2009. Volume 30. Issue 3. Pp. 344−353.
- Alex A. Aimetti, Alexandra J. Machen, Kristi S. Anseth. Poly (ethylene glycol) hydrogels formed by thiol-ene photopolymerization for enzyme-responsive protein delivery // Biomaterials. 2009. Volume 30. Issue 30. Pp. 6048−6054.
- Shan Jiang, Sha Liu, Wenhao Feng. PVA hydrogel properties for biomedical application // Journal of the Mechanical Behavior of Biomedical Materials. 2011. Volume 4. Issue 7. Pp. 1228−1233.
- Tai-Horng Young, Wen-Yuan Chuang, Meng-Ying Hsieh, Leo-Wang Chen, Jyh-Ping Hsu. Assessment and modeling of poly (vinyl alcohol) bioartificial pancreas in vivo // Biomaterials. 2002. Volume 23. Issue 16. Pp. 3495−3501.
- Masanori Kobayashi, Jyunya Toguchida, Masanori Oka. Preliminary study of polyvinyl alcohol-hydrogel (PVA-H) artificial meniscus // Biomaterials. Volume 24. Issue 4. Pp. 639−647.
- Ruyin Ma, Dangsheng Xiong, Feng Miao, Jinfeng Zhang, Yan Peng. Novel PVP/PVA hydrogels for articular cartilage replacement // Materials Science and Engineering: C. 2009. Volume 29. Issue 6. Pp. 1979−1983.
- C.A. Scotchford, M.G. Cascone, S. Downes, P. Giusti. Osteoblast responses to collagen-PVA bioartificial polymers in vitro: the effects of cross-linking method and collagen content // Biomaterials. 1998. Volume 19. Issues 1−3. Pp. 1−11.
- Atif Islam, Tariq Yasin. Controlled delivery of drug from pH sensitive chitosan/poly (vinyl alcohol) blend // Carbohydrate Polymers. 2012. Volume 88. Issue 3. Pp. 1055−1060.
- Joydip Kundu, Laura A. Poole-Warren, Penny Martens, Subhas C. Kundu. Silk fibroin/poly (vinyl alcohol) photocrosslinked hydrogels for delivery of macromolecular drugs // Acta Biomaterialia. 2012. Volume 8. Issue 5. Pp. 1720−1729.
- J. Ding, R. He, G. Zhou, C. Tang, C. Yin. Multilayered mucoadhesive hydrogel films based on thiolated hyaluronic acid and polyvinylalcohol for insulin delivery//Acta Biomaterialia. 2012. Volume 8. Issue 10. Pp. 3643−3651.
- Yanyan Zhao, Siqi Gao, Shuang Zhao, Yimin Li, Lin Cheng, Junjie Li, Yuji Yin. Synthesis and characterization of disulfide-crosslinked alginate hydrogel scaffolds // Materials Science and Engineering: C. 2012. Volume 32. Issue 8. Pp. 2153−2162.
- Atif Islam, Tariq Yasin. Controlled delivery of drug from pH sensitive chitosan/poly (vinyl alcohol) blend // Carbohydrate Polymers. 2012. Volume 88. Issues 3−15. Pp. 1055−1060.
- Chen J, Blevins W. E, Park H, Park K. Gastric retention properties of supeiporous hydrogel composites // Journal of Controlled Released. 2000. Volume 64. Pp. 39−51.
- Shapiro L., Cohen S. Novel alginate sponges for cell culture and transplantation// Biomaterials. 1997. Volume 18. Pp. 583−593.
- Oxley, Corkhill P.H., Fitton J.H., Tighe B.J. Macroporous hydrogels for biomedical applications: methodology and morphology // Biomaterials. 1996. Volume 14. Pp. 1064−1072.
- Lozinsky V.I., Plieva F.M., Galaev I.Yu. The potential of polymeric cryogels in bioseparation // Bioseparation. 2001. Volume 10. Issues 4−5. Pp.163−188.
- Штильман М.И., Артюхов A.A., Козлов B.C., Тсатсакис A.M. Эпоксидсодержащие пористые гидрогели поли- (2-гидроксиэтил-метакрилата): исследование влияния условий синтеза // Пластические массы. 2002. № 7. 24−28 с.
- T.G. Van Thienen, J. Demeester, S.C. De Smedt. Screening poly (ethyleneglycol) micro- and nanogels for drug delivery purposes // International Journal of Pharmaceutics. 2008. Volume 351. Pp. 174−185.
- Лозинский В.И., Криогели на основе природных синтетических полимеров: получение, свойства и области применения // Успехи химии. 2002. Том 71. № 6. 559−585 с.
- Лозинский В.И., Криотропное гелеобразование растворов поливинилового спирта // Успехи химии. 1998. Том 67. № 7. 641−665 с.
- Артюхов А.А. Макропористые гидрогели на основе сшитого поливинилового спирта : дис.. канд. хим. наук: 02.00.06 Москва, 2006. 152 с.
- Барамбойм Н.К. // Механохимия высокомолекулярных соединений. М: Химия. 1978. 275 с.
- B.G. De Geest, M.J. McShane, J. Demeester, S.C. De Smedt, W.E. Hennink. Microcapsules ejecting nanosized species into the environment // Journal of American Chemical Society. 2008. Volume 130. Pp. 14 480−14 482.
- X.Z. Zhang, C.C. Chu. A responsive poly (N-isopropylacrylamide)/poly (ethylene glycol) diacrylate hydrogel microsphere // Colloid and Polymer Science. 2004. Volume 282. Pp. 1415−1420.
- B.G. De Geest, S. De Koker, K. Immesoete, J. Demeester, S.C. De Smedt, W.E. Hennink. Self-exploding beads releasing microcarriers // Advanced Materials. 2008. Volume 20. Pp. 3687.
- F. Candau. Inverse emulstion and microemulsion polymerization // P.A. Lovell, M.S. Elaasser (Eds.), Emulsion polymerization and emulsion polymers, John Wiley, Chichester. 1997. Pp. 723−741.
- W. Leobandung, H. Ichikawa, Y. Fukumori, N.A. Peppas. Monodisperse nanoparticles of poly (ethylene glycol) macromers and N-isopropyl acrylamide for biomedical applications // Journal of Applied Polymer Science. 2003. Volume 87. Pp. 1678−1684.
- H. Kawaguchi, M. Kawahara, N. Yaguchi, F. Hoshino, Y. Ohtsuka. Hydrogel microspheres. 1. Preparation of monodisperse hydrogel microspheres of submicron or micron size // Polymer Journal 1988. Volume 20. Pp. 903−909.
- H. Kawaguchi, Y. Yamada, S. Kataoka, Y. Morita, Y. Ohtsuka. Hydrogel microspheres. 2. Precipitation copolymerization of acrylamide with comonomers to prepare monodisperse hydrogel microspheres // Polymer Journal. 1991. Volume 23. Pp. 955−962.
- H. Kawaguchi, K. Fujimoto, Y. Mizuhara. Hydrogel microspheres III. Temperature-dependent adsorption of proteins on poly-N-isopropylacrylamide hydrogel microspheres // Colloid Polymer Science. 1992. Volume 270. Pp. 53−57.
- D. Hunkeler, F. Candau, C. Pichot, A.E. Hemielec, T.Y. Xie, J. Barton et al. Heterophase polymerizations—a physical and kinetic comparison and categorization // Advanced Polymer Science. 1994. Volume 112. Pp. 115−133.
- A. Pross, K. Platkowski, K.H. Reichert. The inverse emulsion polymerization of acrylamide with pentaerythritolmyristate as emulsifier—1. Experimental studies // Polymer International. 1998. Volume 45. Pp. 22−26.
- P.A. Lovell, M.S. El-Aasser (Eds.), Emulsion polymerization and emulsion polymers, John Wiley, Chicester. 1997.
- Jaleh Varshosaz, Sharareh Eskandari, Majid Tabbakhian. Freeze-drying of nanostructure lipid carriers by different carbohydrate polymers used as cryoprotectants // Carbohydrate Polymers. 2012. Volume 88, Issue 4. Pp. 1157−1163.
- Ai-min Shia, Dong Lia, Li-jun Wangb, Benu Adhikari. Rheological properties of suspensions containing cross-linked starch nanoparticles prepared by spray and vacuum freeze drying methods // Carbohydrate Polymers. 2012. Volume 90. Issue 4. Pp. 1732−1738.
- Yuchuan Wang, Min Zhang, Arun S. Mujumdar, Kebitsamang Joseph Mothibe, S.M. Roknul Azam // Journal of Food Engineering. 2012. Volume 113. Issue 2. Pp. 177−185.
- Nathdanai Harnkarnsujarit, Sanguansri Charoenrein, Yrjo H. Roos. Microstructure formation of maltodextrin and sugar matrices in freeze-dried systems // Carbohydrate Polymers. 2012. Volume 88, Issue 2.Pp. 734−742
- Ai-Min Shia, Li-Jun Wangb, Dong Lia, Benu Adhikari. The effect of annealing and cryoprotectants on the properties of vacuum-freeze dried starch nanoparticles // Carbohydrate Polymers. 2012. Volume 88. Issue 4. Pp. 1334— 1341.
- Wei WANGa, Mo CHENa, Guohua CHEN. Issues in Freeze Drying of Aqueous Solutions // Chinese Journal of Chemical Engineering. 2012. Volume 20. Issue 3. Pp. 551−559.
- Carapelle A. A study of vacuum freeze-drying of frozen wet papers Text. / A. Carapelle, M. Henrist, F. Rabecki // Drying Technology. 2001. Volume 19. Issue 6. Pp. 1113−1124.
- Лыков А. В. Теория сушки Текст. / А. В. Лыков // М., Энергия. 1968.
- Aurrelie Hottota, Kyuya Nakagawab, Julien Andrieua, Effect of ultrasound-controlled nucleation on structural and morphological properties of freeze-dried mannitol solutions // chemical engineering research and design. 2008. Volume 86. Pp. 193−200
- Kudra T. Advanced drying technologies Text. / T. Kudra, A. S. Mujumdar // Marcel Dekker Inc. New York, Basel. 2002. Pp. 459.
- Sonner Y.-F., Maa, G. Lee Spray-Freeze-Drying for Protein Powder Preparation: Particle Characterization and a Case Study with Trypsinogen
- Stability Text. / Y.-F. Sonner, G. Maa // Journal of Pharmaceutical Sciences. 2002. Volume 91. Issue 10. Pp.21 -22.
- Yuh-Fun Maa, Phuung-Anh Nguyen. Method of spray drying proteins for pharmaceutical administration. US 6 284 282 A61K 9/17. 1999.
- Камовников Б. П. Атмосферная сублимационная сушка пищевых продуктов Текст. / Б. П. Камовников // М.: Колос. 1994. 225 с.
- Wang Z. L. Powder formation by atmospheric spray-freeze-drying Text. / Z. L. Wang, W. H. Finlay, M.S. Peppier, L.G. Sweeney // Powder Technology. 2006. Volume 170. Pp. 45−52.
- Zhaolin Wang, Warren H. Finlay, Anthony R. Lambert. Powder formation by atmosperic spray-freeze drying. Partent CA 2 450 779 Al. 2003.
- H. Leuenberger. Spray Freeze-drying The Process of Choice for Low Water Soluble Drugs? // Journal of Nanoparticle Research. 2002. Volume 4. Issue 1−2. Pp. 111−119.
- Hans Leuenberger, Matthias Plitzko, Maxim Puchkov. Spray Freeze Drying in a Fluidized Bed at Normal and Low Pressure // Drying Technology. 2006. Volume 24. Pp. 711−719.
- Патент на полезную модель RU (11) 98 672 (13) U1. Меньшутина H.B., Зеркаев A.M., Гордиенко М. Г., Диденко А. А. УСТАНОВКА ДЛЯ СУБЛИМАЦИОННОЙ СУШКИ БИОЛОГИЧЕСКИ АКТИВНЫХ ВЕЩЕСТВ. 14.10.2008.
- Заявка на изобретение RU 2 008 151 495 А. Меньшутина Н. В., Алвес С. В., Зеркаев А. И., Гордиенко М. Г. Способ сушки в псевдоожиженном слое. Дата публикации заявки: 27.06.2010.
- Alves-Filho О., Strommen I. The application of heat pump in drying of biomaterials. // Drying Technology. New York: Marcel Dekker Inc,. 1996. Volume 14. Issue 9. Pp. 2061−2090.
- Alves-Filho O., Strommen I. Heat pump fluidized bed drying of fruit pieces // Heat pump drying of fruits and roots the influence of heat and mass transfer on dryer characteristics. 1996. Pp. 18.
- M.F.G. Boast. FREEZING. Blast and Plate Freezing // Encyclopedia of Food Sciences and Nutrition (Second Edition). 2003. Pp. 2718−2725.
- S.J. Lovatt. REFRIGERATION AND FREEZING TECHNOLOGY. Applications // Encyclopedia of Meat Sciences. 2004. Pp. 1137−1143.
- B.R. Becker, B.A. Fricke. FREEZING. Principles // Encyclopedia of Food Sciences and Nutrition (Second Edition). 2003. Pp. 2706−2711.
- F. Espinosa, R. Avila, J.G. Cervantes, F.J. Solorio. Numerical simulation of simultaneous freezing-melting problems with natural convection // Nuclear Engineering and Design. 2004. Volume 232. Issue 2. Pp. 145−155.
- Svetislav Savovic, James Caldwell. Finite difference solution of one-dimensional Stefan problem with periodic boundary conditions // International Journal of Heat and Mass Transfer. 2003. Volume 46. Issue 15. Pp. 2911−291.
- B. Hallstrom. Mass transport of water in foods a consideration of the engineering aspects//Journal of Food Engineering. 1990. Volume 12. Pp. 4552.
- F.A. Ansari. Finite difference solution of heat and mass transfer problems related to pre-cooling of food // Energy Conversion and Management. 1999. Volume 40. Pp. 795−802.
- Estefania Lopez-Quiroga, Luis T. Antelo, Antonio A. Alonso. Time-scale modeling and optimal control of freeze-drying // Journal of Food Engineering. 2012. Volume 111. Issue 4. Pp. 655−666.
- М.Б. Генералов. Криохимическая технология // Учебное пособие для вузов. -М.: Академкнига. 2006. 325 с: ил.
- Диденко А.А., Ершова А. Н., Гордиенко М. Г., Меньшутина Н. В. Моделирование вакуумной сублимационной сушки // Программные продукты и системы. 2011. № 5. 182−185 с.
- L.A. Segura, С.А. Oyarzun. Experimental evidence of mass transfer mechanisms during freeze-drying in a capillary porous medium // International Journal of Refrigeration. 2012. Volume 35. Issue 8. Pp. 2102−2109.
- C. A. Ward, G. Fang. Expression for predicting liquid evaporation flux: Statistical rate theory approach // Physical Review E. 1999. Volume 59. Pp. 429−440.
- Нигматулин, Р. И. Основы механики гетерогенных сред Текст. / Р. И. Нигматулин. // М.: Наука. 1978. 336 с.
- J. Xiao, R. Bintanja, S.J. Dery, G.W. Mann, P.A. Taylor. An intercomparison among four models of blowing snow. Bondary-Layer Met. 2000. Volume 97. Pp. 109−135.
- Liapis A. I., Litchfield R.D. Optimal control of Freeze dryer-I // Chemical Engineering. 1979. Volume 3. Issue 7. Pp. 975−981, 129.
- Mellor J. D. Fundamentals of Freeze Drying. London: Academic Press Inc. 1978.
- Корнеева A.E., Менынутина H.B., Леуенбергер Г. Моделирование атмосферной сублимационной сушки в фонтанирующем слое // ТОХТ — М., 2005. Том 39. № 6. 629 633 с.
- Мышенков В.И., Мышенков Е. В. Численные методы. Ч. 2. Численное решение обыкновенных дифференциальных уравнений: Учебное пособие для студентов специальности 73 000. М.:МГУЛ, 2005. 109 е.: ил.
- Ортега Дж., Пул У. Введение в численные методы решения дифференциальных уравнений. М.: Наука. 1986. 288 с.
- Tsotsas, Е., Schlonder, E.U., 1987. Vacuum contact drying of mechanically agitated beds: the influence of hygroscopic behaviour on the drying rate curve // Chemical Engeneering. Process. Volume 21. Pp. 199−208.
- Farges, D., Hemati, M., Laguerie, C., Vachet, F., Rousseaux, P. A new approach to contact drying modeling // Drying Techology. 1995. Volume 13. Pp. 1317−1329.
- Маковская Ю.В., Голомидов E.C., Гордиенко М. Г., Менынутина Н. В. Программный комплекс для расчета процесса нанесения покрытия в псевдоожиженном слое // Программные продукты и системы. 2011. № 2 151 155 с.
- Plourde, F., Prat, M. Pore network simulations of drying of capillary porous media. Influence of thermal gradients // International Journal Of Heat Mass Transfer. 2003. Volume 46. Pp. 1293−1307.
- Segura, L.A., Toledo, P.G., 2005. Pore-level modeling of isothermal drying of pore networks. Effects of gravity and pore shape and size distributions // Chemical Engeneering Journal. Volume 111. Pp. 237−252.
- E.-U. Hartge, M. Pogodda, C. Reimers, D. Schwier, G. Gruhn, J. Werther. Flowsheet simulation of solids processes // KONA Powder and Particle. 2006. Volume 24. Pp. 146−158.
- Burgschweiger, J., Tsotsas, E., 2002. Experimental investigation and modelling of continuous fluidized bed drying under steady-state and dynamic conditions // Chemical Engineering Science. Volume 57. 5021−5038.
- Zhu, H.P., Zhou, Z.Y., Yang, R.Y., Yu, A.B., 2007. Discrete particle simulation of particulate systems: Theoretical developments // Chemical Engineering Science. Volume 62. Pp. 3378−3396.
- Kwapinska, M., Saage, G., Tsotsas, E., 2008. Continuous versus discrete modelling of heat transfer to agitated beds // Powder Technology. Volume 181. Pp. 331−342.
- Ronsse F., Pieters J.G., Dewettinck K. Numerical Spray Model of the Fluidized Bed Coating Process //Drying Technology. 2007. Volume 25. Pp. 1491−1514.
- A.W. Vremana, C.E. van Larea, M.J. Hounslow. A basic population balance model for fluid bed spray granulation // Chemical Engineering Science. 2009. Volume 64. Issue 21. Pp. 4389−4398.
- K. Redemann, E.-U. Hartge, Joachim Werther. A particle population balancing model for a circulating fluidized bed combustion system // Powder Technology. 2009. Volume 191. Issues 1−2. Pp. 78−90.
- Maryam Karimi, Navid Mostoufi, Reza Zarghami, Rahmat Sotudeh-Gharebagh. A new method for validation of a CFD-DEM model of gas-solid fluidized bed // International Journal of Multiphase Flow. 2012. Volume 47. Pp. 133−140.
- Yuqing Fenga, Tim Swenser-Smitha, Peter J. Witta, Christian Doblinb, Seng Limb, M. Phil Schwarz. CFD modeling of gas-solid flow in an internally circulating fluidized bed // Powder Technology. 2012. Volume 219. Pp. 7885.
- Thomas A. Neumann, Mary R. Albert, Chandler Engel, Zoe Courville, Frank Perron. Sublimation rate and the mass-transfer coefficient for snow sublimation // International Journal of Heat and Mass Transfer. 2009. Volume 52. Issues 1−2. Pp. 309−315.
- A. D. Thorpe and B. J. Mason. The evaporation of ice spheres and ice crystals. British Journal of Applied Physics. 1966. Volume 17. Pp. 541.
- Диденко А.А., Троянкин А. Ю., Каталевич A.M., Меньшутина H.B. Сравнение двух способов сублимационной сушки // Изв. вузов. Химия и хим. технология. 2011. Том 54. № 11. 122−125 с.
- Krishna G. Bhattacharyya, Arunima Sarma. Adsorption characteristics of the dye, Brilliant Green, on Neem leaf powder // Dyes and Pigments. 2003. Volume 57. Issue 3. Pp. 211−222.
- Bengi Ozkahraman, Ay? a Bal, I§ il Acar, Gamze Giiylu. Adsoфtion of Brilliant Green from Aqueous Solutions onto Crosslinked Chitosan Graft Copolymers // CLEAN Soil, Air, Water. 2011. Volume 39. Issue 11. Pp. 1001−1006.
- Энциклопедия полимеров. M., 1974 г., Том 2.
- Бражников С.М. Тепло-массообмен и структурообразование в вакуум-сублимационной технологии получения ультрадисперсных порошковых материалов: Автореф. д-ра техн. наук.- М., 2002. 40 с.
- Хейфец Л.И., Неймарк А. В. Многофазные процессы в пористых средах. М.: Химия. 1982. 320 е.: ил.
- Кафаров В.В., Глебов М. Б. Математическое моделирование основных процессов химических производств Учеб. пособие для вузов. М.: Высш. шк. 1991. 400 е.: ил.
- Меньшутина Н.В., Мишина Ю. В., Алвес С. В., Гордиенко М. Г., Гусева Е. В., Троянкин А. Ю. Инновационные технологии и оборудование фармацевтического производства. 2012. Том 2. М.: Издательство БИНОМ. 225 252 с.