Babych, I., Boiko, P., Bondar, M., Kuts, A. (2022). Aspects of ethanol manufacture. Different purpose – different technological and economic solutions. Danish Scientific Journal, 60, 73–77.

Boiko, P. (2019). Technological and economic features of ethyl technical ethanol manufacture. Modern engineering and innovative technologies: International periodic scientific journal, 8(2), 39–42.

Bonassa, G., Schneider, L., Cremonez, P., de Jesus de Oliveira, C., Teleken, J. G., Frigo, E. P. (2015). Optimization of first generation alcoholic fermentation process with Saccharomyces cerevisiae. Acta Scientiarum: Technology, Brazil, 37(3), 313–320. https://doi.org/10.4025.

Ponnampalam, E., Steele, D.B., Burgdorf, D. (2004). Effect of Germ and Fiber Removal on Production of Ethanol from Corn. (February 2004). Applied Biochemistry and Biotechnology, 113-116(1-3), 837–842. doi: 10.1385/ABAB:115:1-3:0837.

Remize, F., Sablayrolles, J. M., Dequin, S. (2020). Re-assessment of the influence of yeast strain and environmental factors on glycerol production in wine. Journal of Applied Microbiology, 88, 371–378. doi: 10.1046/j.1365-2672.2000.00964.x

Zhao, J., Weiss, T., Du, Z., Hong, S., Bean, S. R., Li, Y., Wang, D. (2022). Comparative evaluation of physicochemical and fermentative responses of three sorghum varieties from dryland and irrigated land and the properties of proteins from distillers’ grains. Journal of Cereal Science, 104, 103432. https://doi.org/10.1016/j.jcs.2022.103432

Szambelan, K., Nowak, J., Szwengiel, A., Jelen, H. (2020). Quantitative and qualitative analysis of volatile compounds in sorghum distillates obtained under various hydrolysis and fermentation conditions. Industrial Crops and Products, 155, 112782. https://doi.org/10.1016/j.indcrop.2020.112782

Kovalchuk, S., Shiyan, P., Mudrak, T., Kuts, A., Kyrylenko, R. (2017). Investigation of the influence of nanoparticles of metals on fermentation of wort of high concentrations. Eureka: Life Sciences, 6, 51–56.

Kurakin, M. S., Ozherel’eva, A. V., Motyreva, O. G., Krapiva, T. V. (2021). [A new approach to the development of food products]. Food Processing: Techniques and Technology, 51(3), 434–448. (In Russian). doi: 10.21603/2074-9414-2021-3-434-448.

Deng, N., Du, H., Xu, Y. (2020). Cooperative response of Pichia kudriavzevii and Saccharomyces cerevisiae to lactic acid stress in baijiu fermentation. Journal of Agricultural and Food Chemistry, 68, 4903–4911. https://doi.org/10.1021/acs.jafc.9b08052

Panfilov, V. A. (2020). [Synergetic approach to agro-industrial technologies of the future]. Food Processing: Techniques and Technology, 50(4), 642-649. (In Russian). doi: 10.21603/2074-9414-2020-4-642-649.

Shiyan, P., Mudrak, T., Kyrylenko, R., Kovalchuk, S. (2017). Effect of nitrogen and mineral composition of the high-concentrated wort made from starch-containing raw materials on the cultivation of yeast. Eastern–European Journal of Enterprise Technologies, 11, 72–77.

Yu, W. W., Zhai, H. L., Xia, G. B., Tao, K. Y., Li, C., Yang, X. Q., Li, L. H. (2020). Starch fine molecular structures as a significant controller of the malting, mashing, and fermentation performance during beer production. Trends in Food Science & Technology, 105, 296–307. https://doi.org/10.1016/j.tifs.2020.09.010

Xu, X., Waters, D., Blanchard, C., Tan, S. H. (2021). A study on Australian sorghum grain fermentation performance and the changes in Zaopei major composition during solid-state fermentation. Journal of Cereal Science, 98, 103160. https://doi.org/10.1016/j.jcs.2021.103160

Babych, I. M., Boiko, P. M., Bondar, M. V. (2021). [Technological and economic aspects of ethyl alcohol production for various purposes]. Naukovi pratsi ONAKhT, 85(2), 77-83. (in Ukrainian).

Bulii, Yu. V., Obodovych, O. M. (2019). [Energy-efficient bioethanol technology]. Enerhiia. Biznes. Komfort, Odesa: ONAKhT, 13–14. (in Ukrainian).

Zakrevska, L. M. (2019). [Current trends and prospects for the development of enterprises of the alcohol industry of Ukraine]. Market infrastructure: electronic professional scientific and practical journal, 27, 142–146. (in Ukrainian).

Zakrevska, L. M. (2020). [Factors inhibiting the development of Ukrainian alcohol industry enterprises]. Rozvytok bukhhalterskoho obliku, opodatkuvannia i kontroliu v umovakh intehratsiinykh protsesiv, Kherson: DVNZ KhDAU, 262–263. (in Ukrainian).

(2018). [Collection of regulations and instructions on raw materials for ethyl alcohol producers], Kyiv; Vinnytsia: Nilan. (in Ukrainian).

Kovalchuk S.S. (2019). [Improving the technology of highly concentrated brews from grain raw materials] (D. Dissertation). (in Ukrainian). https://dspace.nuft.edu.ua/items/e24521dd-01ce-42a7-bcfc-0b6e9bef20cd

Kosminska, O. S. (2021). [Improving the technology of alcohol from starch-containing raw materials with intensification of the processes of preparation of matured mash at the conditions of the Uladovsk distillery]. (Master's dissertation). (in Ukrainian). https://dspace.nuft.edu.ua/server/api/core/bitstreams/a824a42a-75e8-4d41-9afc-ba2fddfca832/content

Mishchenko, O. S., Oliinyk, S. I. (2023). [Implementation of the national standard for ethyl alcohol]. Naukovi pratsi DNU «UkrNDIspyrtbioprod»: «Biotekhnolohii prodovolchykh produktiv: problemy i perspektyvy», 46–51. (in Ukrainian).

[News Service. Bioethanol industry of Ukraine. Assessment and prospects]. https://latifundist.com/analytics/30-bioetanol-stan-ta-otsinka-galuzi-v-ukrayini (in Ukrainian).

Ukrainets, A., Khomichak, L., Shyian, P., Oliinychuk, S. (2007). [Alcohol industry on the way to innovative development]. Kharchova i pererobna promyslovist, 12, 16–19. (in Ukrainian).

Shyian, P. L., Sosnytskyi, V. V., Oliinichuk, S. T. (2009). [Innovative technologies of the alcohol industry. Theory and practice: a monograph]. Kyiv: Askaniia. (in Ukrainian).