Cluster formation of ash and slag waters for production of building materials as a measure of environmental damage

Andrey M Dregulo; Дрегуло Андрей Михайлович; Viktor M Pitulko; Питулько Виктор Михайлович

doi:10.22363/2313-2310-2019-27-2-91-104

Cluster formation of ash and slag waters for production of building materials as a measure of environmental damage

Autores: Dregulo A.M¹^,2^,3, Pitulko V.M²
Afiliações:
1. Saint Petersburg State University
2. Scientific Research Center for Ecological Safety of the Russian Academy of Sciences
3. National Research University “Higher School of Economics”
Edição: Volume 27, Nº 2 (2019)
Páginas: 91-104
Seção: Geoecology
URL: https://journal-vniispk.ru/2313-2310/article/view/341946
DOI: https://doi.org/10.22363/2313-2310-2019-27-2-91-104
ID: 341946

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Texto integral

Resumo
Sobre autores
Bibliografia
Arquivos suplementares
Estatísticas

Resumo

The most promising scheme of disposal of objects of accumulated environmental damage in the wastewater system is their joint incineration with solid waste to produce ash used as an additive in the production of building materials. The latter becomes a strategic resource in the implementation of the program of liquidation of objects of accumulated environmental damage. Various types of ash and slag obtained from the incineration of wastewater and municipal solid waste are analyzed. The data obtained give grounds to consider the use of ash from wastewater waste suitable for toxicological parameters, but also in view of positive foreign practice. This basis makes it possible to consider the formation of a cluster of joint incineration of waste to produce ash used as an additive in building materials. The results of the study indicate the potential effectiveness and timeliness in the implementation of the suppression of foci of accumulated environmental damage associated with landfills of solid waste through the formation of a cluster of joint incineration of waste for ash.

Palavras-chave

sewage sludge, solid waste, accumulated environmental damage, ash and slag waste, waste cluster, building materials

Sobre autores

Andrey Dregulo

Saint Petersburg State University; Scientific Research Center for Ecological Safety of the Russian Academy of Sciences; National Research University “Higher School of Economics”

Autor responsável pela correspondência
Email: a.dregulo@spbu.ru

PhD in Biology, Institute of Earth Sciences, senior researcher, Laboratory of Geoecological Problems of Natural and Economic Systems and Urban Territories

Saint Petersburg, Russian Federation

Viktor Pitulko

Scientific Research Center for Ecological Safety of the Russian Academy of Sciences

Email: pitulko@rambler.ru

Doctor of Geological and Mineralogical Sciences, chief researcher, Deputy Director for Research, Scientific Research

Saint Petersburg, Russian Federation

Bibliografia

Demirbas A, Edris G, Alalayah WM. Sludge production from municipal wastewater treatment in sewage treatment plant. Energy Sources. Part A: Recovery, Utilization and Environmental Effects. 2017;39. https://doi.org/10.1080/15567036.2017.1283551
Dregulo AM, Vitkovskaya RF. Microbiological evaluation of soils of sites with accumulated ecological damage (sewage dumps). Fibre Chemistry. 2018;50(3): 243–247.
Ksenofontova OL, Abramova YA. Regional'nyye klastery: metodicheskiye aspekty identifikatsii, formirovaniya i rezul'tatov funktsionirovaniya [Regional clusters: methodical aspects of identification, formation and results of functioning]. Sovremennyye naukoyemkiye tekhnologii. Regional'noye prilozheniye. 2015:3(43): 91–99. (In Russ.)
Meller VY. Tverdyye bytovyye otkhody – istochnik teplovoy i elektricheskoy energii. Nauchno-tekhnicheskiye problemy ispol'zovaniya al'ternativnykh vidov topliva v stroitel'nom komplekse Respubliki Belarus': Materialy VII Mezhdunarodnoy nauchnotekhnicheskoy konferentsii, Minsk, 30 oktyabrya 2013. p. 10–14. (In Russ.)
Yanin YeP. Szhiganiye osadkov gorodskikh stochnykh vod (problemy i sposoby) [Incineration of urban sewage sludge (problems and methods)]. Resource-saving technologies. 2006;(24): 3–29. (In Russ.)
Reijnders L. Disposal, uses and treatments of combustion ashes: A review. Resour. Conserv. Recycl. 2005;43: 313–336.
Transportation Research Board, National Research Council. Waste and Recycled Materials Use in the Transportation Industry. National Cooperative Highway Research Program. Washington; 2000.
Youcai Z, Lijie S, Guojian L. Chemical stabilization of MSW incinerator fly ashes. J. Hazard. Mater. 2002;95: 47–63.
Chang CY, Wang CF, Mui DT, Cheng MT, Chiang HL. Characteristics of elements in waste ashes from a solid waste incinerator in Taiwan. J. Hazard. Mater. 2008;165: 766–773.
United States Environmental Protection Agency. Conversion of Existing Municipal Sludge Incinerators for Codisposal. SW 743. February 1979. p. 51.
Optimization of the treatment and disposal of sewage sludge in the district of Como: options and scenarios assessment – Scientific Figure on ResearchGate. Available from: https://www.researchgate.net/figure/SWOT-analysis-for-pyrolysis_tbl37_269867833 (Accessed: 22 April 2017).
Lobanov FI, Karmazinov FV, Kinebas AK, Kozlov LN, Mogil'nyy KV, Rublevskaya ON, Chukalina YeM. Zayavka na patent No. 2012130032/05. Sposob polucheniya kompozitsionnykh materialov dlya dorozhno-transportnogo stroitel'stva na osnove pererabotannykh osadkov stochnykh vod predpriyatiy kommunal'nogo khozyaystva [Application for patent No. 2012130032/05. A method for producing composite materials for road construction based on recycled sewage sludge from utilities]. Available from: http://www1.fips.ru/fips_servl/fips_servlet?DB=RUPAT&DocNumber=2494985& TypeFile=html (Accessed 22 April 2017). (In Russ.)
Barbosa R, Lapa N, Dias D, Mendes B. Concretes containing biomass ashes: Mechanical, chemical, and ecotoxic performances. Construction and Building Materials. 2013;48: 457–463.
Franus M, Barnat-Hunek D, Wdowin M. Utilization of sewage sludge in the manufacture of lightweight aggregate. Environ. Monit. Assess. 2015;188(1): 10. Available from: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4669375/ (Accessed 20 October 2018).
Kudryavtseva TYu. Teoriya, metodologiya i instrumentariy formirovaniya klatsernoy promyshlennoy politiki [Theory, methodology and tools for the formation of a clutter industrial policy] (Dissert. dok. ekonom. nauk). Saint Petersburg: SPBGPU; 2018. p. 358–359. Available from: https://www.spbstu.ru/dsb/0727-thesis.pdf (Accessed 22 November 2018). (In Russ.)
Makarova IR, Tarbayeva VM. Klasternyy podkhod v formirovanii regional'noy sistemy upravleniya promyshlennymi otkhodami [Cluster approach in the formation of a regional industrial waste management system]. Available from: http://www.ngtp.ru/7/26 _2009.pdf (Accessed 27 October 2018).
Zero Waste Special Event Planning Guide. Available from: https://epa.ohio.gov/portals/ 29/documents/1786_zerowaste_guide_final.pdf (Accessed 11 November 2018).
Economic instruments in solid waste management. Applying economic instruments for sustainable solid waste management in low and middle-income countries. Available from: https://www.giz.de/en/downloads/giz2015-en-waste-management-economic-instruments.pdf (Accessed 11 November 2018).

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