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Publisher: Altai State University
Journal: Khimiia rastitel'nogo syr'ia (Chemistry of plant raw material)
Languages: Russian
Types: Article
Subjects: техническая целлюлоза; плодовые оболочки овса, щелочная делигнификация с последующей обработкой азотной кислотой, ферментативный гидролиз, редуцирующие вещества, «Брюзайм BGX», «Целлолюкс-А», концентрация субстрата, pulp, oat husk, combined method, enzymatic hydrolysis, reducers, BrewZyme BGX, CelloLux-A, substrate concentration
Установлено, что технические целлюлозы, полученные из плодовых оболочек овса комбинированным способом (предгидролиз, щелочная делигнификация, обработка раствором азотной кислоты), обладают высокой реакционной способностью к ферментации при гидролизе смесью ферментных препаратов «Брюзайм BGX» и «Целлолюкс-А». Исследована зависимость прироста редуцирующих веществ от исходной концентрации субстрата в пределах от 15 до 120 г/дм3 и выявлено линейное уменьшение конечного выхода редуцирующих веществ (через 72 ч) от 88 до 65% с ростом начальной концентрации субстрата.
  • The results below are discovered through our pilot algorithms. Let us know how we are doing!

    • 1. Borisenkov M.V., Shubakov A.A., Kocheva L.S., Karmanov A.P. Khimiia rastitel'nogo syr'ia, 2011, no. 4, pp. 19-23. (in Russ.).
    • 2. Torlopov M.A., Tarabukin D.V., Frolova S.V., Shcherbakova T.P., Volodin V.V. Khimiia rastitel'nogo syr'ia, 2007, no. 3, pp. 69-76. (in Russ.).
    • 3. Lloyd T.A., Wyman C.E. Bioresource Technology, 2005, vol. 96, pp. 1967-1977.
    • 4. Sinitsyn A.P., Gusakov A.V., Chernoglazov V.M. Biokonversiia lignotselliuloznykh materialov. [Bioconversion of lignocellulosic materials]. Moscow, 1995, 224 p. (in Russ.).
    • 5. Silverstein R.A., Chen Y., Sharma-Shivappa R.R., Boyette M.D., Osborne J. Bioresource Technology, 2007, vol. 98, pp. 3000-3011.
    • 6. Yoshida M., Liu Y., Uchida S., Kawarada K., Ukagami Y., Ichinose H., Kaneko S., Fukuda K. Bioscience, Biotechnology and Biochemistry, 2008, vol. 72, pp. 805-810.
    • 7. Yu Z., Jameel H., Chang H.-M., Philips R., Park S. Biotechnology and Bioengineering, 2012, vol. 5, pp. 1449-1463.
    • 8. Taherzaden M.J., Karimi K. BioResources, 2007, vol. 2, no. 4, pp. 707-738.
    • 9. Obolenskaia A.V., El'nitskaia Z.P., Leonovich A.A. Laboratornye raboty po khimii drevesiny i tselliulozy. [Laboratory work on the chemistry of wood and cellulose]. Moscow, 1991, 320 p. (in Russ.).
    • 10. GOST 25438-82. Tselliuloza dlia khimicheskoi pererabotki. Metody opredeleniia kharakteristicheskoi viazkosti. [State Standard 25438-82. Dissolving wood pulp. Methods for determining the intrinsic viscosity.]. Moscow, 1982, 20 p. (in Russ.).
    • 11. Aleshina L.A., Liukhanova I.V., Budaeva V.V., Zolotukhin V.N., Mitrofanov R.Iu., Sakovich G.V. Uchenye zapiski Petrozavodskogo gosudarstvennogo universiteta, 2011, no. 8, pp. 114-117. (in Russ.).
    • 12. Gerasimenko V.L. Laboratornye metody opredeleniia gliukozy: Metodicheskie rekomendatsii. [Laboratory methods for the determination of glucose: Guidelines]. Izhevsk, 2002, 6 p. (in Russ.).
    • 13. Veshniakov V.A., Khabarov Iu.G., Kamakina N.D. Khimiia rastitel'nogo syr'ia, 2008, no. 4, pp. 47-50. (in Russ.).
    • 14. Makarova E.I., Budaeva V.V. Tekhnologiia i oborudovanie khimicheskoi, biotekhnologicheskoi i pishchevoi promyshlennosti: materialy 3-i Vserossiiskoi nauchno-prakticheskoi konferentsii studentov, aspirantov i molodykh uchenykh s mezhdunarodnym uchastiem. [Technology and equipment for the chemical, biotechnology and food industries: Proceedings 3rd All-Russian scientific-practical conference of students and young scientists with international participation]. Bijsk, 2010, part 1, pp. 215-218. (in Russ.).
    • 15. Zolotukhin V.N., Budaeva V.V. Novye dostizheniia v khimii i khimicheskoi tekhnologii rastitel'nogo syr'ia: materialy V vserossiiskoi konferentsii [Technology and equipment for the chemical, biotechnology and food industries: Proceedings 3rd All-Russian scientific-practical conference of students and young scientists with international participation]. Barnaul, 2012, pp. 75-77. (in Russ.).
    • 16. Nepenin N.N. Tekhnologiia tselliulozy. Tom 1. Proizvodstvo sul'fitnoi tselliulozy. [Technology cellulose. Volume 1. Manufacture of sulphite pulp.]. Moscow, 1976, 748 p. (in Russ.).
    • 17. Makarova E.I., Budaeva V.V., Mitrofanov R.Iu. Polzunovskii vestnik, 2010, no. 4, pp. 192-198. (in Russ.).
    • 18. Novyi spravochnik khimika i tekhnologa. Syr'e i produkty promyshlennosti organicheskikh i neorganicheskikh veshchestv. Ch. II. [The new directory chemist and technologist. Raw materials and industrial organic and inorganic substances. Part II.]. St. Petersburg, 2006, 924 p. (in Russ.).
    • 19. Patent 014759 (EA). 30.06.2008. (in Russ.).
    • 20. Makarova E.I. Khimiia v interesakh ustoichivogo razvitiia, 2013, vol. 21, no. 2, pp. 219-225. (in Russ.).
    • Received April 10, 2012 Revised December 25, 2012
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