Use of sewage sludge in concrete industry
https://doi.org/10.26518/2071-7296-2021-18-5-566-575
Abstract
Introduction. The article deals with the actual problem of disposal of industrial waste (sewage sludge). According to the literature data, possible directions of the use of sewage sludge in the production of building materials are identified and considered. Special attention is paid to the proposed variant of systematization of materials, which is based on the dependence of the aggregate state of the sediment on the type of building material. It is proposed to use sewage sludge as a complex additive to improve rheological properties at all stages of heavy concrete hardening.
Methods and materials. Studies of the basic properties of raw materials and concrete based on them were determined using standard methods and the requirements of national standards. The material and chemical composition of the sediments, their physical and mechanical characteristics were determined on the basis of the laboratory of the plant of chemical concentrates (Novosibirsk).
Results. As a result of the experimental work, the optimal percentage of sewage sludge in the composition of heavy concrete was determined, as well as the ratio of the chemical modifying additive, the optimal composition of concrete was investigated.
Conclusion. As a result of the experimental work, the influence of the introduction of sewage sludge modified with plasticizing additives into the concrete composition was established. It has been established that sewage sludge is advisable to use in heavy concrete as a corrective additive without reducing the strength characteristics. In further studies, it is planned to solve the problems of structure formation and study of the interface between the phases of sewage sludge in the composition of concrete; to investigate the relationship between the chemical composition of precipitation and the physical and mechanical properties of a building material.
About the Authors
I. L. ChulkovaRussian Federation
Irina L. Chulkova (Omsk, Russia) – Dr. of Sci., Professor, Professor of the Organisation, Technology and Materials in Construction Department
Omsk
O. E. Smirnova
Russian Federation
Olga E. Smirnova (Novosibirsk, Russia) – Cand. of Sci., Associate Professor, Head of the Building Materials, Standardization, Certification Department
Novosibirsk
A. V. Krasova
Russian Federation
Anna V. Krasova (Novosibirsk, Russia) – Postgraduate the Building Materials, Standardization, Certification Department
Novosibirsk
References
1. MoskvichevaA.V., DoskinaE.P., Moskvicheva E.V. Osadki stochnyh vod ili othody: voprosy pravovogo regulirovanija [Sewage sludge or waste: the issues of legal regulation]. Vodosnabzhenie i sanitarnayatekhnika, 2016, 4: 18-22. (in Russian)
2. Tukhareli V.D, Tukhareli V.D. Investigation of Mechanism of Action of Modifying Admixtures Based on Products of Petrochemical Synthesis on Concrete Structure. IOP Conf. Series: Materials Science and Engineering 262 (2017) 012007, doi:10.1088/1757-899X/262/1/012007
3. Polyakov G.N.,Svyatskaya L.I., I.M. Levit I.M. Vnedrenie tekhnologi i proizvodstva keramicheskogo kirpicha s dobavko jzolyotszhiganiyaosadkovstochnyhvod [Introduction of technology for the production of ceramic bricks with the addition of ash from the combustion of sewage sludge].Stroitel’nyematerialy, 2002, 10: 28-29. (in Russian)
4. Pimenov A.T., Smirnova O.E., Ottochko S.Y. Use of metallurgical slags in mortar production. In the collection: IOP Conference Series: Materials Science and Engineering, 2018, 012023.
5. Obezvrezhivanie stochnyh vod v promyshlennosti betona (Velikobritaniya) [Waste water Treatment in the concrete industry (UK)] Bulletin of foreign scientific and technical information on construction, architecture, building materials, structures and housing and communal services 2015, 3: 14-15. (in Russian)
6. Kucherova, E.A., Panichev A.YU. Vvedenieosadkovstochnyhvodgal’vanicheskihproizvodstv v massy stenovojkeramiki [Introduction of waste water sediments of electroplating industries into the mass of wall ceramics]. Izvestiyavuzov. Stroitel’stvo i arhitektura, 1992, 5:16-22. (in Russian)
7. Cybina A.V., D’yakov M.S., Vajsman YA.I. Sostoyanie i perspektivy obrabotki i utilizacii osadkov stochnyh vod [State and prospects of treatment and utilization of sewage sludge]. Ecology and industry of Russia, 2013, 12: 56–61. (in Russian)
8. Dregulo A.M. Issledovanie sostavov tyazhelyh metallov i fosfatov v polimernyh veshchestvah biomas syaktivnyhilov [Investigation of the compositions of heavy metals and phosphates in polymer substances of active sludge biomass].Voda i ekologiya: problemy i resheniyaizd-vo: Sankt-Peterburgskij gosudarstvenny arhitekturno-stroitel’nyjuniversitet, 2020, 3 (83): 8-13. (in Russian)
9. Borzova YU.S., Ispol’zovanieekologicheskibezopasnyhtekhnologijochistkistochnyhvod [Use of environmentally friendly wastewater treatment technologies]. Young Science, 2014, 1: 16-17. (in Russian)
10. Belyuchenko I.S., Osadkistochnyhvod, ihochistka i ispol’zovanie [Sewage sludge, its treatment and use]. Ecological Bulletin of the North Caucasus, 2016, 1: 82-95. (in Russian)
11. Valeev V.H., Somova YU.V., Somov V.A., Issledovanie vozmozhnosti ispol’zovaniya osadkov stochnyh vod ochistnyhsooruzhenij v kachestveudobreniya [Investigation of the possibility of using sewage sludge from wastewater treatment plants as fertilizer]. Izvestiyavuzov. Prikladnayahimiya i biotekhnologiya, 2015, 3(14): 69-73.
12. Prabhanjan N., Yadav G.S., Sahithi G., Sravanthi B. and Tipraj B. Assesment to Increase the Mechanical Properties of used Ballast by EDTA Solution as a Construction In the collection: Material International Journal of Recent Technology and Engineering, 2020 : 157-160.
13. Doh S. I., Muhammad Aizat A., Chin S. C., Jing G. Q. Mechanical properties of concrete containing microwaved sewage sludge ash as partial cement replacementIn the collection: National Colloquium on Wind & Earthquake Engineering IOP Conf. Series: Earth and Environmental Science, 2019, С 012027 IOP Publishing doi:10.1088/1755-1315/244/1/012027
14. Bahadori, H., &Hosseini, P. Reduction of cement consumption by the aid of silica nano-particles (Investigation on concrete properties). Journal of Civil Engineering and Management, 2012, 18: 416–425, doi:10.3846 13923730.2012.698912
15. Ribeiro,A. Mix design process of polyester polymer mortars modified with recycled GFRP waste materials. Fiúza,A.C.M. Castro,F.G. Silva,M.L. Dinis, J.P. Meixedo,M.R. Composite Structures 2013, 105: 300-310 doi.org/10.1016/j.compstruct.2013.05.023
16. Vyboishchik A.V.,Kostiunina I.L. Contemporary methods of production of pigments obtained from non-ferrous industrial waste. IOP Conf. Series: Materials Science and Engineering, 451 (2018) С. 012003, doi:10.1088/1757-899X/451/1/012003
17. Zaletova N.A., Voronov YU.V., Novyetekhnologiidlyaresheniyasovremennyhzadachochistkistochnyhvod [New technologies for solving modern problems of wastewater treatment].Vestnik MGSU, 2012, 2: 109-111.
18. Vasil’ev S.M., DomashenkoYU.E., Lyashkov M.A., Opredelenie zon razbavlenija pri povtornom ispol’zovanii stochnyh vod na orositel’nyh sistemah [Determination of dilution zones for wastewater reuse in irrigation systems].NauchnyjzhurnalRossijskogo NII problem melioracii, 2016, 2 (22): 17-29.
19. Yu S, Wang B, Pan Y, Chen Z, Meng F, Duan S, Cheng Z, Wu L, Wang M and Ma W 2018 Cleaner production of spherical nanostructure chromium oxide (Cr2O3) via a facile combination membrane and hydrothermal approach// Journal of Cleaner Production, 176, pр. 636-644, doi.org/10.1016/j.jclepro.2017.12.108
20. Merkina I.V. Utilizacija tvjordyh othodov istochnyh vod v programme predotvrashhenija zagrjaznenija okruzhajushhej sredy (Avstralija) [Disposal of solid waste and wastewater in the environmental pollution prevention program (Australia)]. VNIINTPI. Stroitel’stvo i arhitektura. Ser. Inzhenernoeobespechenieob” ektovstroitel’stva i ZHKKH: ekspress-inform, 2007, 4: 77-78.
21. Sokolov P. E., Sentenberg S. A. Application of clusterization algorithms for building materials classification on radioactivity in R. IOP Conf. Series: Materials Science and Engineering 687 (2019), С. 022003, doi:10.1088/1757-899X/687/2/022003 1
22. Krasheninnikova S.V. Vliyanieurbanizirovannyhterritorijnaformirovaniepoverhnostnogostoka [Influence of urbanized areas on the formation of surface runoff]. Izvestiya PGPU im. V.G. Belinskogo. 2008, 10(4):119-121.
23. MestnikovА E, Fedorov V. I. Porous filler from foam-zeolite and light concretes based on it for conditions of the Arctic and the North. IOP Conf. Series: Materials Science and Engineering 687 (2019), С. 022027, doi:10.1088/1757-899X/687/2/022027
24. SHonina N.A. Vodosnabzhenie i vodootvedenie v usloviyahKrajnegosevera [Water supply and sanitation in the Far North].Santekhnika [Plumbing], 5, 2012: 15-24.
25. Ambrosova, G. T., Kruglikova, A. V., Mansurov, R. SH., Rafal’skaya, T. A. i Timofeev, S. L. Vliyanieprirodno-klimaticheskihfaktorovnaeffektivnost’ rabotyotkrytyhochistnyhsooruzhenijkanalizacii [Influence of natural and climatic factors on the efficiency of open sewage treatment plants]. Vodosnabzhenie i sanitarnayatekhnika [Water supply and sanitary equipment], 2019, 4: 48–59.
26. Gorbacheva, T.T., Majorov, D.V. Probnoe koagulirovanie osvetlennyh kommunal’nyh stokov v reagentnomudaleniifosfora [Trial coagulation of clarified municipal wastewater in reagent phosphorus removal]. Vestnik sovremennyh issledovanij, 2018, 12.1 (27): 504–508.
27. Randall, А.А., Chen, Y. and McCue, T. The efficiency of enhanced biological phosphorus removal from real wastewater affected by different ratios of acetic to propionic acid. Water Research, 2014, 38(1): 27–36. doi: 10.1016/j. watres.2003.08.025.
28. Setegn, S. G. Water resources management for sustainable environmental public health. Setegn, S. G., Donoso, M. C. (eds.). Sustainability of integrated water resources management: water governance, climate and ecohydrology. Cham: Springer, 2015: 275–287. doi: 10.1007/978-3-319-121949 15.
Review
For citations:
Chulkova I.L., Smirnova O.E., Krasova A.V. Use of sewage sludge in concrete industry. The Russian Automobile and Highway Industry Journal. 2021;18(5):566-575. (In Russ.) https://doi.org/10.26518/2071-7296-2021-18-5-566-575