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About the Optimal Ratio Inhibitor and Activators of Carbon Dioxide Sorption Process by Using Chlorophyll-synthesizing Chlorella microalgae

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The suppression of the inhibition effect by SO2 sulfur dioxide with the simultaneous action of two activators – P2O5 phosphorus oxide and NxOy nitrogen oxide, as well as the process of carbon dioxide absorption by chlorophyll-synthesizing microalgae Chlorella were studied in this work. The experimental dependences of the СО2 uptake dynamics by microalgae under the conditions of the SO2 inhibitor critical concentration action and the simultaneous presence of P2O5 and NxOy activators were shown. A mathematical description of the Chlorella microalgae biomass growth depending on the P2O5 and NxOy activators concentration, provided that there is a SO2 inhibitor constant concentration was obtained. The optimum values of the P2O5 phosphorus oxide and NxOy nitrogen oxides concentration at the SO2 inhibitor critical concentration for the carbon dioxide absorption by chlorophyll-synthesizing microalgae Chlorella process were established.
Rocznik
Strony
26--31
Opis fizyczny
Bibliogr. 9 poz., rys., tab.
Twórcy
  • Lviv Polytechnic National University, 12 Bandera street, Lviv, 79013, Ukraine
  • Lviv Polytechnic National University, 12 Bandera street, Lviv, 79013, Ukraine
  • Lviv Polytechnic National University, 12 Bandera street, Lviv, 79013, Ukraine
Bibliografia
  • 1. Dyachok V., Huhlych S., Katysheva V.V., Mandryk S.T. 2017. Absorption of carbon dioxide from a mixture of air with sulfur dioxide (in Ukrainian). Naukovi Pratsi Onakht, 81(1), 59-65.
  • 2. Dyachok V .V., Mandryk S.T., Huhlych S.I., Slyvka M.M. 2020. Study on the impact of activators in the presence of an inhibitor on the dynamics of carbon dioxide absorption by chlorophyll-synthesizing microalgae. Journal of Ecological Engineering, 21(5), 189-196.
  • 3. Chlorella in sewage treatment (in Ukrainian), 2020. Retrieved from: https://hlorella.jimdo.com/.
  • 4. Manakov M.N., Pobedimskiy D.H. 1990. Theoretical bases technology of microbiological productions technology (in Ukrainian). Ahropromisdat, pp. 272.
  • 5. 67% of greenhouse gas emissions are caused by energy and burning of fossil fuels (in Ukrainian), 2020. Ofitsiyhyy portal Ministerstva zakhystu dovkilla i pryrodnykh resursiv Ukrainy. Retrieved from: https://mepr.gov.ua/news/34553.htm.
  • 6. Poltorak O.M., Chukhray O.S. 1972. Physicochemical bases of enzymatic catalysis (in Ukrainian). In: M.M. Poplavskaya (Ed.). Vysshaya shkola, pp. 311.
  • 7. Project of Ukrainian Green transition Concept by 2050 (in Ukrainian). Ministerstvo enerhetyky ta zakhystu dovkilla Ukraine. Retrieved from: https://www.kmu.gov.ua/news/prezentovano-proekt-koncepciyi-zelenogo-energetichnogo-perehodu-ukrayini-do-2050-roku.
  • 8. Climate change (in Ukrainian), 2020. Natsionalnyy ekolohichnyy tsentr Ukrainy. Retrieved from: necu.org.ua/climate/.
  • 9. Zolotaryova O.K., Shnyukova Ye.I., Syvash O.O., Mykhaylenko N.F. 2008. Prospects for the use of microalgae in biotechnology (in Ukrainian). In: O.K. Zolotaryovoa (Ed.) Alterpres, pp. 234.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e8896665-0586-47ae-ad25-03d43df129d7
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