ISSN 2074-9414 (Print),
ISSN 2313-1748 (Online)

Justification of bioactivated grain triticale use in alcohol production

Abstract
Triticale accounts for the biggest share in gross processing and state procurement of grain in Belarussian production of alcohol. The main difficulty in its processing is the formation of viscous technological fluids due to the presence of non-starch polysaccharides in its chemical composition. All measures taken to solve the problem come down to the selection of the efficient enzyme preparations, hydrolyzing grain polymers into low molecular weight compounds, which have the ability to be disposed by the yeast cells and form the ethyl alcohol. But grain own enzymes are not involved. It is possible to solve the problem by means of biological activation, which will activate grain enzyme systems and partially hydrolyze grain polymers into low molecular weight compounds. The article considers general and special technological parameters of six cultivars of triticale selected in the Republic of Belarus: Antos, Kastus, Dubrava, Run, Prometheus, Impulse. The authors determined that the most promising cultivars for bioactivation and food grade ethyl alcohol production are Antos and Dubrava. The authors explored the possibility of using hot soaking of triticale grain for the biological activation. They also showed the advantages of introduction of amaranth green mass in the amount of 8% during hot soaking for the reduction of grain microbiological contamination. They studied the changes in the technological properties of triticale cultivars Antos and Dubrava after the bioactivation with the green mass of amaranth. The authors determined that grain microbiological characteristics improved, the activity of grain enzymes increased, proportion of low molecular weight compounds in the chemical composition increased. They studied the processes taking place during wort and mash production from the bioactivated triticale grain. The authors showed that the processing of bioactivated triticale grain resulted in the production of wort with higher concentration of dry matter which allowed to increase the ethanol content in the mature mash produced from triticale cultivar Antos by 19.5% and from the triticale cultivar Dubrava by 29.3% and reduce the total quantity of the main impurities in distillates.
Keywords
Triticale, amaranth, bioactivation, wort, mature mash, ethanol
REFERENCES
  1. Buresova I., Buresova I., Sedlackova I., Famera O., Lipavsky J. Effect of growing conditions on starch and protein content in triticale grain and amylose content in starch. Plant, Soil and Environment, 2010, vol. 56, no. 3, pp. 99–104.
  2. Balcerek M., Pielech-Przybylska K. Effect of simultaneous saccharification and fermentation conditions of native triticale starch on the dynamics and efficiency of process and composition of the distillates obtained: simultaneous saccharification and fermentation of native triticale starch. Journal of Chemical Technology and Biotechnology, 2013, vol. 88, pp. 615–622.
  3. Wang S., Thomas K.C., Sosulski K., Ingledew W.M., Sosulski F.W. Grain pearling and very high gravity (VHG) fermentation technologies for fuel alcohol production from rye and triticale. Process Biochemistry, 1999, vol. 34, no. 5, pp. 421–428.
  4. Afonasenko K.V., Pankratov G.N., Bogatyreva T.G. Rzhanye khlopʼya iz bioaktivirovannogo zerna [Rye flakes from the bioactivated grain]. Khleboprodukty [Bread products], 2014, no. 11, pp. 64–65.
  5. Bastrikov D.N., Pankratov G.N. Izmenenie biokhimicheskikh svoystv zerna pri zamachivanii [Change in the biochemical properties of the grain when soaked]. Khleboprodukty [Bread products], 2006, no. 1, pp. 40–41.
  6. Polyakov V.A., Abramova I.M., Polygalina G.V., et al. Instruktsiya po tekhnokhimicheskomu i mikrobiologicheskomu kontrolyu spirtovogo proizvodstva [Instruction on the technical-chemical and microbiological control of the alcohol production]. Moscow: DeLi print Publ., 2007. 480 p.
  7. STB 1522-2005. Tritikale prodovolʼstvennaya. Trebovaniya pri zagotovkakh i postavkakh [State standard of the Republic of Belarus 1522-2005. Triticale food. Requirements for the procurement and supply]. Minsk, Gosstandart Publ., 2011. 12 p.
  8. Sharshunov V.A., Tsed E.A., Kucheryavyy L.M., Kirkor A.V. Tekhnologiya i oborudovanie dlya proizvodstva spirta i likerovodochnykh izdeliy: v 2 ch. Ch. 1. Proizvodstvo spirta [Technology and equipment for the production of alcohol and alcoholic beverages: in 2 parts. Part 1. Alcohol production: allowance]. Minsk: Misanta Publ., 2013. 783 p.
  9. Lihtenberg L.A. Proizvodstvo spirta iz zerna [Production of alcohol from the grain]. Moscow: Pishchevaya promyshlennostʼ Publ., 2006. 324 p.
  10. Bulgakov N.I. Biokhimiya soloda i piva [Biochemistry of malt and beer]. Moscow: Pishchevaya promyshlennostʼ Publ., 1976. 358 p.
  11. Kozʼmina N.P., Gunʼkin V.A., Suslyanok G.M. Teoreticheskie osnovy progressivnykh tekhnologiy (Biotekhnologiya). Zernovedenie (s osnovami biokhimii rasteniy) [Theoretical bases of the progressive technologies (Biotechnology). Cereology (with the fundamentals of the plant biochemistry)]. Moscow: Kolos Publ., 2006. 464 p.
  12. Rimareva L.V., Overchenko M.B., Ignatova N.I., Abramova I.M. Teoreticheskie i prakticheskie osnovy fermentativnogo kataliza polimerov zernovogo syrʼya v spirtovom proizvodstve [Theoretical and practical bases of the enzymatic catalysis of the polymers of the grain raw materials in the alcohol production]. Proizvodstvo spirta i likerovodochnykh izdeliy [Production of alcohol and alcoholic beverages], 2008, no. 3, pp. 4–9.
  13. Jamashev T.A., Simonova N.N., Reshetnik O.A. Mikrobnaya kontaminatsiya syrʼya i poluproduktov brodilʼnykh proizvodstv [The microbial contamination of the raw materials and semi-products of fermentation productions]. Kazan: Kazan State Technological University Publ., 2010. 252 p.
  14. Narciss L. Pivovarenie. T. 1. Tekhnologiya solodorashcheniya [Brewing: Vol. 1. Technology of malting]. St. Petersburg: Professiya Publ., 2007. 584 p.
  15. Koryachkina S.Ya., Kuznetsova E.A., Cherepnina L.V. Tekhnologiya khleba iz tselogo zerna tritikale [Technology of the bread from the whole grain triticale]. Orel: Gosuniversitet – UNPK Publ., 2012. 177 p.
  16. Egorov G.A. Gidrotermicheskaya obrabotka zerna [Hydrothermal processing of grain]. Moscow: Kolos Publ., 1968. 96 p.
  17. Braterskiy F.D. Fermenty zerna [Grain enzymes]. Moscow: Kolos Publ., 1994. 196 p.
  18. Kadoshnikov S.I., Kadoshnikova I.G., Galiullina S., Chernov I.A. Farmakologicheskie svoystva rasteniy roda Amaranthus L. [Pharmacological properties of the plants of the genus Amaranthus L.]. Agrarnaya Rossiya [Agrarian Russia], 2001, no. 6, pp. 39–42.
  19. Mirontseva A.A., Tsed E.A., Volkova S.V. Sravnitelʼnyy analiz effektivnosti ispolʼzovaniya v spirtovom proizvodstve razlichnykh vidov substratnykh dobavok [Comparative analysis of the efficiency of using in alcohol production of the various types of substrate additives]. Molodezhʼ v nauke – 2009: pril. k zhurn. Vestnik Natsionalʼnoy akademii nauk Belarusi: v 5 ch. Ch. 3. Seriya agrarnykh nauk [Young people in science – 2009: supplement to the journal “News of the National Academy of Sciences of Belarus”: in 5 parts. Part 3. A series of agricultural sciences], 2010, pp. 436–440.
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