Russian Federation
employee
Voronezh, Voronezh, Russian Federation
graduate student from 01.01.2021 until now
FGBOU VO «Voronezhskiy gosudarstvennyy lesotehnicheskiy universitet imeni G. F. Morozova», ul. Timiryazeva, 8, g. Voronezh, 394087, Rossiya
To solve the problem of reducing carbon dioxide emissions into the atmosphere and improving the efficiency of energy generating plants and technological processes using fossil fuels. The proposed method is based on the use of waste energy from these installations, which is irretrievably lost with flue gases. Utilization of this energy, carbon dioxide and water vapor in the composition of flue gases makes it possible to increase the efficiency of such energy generation by about 20% and at the same time reduce the greenhouse effect created by the «carbon footprint». The authors propose to direct this flue gas flow to microalgae cultivation modules in order to obtain various valuable products from their biomass. An industrial method of growing raw materials for various products has been developed, which does not depend on climatic conditions.
pyrolysis, carbon dioxide, power generating plant, flue gases, fossil fuels, microalgae
1. Pat. 151251 Rossiyskaya Federaciya MPK A01G 31/02(2006.01), Ustanovka dlya vyraschivaniya mikrovodorosley / I. F. Kotlovker; zayavitel' i patentoobladatel' Kotlovker Il'ya Fedorovich (RU). - № 2014135012/13; zayavl. 26.08.2014; opubl. 27.03.2015 Byul. №9.
2. Shinkarev S. M. Perspektiva razvitiya tehnologii proizvodstva mikrovodorosley / S. M. Shinkarev, A. Ya. Samuylenko, S. A. Grin', L. A. Neminuschaya, T. A. Skotnikova, I. V. Pavlenko, A. V. Kanarskiy // Vestnik tehnologicheskogo universiteta. – 2017. – № 14(20). – S. 146-149.
3. Chernova N. I. Biotoplivo iz vodorosley: tehnologii, produktivnost', perspektivy / N. I. Chernova, S. V. Kiseleva // Energiya : ekonomika, tehnika, ekologiya. - 2014. – №8. S. 24-32.
4. GOST R 56508–2015. Produkciya organicheskogo proizvodstva. Pravila proizvodstva, hraneniya, transportirovaniya. – M. : Standartinform, 2015. – 79 s.
5. Beal C.M. Integrating Algae with Bioenergy Carbon Capture and Storage Increases Sustainability / C.M. Beal // Journal of Earth’s Future. - 2018. – p. 6.
6. Fajardy M. The Energy Return On Investment of negative emissions: is BECCS a threat to energy security? / M. Fajardy and N. Mac Dowell // Journal of Energy and Environmental Science. - 2018. – Vol.11. - p. 1581-1594.
7. Ilvitskaya S. V. Visual comfort in the organic architecture of an individual residential building / S. V. Ilvitskaya, T. V. Lobkova and V. A. Lobkov. // Journal of Materials Science and Engineering. - 2020. - Vol.944. DOI:https://doi.org/10.1088/1757-899X/944/1/012020.
