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The article is devoted to a comprehensive consideration of various options for the disinfection of sewage sludge. It is noted that the processes of sludge disinfection are still insufficiently studied, it is difficult to choose the appropriate treatment method in accordance with the physicochemical properties of the treated sludge and activated sludge. A comparative analysis of sludge compositions of different wastewater treatment plants is made. The authors determined the optimal conditions for the thermal treatment of sediments - temperature regimes and processing time, providing guaranteed disinfection of the material at minimal energy costs. The possibility of disinfection of a suspension of domestic sewage sludge using the cavitation-acoustic method is considered.
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134--141
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Bibliogr. 30 poz., rys., tab.
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- Earth Revival Technologies Ltd., 6-1В, Krasotaji iela str., LV-1000,, Riga, Latvia
autor
- Earth Revival Technologies Ltd., 6-1В, Krasotaji iela str., LV-1000,, Riga, Latvia
autor
- D. Serikbayev East Kazakhstan Technical University, 19, Serikbayev str., 070000, Ust-Kamenogorsk, Kazakhstan
autor
- Proektno-ekologicheskoe bjuro LLP, 7/1, Nazarbayev avenue, 070003, Ust-Kamenogorsk, Kazakhstan
autor
- D. Serikbayev East Kazakhstan Technical University, 19, Serikbayev str., 070000, Ust-Kamenogorsk, Kazakhstan
autor
- D. Serikbayev East Kazakhstan Technical University, 19, Serikbayev str., 070000, Ust-Kamenogorsk, Kazakhstan
Bibliografia
- 1. Cao B., Zhang, T., Zhang, W., & Wang, D. 2020. Enhanced technology based for sewage sludge deep dewatering: A critical review. Water Research, 116650.
- 2. Chang H., Zhao Y., Li X., Damgaard A., Christensen T.H. 2023. Review of inventory data for the biological treatment of sewage sludge. Waste Manag., 156, 66–74.
- 3. Directive 86/278/EEC https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=celex%3A31986L0278
- 4. DSTU 7369-2013 СТІЧНІ ВОДИ Вимоги до стічних вод і їхніх осадів для зрошування та удобрювання. http://online.budstandart.com/ua/catalog/doc-page?id_doc=67921
- 5. Dubova L., Cielava N., Vibornijs V., Rimkus A., Alsina I., Muter O., Kassien O. 2020. Evaluation of Suitability of Treated Sewage Sludge for Maize Cultivation. Key Engineering Materials, 850, 159–165.
- 6. European Comission: Ex-post evaluation of certain waste stream Directives, Bio Intelligence Service Final Report, 2014, https://eur-lex.europa.eu/legal-content/EN/TXT/PDF/?uri=CELEX:52014SC0209&from
- 7. Carrington E.G. 2001. Evaluation of sludge treatments for pathogen reduction - Final Report. Study Contract No B4–3040/2001/322179/Mar/A2, for the European Commission Directorate-General. September 2001. Office for official publications of the European Communities L-2985 Luxembourg. (Report No./WRC Ref: CO 5026/1).
- 8. Collivignarelli M. C., Canato M., Abbà A., Miino M. C. 2019. Biosolids: what are the different types of reuse? Journal of Cleaner Production, 117844.
- 9. Collivignarelli A., Frattarola C.M., Padovani K., Torretta. 2019. Legislation for the Reuse of Biosolids on Agricultural Land in Europe: Overview. Sustainability, 11(21).
- 10. Gherghel A., Teodosiu C., De Gisi S. 2019. A review on wastewater sludge valorisation and its challenges in the context of circular economy. Journal of Cleaner Production, 244-263.
- 11. Guo J., Zheng L., Li Z. 2021. Microwave drying behavior, energy consumption, and mathematical modeling of sewage sludge in a novel pilot-scale microwave drying system. Science of The Total Environment, 777, 146109.
- 12. Gusiatin Z.M., Kulikowska D., Klik B. K., Hajdukiewicz K. 2018. Ecological risk assessment of sewage sludge from municipal wastewater treatment plants: a case study. Journal of Environmental Science and Health, Part A, 1–10.
- 13. Hawrlylik E. 2020. Methods using in disinfection of wastewater and sewage sludge – short review. Architecture, Civil Engineering, Environment, 13 (2), 57-63.
- 14. Hoang S., Bolan S., Madhubashani A.M.P., Vithanage M., Perera V., Wijesekara H., Wang H., Srivastava P., Kirkham M.B., Mickan B.S., Rinklebe J., Siddique K.H.M. 2022. Treatment processes to eliminate potential environmental hazards and restore agronomic value of sewage sludge: A review. Environmental Pollution, 293, 118564.
- 15. Kocbek E., Garcia H. A., Hooijmans C. M., Mijatović I., Lah B., Brdjanovic D. 2020. Microwave treatment of municipal sewage sludge: Evaluation of the drying performance and energy demand of a pilot-scale microwave drying system. Science of The Total Environment, 140541.
- 16. Lazarev N.V., Levina E.N. 1976. Harmful substances in industry. Handbook for chemists, engineers, doctors. Vol.1-2. Ed. 7, revised. and add., 1216 p.
- 17. Milieu Ltd., WRc, [RPA] Risk & Policy Analysts Ltd. 2008. Environmental, economic and social impacts of the use of sewage sludge on land. Final report – part I: overview report. Report prepared for the European Commission, DG Environment. Brussels (Belgium): Milieu Ltd
- 18. Nordell E., Moestedt J., Österman J., Shakeri Yekta S., Björn A., Sun L., Schnürer A. 2021. Post-treatment of dewatered digested sewage sludge by thermophilic high-solid digestion for pasteurization with positive energy output. Waste Management, 119, 11-21.
- 19. Patent EP3950646 A1 Units and technological line for processing municipal sewage sludge and organic waste from agriculture, food and processing industries. Vaysman V., Strunnikova N., Bekker D., Kassien O. Published: Feb 9, 2022, https://www.lens.org/lens/patent/146-706-079-342-379/frontpage
- 20. Rodrigues M. M., Viana D. G., Oliveira F. C., Alves M. C., Regitano J. B. 2021. Sewage sludge as organic matrix in the manufacture of organomineral fertilizers: Physical forms, environmental risks, and nutrients recycling. Journal of Cleaner Production, 313, 127774.
- 21. Skórkowski Ł., Zielewicz E., Kawczyński A., Gil, B. 2018. Assessment of Excess Sludge Ultrasonic, Mechanical and Hybrid Pretreatment in Relation to the Energy Parameters. Water, 10(5), 551.
- 22. The French Agency for Food, Environmental and Occupational Health and Safety: Sewage sludge produced during the COVID-19 epidemic can only be applied to fields after disinfection., 2020, https://www.anses.fr/en/content/sewage-sludge-produced-during-covid-19-epidemic-can-only-be-applied-fields-after
- 23. United Nations Resolution A/RES/71/313, Work of the Statistical Commission pertaining to the 2030 Agenda for Sustainable Development, 2017, https://ggim.un.org/documents/a_res_71_313.pdf
- 24. Vaysman V, Strunnikova N, Chukurna O, Dobrovolskyi V, Kassien O. 2022. Improvement of the quality of the human environment by transporting and stabilizing sewage sludge for further processing. In: Tonkonogyi V, Ivanov V, Trojanowska J, Oborskyi G, Pavlenko I. Advanced Manufacturing Processes III. InterPartner 2021. Lecture Notes in Mechanical Engineering. Cham: Springer, 445–54.
- 25. Vialkova E., Obukhova M., Belova L. 2021. Microwave Irradiation in Technologies of Wastewater and Wastewater Sludge Treatment: A Review. Water, 13(13), 1784.
- 26. Wang Z., Wu D., Lin Y., Wang Х . 2022. Role of Temperature in Sludge Composting and Hyperthermophilic Systems: a Review. Bioenerg. Res. 15, 962–976.
- 27. Widziewicz-Rzońca K., Kernert J., Berna´s Z., Słaby K. 2023. First Comprehensive Analysis of Potential Ecological Risk and Factors Influencing Heavy Metals Binding in Sewage Sludge from WWTPs Using the Ultrasonic Disintegration Process. Water, 15, 666.
- 28. Wolski P Sonification Energy in the Process of Ultrasonic Disintegration. 2020. Journal of Ecological Engineering, 21 (3), 36–40.
- 29. Zhen G., Lu X., Kato H., Zhao Y., Li Y. 2017. Overview of pretreatment strategies for enhancing sewage sludge disintegration and subsequent anaerobic digestion: Current advances, full-scale application and future perspectives. Renew. Sustain. Energy Rev., 69, 559–577.
- 30. Zieliński M., Dębowski M., Krzemieniewski M., Rusanowska P., Zielińska M., Cydzik-Kwiatkowska A., Głowacka-Gil A. 2018. Application of an Innovative Ultrasound Disintegrator for Sewage Sludge Conditioning Before Methane Fermentation, Journal of Ecological Engineering, 19 (5), 240–247.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-32c64fb5-6fca-4122-aefd-827f123cecdd