Труды КНЦ (Технические науки вып.1/2022(13))

3. Jermakka J., Wendling L., Sohlberg E., Heinonen H., Vikman M. Potential technologies for the removal and recovery o f nitrogen compounds from mine and quarry waters in subarctic conditions. Critical Reviews in Environmental Science and Technology, 2014, no. 45 (7), pp. 703-748. 4. Solnyshkova M. A., Pashkevich M. A. Issledovanie effektivnosti biologicheskoj ochistki vody ot nitratov s pomoshch'yu bioplato [A study o f the effectiveness o f biological water purification from nitrates with the help o f bioplato]. Estestvennye i tekhnicheskie nauki [Natural and Technical Sciences], 2018, no. 5 (119), pp. 169-173. (In Russ.). 5. Gogina E. S. Udalenie biogennyh elementov iz stochnyh vod [Removal o f nutrients from wastewater]. Moscow, MGSU, 2010, 120 p. (In Russ.). 6 . Shvecov V. N., Morozova K. M., Nechaev I. A., Petrova L. A. Nitrifikaciya i denitrifikaciya stochnyh vod [Nitrification and denitrification o f wastewater]. Vodosnabzhenie i sanitarnaya tekhnika [Water Supply and Sanitary Engineering], 1995, no. 11, pp. 16-18. (In Russ.). 7. Ivanova L. A., Myazin V. A., Kornejkova M. V., Fokina N. V., Evdokimova G. A., Red'kina V. V. Pora ochishchat' Arktiku. Sozdanie fitoochistnoj sistemy dlya doochistki stochnyh vod gornorudnyh predpriyatij ot soedinenij azota [It's time to clean up the Arctic. Creation o f a phyto-treatment system for post-treatment o f mining wastewater from nitrogen compounds]. Apatity, Izdatel'stvo Kol'skogo nauchnogo centra, 2021, 8 8 p. (In Russ.). 8 . Kirilina T. V., Do Thi Thu Hang, Sirotkin A. S. Ocenka effektivnosti doochistki stochnyh vod s ispol'zovaniem odnokletochnyh i mnogokletochnyh gidrobiontov [Assessment of efficacy of wastewater pretreatment using unicellular and multicellular hydrobionts]. Vestnik Kazanskogo tekhnologicheskogo universiteta [Bulletin o f Kazan Technological University], 2013, no. 8 (16), pp. 200-203. (In Russ.). 9. Meshengisser Yu. M., Shchetinin A. I., Esin M. A. Udalenie azota i fosfora aktivnym ilom [Removal o f nitrogen and phosphorus by activated sludge]. Kommunal'noe hozyajstvo gorodov [Urban Utilities], 2006, no. 74, pp. 36-45. (In Russ.). 10. Zubov M. G., Boyarenev S. F., Zubov G. M., Kulikov N. I., Shramov Yu. M., Litti Yu. V., Nekrasova V. K., Nozhevnikova A. N. Biotekhnologiya ochistki stochnyh vod s immobilizaciej aktivnogo ila i udaleniem azota [Biotechnology o f wastewater treatment with immobilization o f activated sludge and nitrogen removal]. Vodosnabzhenie i sanitarnaya tekhnika [Water Supply and Sanitary Engineering], 2013, no. 8 , pp. 72-75. (In Russ.). 11. Dubovik O. S., Markevich R. M. Sovershenstvovanie biotekhnologij udaleniya azota i fosfora iz gorodskih stochnyh vod [Improvement o f biotechnologies o f nitrogen and phosphorus removal from municipal wastewater]. Trudy BGTU. Seriya 2: Khimicheskie tekhnologii, biotekhnologiya, geoekologiya [Proceedings o f BSTU. Series 2: Chemical Technology, Biotechnology, Geoecology], 2016, no. 4 (186), pp. 232-238. (In Russ.). 1 2 . Melihov V. V, Kuznecov P. I., Moskovec M. V., Kamenev V. M., Karengina T. V., Melihova M. V., Smirnov S. V. Sposob bor'by s “tsveteniem” vody sinezelenymi vodoroslyami v vodoemah [A way to combat “blooming” of water by blue-green algae in reservoirs]. Patent RF, no. 2350569, 2009. 13. Gapochka M. G. Ekologicheskie aspekty vzaimodejstviya elektromagnitnyh polej millimetrovogo diapazona s biologicheskimi ob ’ektami [Ecological aspects o f interaction of millimeter range electromagnetic fields with biological objects]. Moscow, 2013, 49 p. 14. Zotova E. A. Vliyanie kombinirovannogo vozdejstviya elektromagnitnogo izlucheniya i himicheskih reagentov na biologicheskie sistemy [Effect o f combined exposure to electromagnetic radiation and chemical reagents on biological systems]. Saratov, SGU, 2007, pp. 10-45. (In Russ.). 15. Zarubina A. P., Sorokina E. V., Parhomenko I. M., Gapochka M. G. Lyuminescentnye bakterii — effektivnyj ob’ekt ocenki dejstviya nejromediatorov v usloviyah “elektromagnitnogo zagryazneniya” sredy [Luminescent bacteria is an effective object for evaluation o f neurotransmitter action under conditions o f “electromagnetic pollution” o f the environment]. Radiacionnaya biologiya. Radioekologiya [Radiation Biology. Radioecology], 2018, no. 3, pp. 272-276. (In Russ.). 16. Gapochka M. G. Vliyanie elektromagnitnogo izlucheniya nizkoj intensivnosti na toksichnost' vodnoj sredy [Influence o f low intensity electromagnetic radiation on the toxicity o f the aquatic environment]. Vestnik Moskovskogo universiteta. Fizika, astronomiya [Bulletin o f the Moscow University. Physics and Astronomy], 2009, no. 1, pp. 67-69. (In Russ.). Труды Кольского научного центра РАН. Серия: Технические науки. 2022. Т. 13, № 1. С. 283-288. Transactions of the Kala Science Centre of r A s . Series: Engineering Sciences. 2022. Vol. 13, No. 1. P. 283-288. © Щеглов Г. А., Маслобоев В. А., 2022 287

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