Paper Titles

Consideration of Variability of Concrete Characteristics in Calculation of Reinforced Concrete Structures
p.166

Diagram of Non-Linear Straining of Carbon-Fiber Reinforced Concrete at Static Effect
p.173

Complex-Action Reagent for Oil-Infield and Oil-Trunk Pipelines
p.185

Ensuring Environmental Safety of Hydrocarbon Pipeline Transport Using Nanotechnology
p.192

Experimental Assessment of Biogas and Leachate Emissions from MSW Landfills for Energy Reclamation with the Aim of Sustainable Urban Development
p.199

Methane Component of the Modern WWTP Biogas as an Alternative Energy Source
p.208

Structure of Polymer Composites on Basis of Epoxy Resin and Organic and Inorganic Dispersed Industrial Wastes
p.216

Effective Sediment Treatment of Urban Sewage by Microwave Radiation
p.223

Comparative Effect of Different Coagulants on Physical Properties of Drill Cuttings
p.233

HomeMaterials Science ForumMaterials Science Forum Vol. 871Effective Sediment Treatment of Urban Sewage by...

Effective Sediment Treatment of Urban Sewage by Microwave Radiation

Article Preview

Abstract:

In this paper, we propose a method of treating wastewater and sludge by microwave radiation. Many Russian scientists are studying microwave effect on the properties of water and sladge and they are solving the practical application of microwave technology in the treatment of wastewater and sludge. Research carried out at the department “Water supply and sanitation”, Tyumen State University of Architecture and Civil Engineering (Russia), confirm changing properties of water and sediments. So too studies confirmed the economic feasibility of the use of microwave radiation for treatment plants having small capacity.

You might also be interested in these eBooks

Advanced Materials and Technologies in Construction, Energy Production and Waste Treatment

Info:

Periodical:

Materials Science Forum (Volume 871)

Pages:

223-232

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.871.223

Citation:

Cite this paper

Online since:

September 2016

Authors:

Elena Vialkova*, Marina Zemlyanova, Anna Pesheva

Keywords:

Method of Treatment, Microwave Electromagnetic Radiation (Radiation of Superhigh Frequency, SHF), Sludge (Sediments), Wastewater (Sewage)

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2016 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

* - Corresponding Author

[1] M.V. Zemlyanova, E.I. Vialkova, Otsenka antropogennoy nagruzki na vodnyye obyekty v basseyne r. Irtysh (na primere Yuga Tyumenskoy oblasti) Trudy II Vserossiyskoy nauchnoy konferentsii s mezhdunarodnym uchastijem Vodnyye i ekologicheskiye problemy Sibiri Tsentral'noy Azii, Barnaul. (2014).

[2] M.V. Zemlyanova, E.I. Vialkova, Effectivnost' primeneniya electromagnitnogo izlucheniya v tekhnologiyach obrabotki osadkov stochnykh vod, Ekologiya i promyshlennost' Rossii. 6 (2015) 47-49. (rus).

[3] M.V. Zemlyanova, Intensifikatsiya protsessov obrabotki osadkov gorodskykh stochnykh vod s pomoshch'uy sverkhvysokochastotnogo electromagnitnogo izlucheniya, Avtoreferat dissertatsii na soiskaniye uchenoy stepeni kandidata tekhnicheskikh nauk, Samara, 2015. (rus).

[4] S.A. Dovgan', Ekologicheskiye, technologicheskiye i ekonomicheskiye aspekti ispolzovaniya osadkov stochnykh vod, Ekologiya i promyishlennost Rossii. 5 (2012) 28-30. (rus).

[5] Voprosy teorii i praktiki magnitnoy obrabotki vody i vodnykh system, Sbornik vtorogo vsesoyuznogo soveshchaniya, Moscow, 1971. (rus).

[6] V.I. Klassen, Omagnichivaniye vodnykh system, Khimiya, Moscow, 1978. (rus).

[7] F. Krauford, Waves (Berkleyev physis course), 2nd edition, Moscow. 3 (1976) 527.

[8] Minenko V. I. Magnitnaya obrabotka vodno-dispersnyh system (1970) Kiev Tekhnika, p.165. (rus).

[9] P.S. Stukalov, E.V. Vasilyev, N.A. Glebov, Magnitnaya obrabotka vody, Sudostroyeniye, Leningrad, 1969. (rus).

[10] V.I. Klassen, Doklady Akademii nauk SSSR. 190(6) (1970) 1391-1392. (rus).

[11] V.I. Klassen, U.Z. Zinoviev, Kolloidniy zhurnal. 5 (1967) 758-759. (rus).

[12] R.P. Zadneprovskiy, Kolloidniy zhurnal, 4 (1973) 758-759. (rus).

[13] I.K. Tsitovich, Isvestiya vusov. Khimiya i khimicheskaya tekhnologia. 13 (1970) 1290-1293. (rus).

[14] Biologichesliye effekty electromagnitnoy energii i meditsina, 68(1) (1980) 214. (rus).

[15] V.I. Panasenko, Deystviye moshchnogo EMP s chastotoy 2375 MHz na microorganizmy, Biologichesloye deystviye electromagnitnykh poley. (1982) pp.26-27. (rus).

[16] S.D. Zakharov, V.I. Porotikov, Phizika khimiko-biologicheskikh protsessov, Znaniye, Moscow, 1981. (rus).

[17] E. Sh. Ismailov, Biophizicheskoye deystviye SVCh-izlucheniya, Energoatomizdat, Moscow, 1987. (rus).

[18] U.B. Kudryashov, E. Sh. Ismailov, S.M. Zubkova, Biophizicheskiye osnovy deystviya mikrovoln, MGU, Moscow, 1980. (rus).

[19] P.O. Makarov, E. Sh. Ismailov, N.E. Shvinka, Biophizicheskiye osnovy deystviya ultrafioletovogo i ultrazvukovogo izlucheniy i sverkhvysokochastotnogo electromagnitnogo polya. Lektsii po biophizike, LGTU, Leningrad, 1968. (rus).

[20] N.D. Devyatkov, Vliyaniye elektromagnitnogo izlucheniya millimetrovogo diapazona dlin voln na biologicheskiye obyecty, Uspekhi phizicheskikh nauk. 110(3) (1973) 453-454. (rus).

[21] E. Sh. Ismailov, Voprosy biovozdeystviya mikrovoln, Voprosy biovozdeystviya phizicheskikh faktorov vneshney sredy. 1 (1970) 10-21. (rus).

[22] B.A. Minin, SVCh i bezopasnost' cheloveka, Sovetskoye radio, Moscow, 1974. (rus).

[23] E. Parcell, Electricity and magnetism (Berkleyev physis course), Nauka, Moscow, 1975. (rus).

[24] U.A. Kholodov, Magnetizm v biologii, Nauka, Moscow, 1970. (rus).

[25] U.A. Kholodov. Vliyaniye elektromagnitnykh i magnitnykh polyey na tsentral'nuyu nervnuyu sistemy, Nauka, Moscow, 1966. (rus).

[26] M.N. Tikhonov, V.V. Dovgusha, L.V. Dovgusha, Mekhanism vliyaniya estestvennykh i tekhnogennykh elektromagnitnykh polyey na bezopasnost' zhiznedeyatelnosti, Ekologiya promyshlennogo proizvodstva. 4 (2011) 24-32. (rus).

[27] A.S. Presman Electromagnitnyye polya i zhivaya priroda, Nauka, Moscow, 1968. (rus).

[28] T.I. Komarova, Primeneniye KVCh izlucheniya biomassy uglevodorodokislyayushchich bacteriy Rhodococcus erythropolis E-15, Ecologicheskiye sistemy i pribory. (2013) 48-51. (rus).

[29] L.O. Nikiforova, Intensifikatsiya raboty aerotenka s ispol'zovaniyem izbytochnoy energii potoka vozvratnogo aktivnogo ila, Avtoreferat dissertatsii na soiskaniye uchenoy stepeni kandidata tekhnicheskikh nauk, Pensa , PGASA, 2002. (rus).

[30] R.Z. Minnigalimov, Razrabotka technologii pererabotky neftyanykh shlamov s primeneniyem energii VCh i SVCh electromagnitnykh poley, Avtoreferat dissertatsii na soiskaniye uchenoy stepeni kandidata tekhnicheskikh nauk, Ufa, 2010. (rus).

[31] S.G. Zhuravlev, S.G. Petrenko, Sposob obezzarazhivaniya promyshlennykh stochnykh vod, Patent RU 2123477 C1, 1996. (rus).

[32] I.A. Gaponenkov, O.A. Fedorova, SVCh-obrabotka osadka stochnykh vod pishchevykh proizvodstv, Vestnik MGTU. 16(4) (2013) 681-686. (rus).

[33] V.I. Kapustin, A.P. Korzhavyy, Novaya bezreagentnaya tekhnologiya dlya ochistki pityevoy vody i osadkov stochnykh vod, Sostoyaniye i okhrana okruzhayuchey sredy v Kaluge. Informatsionny obzor, 2009. (rus).

[34] V.V. Senkus, B.M. Stefanyuk, V.V. Senkus, V.V. Senkus, S.N. Chasovnikov, I.S. Gridasov, A.A. Bogatyrev, , N.I. Konakova, A.F. Kisel, Compleksnyy sposob bezreagentnoy ochistky stochnykh vod i briketirovaniya ila, Patent RU 2431510 C2, MPK CO2F 9/12, 2011. (rus).

[35] Mikrovolnovka prevratit musor v toplivo, Tverdyye bytovyye otkhody. (2012) 16. (rus).

[36] A.B. Laptev, I.G. Abdullin, R.J. Akhiyarov, D.E. Bugay, O.R. Latypov, Sposob antibacterial'noy obrabotki potoka zhidkoy sredy, Patent RU 2376247 C2, MPK CO2F1 / 48, 2006. (rus).

[37] SIA Pancers-Tehno, Panzer Ltd., data viewed on 28. 01. 2016, Information on: http: /www. panzer. lv/ (date of the application 20. 02. 2016).

[38] E.I. Vialkova, A.V. Pesheva, S.V. Maksimova, N.V. Malenko, Problemy malogabaritnykh kanalizatsionnykh ochistnykh sooruzheniy v usloviyakh Tyumenskogo Severa i Ural'skogo regiona, Stroyitel'ny vestnik, TyumGASU. 2(60) (2012) 58-60. (rus).

[39] S. Maksimova, D. Kosaurova, A. Pesheva, Recycling of wastewater treatment plants sludge in urban landscaping in West Siberia, Procedia Engineering. 117 (2015) 232-238. (rus).

DOI: 10.1016/j.proeng.2015.08.154