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Journal of Water Resource and Protection 2023

Significance of Substrate Selection in the Efficiency of Wastewater Treatment in Constructed Wetlands (CWs)

DOI: 10.4236/jwarp.2023.159025, PP. 424-441

Snezana Didanovic, Danijel Vrhovsek

Keywords: Constructed Wetlands (CW), Reduced Area of Wetlands, Substrates for Wetlands, Vertical Flow System, Primary Treatment, Treatment Efficacy

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Abstract:

Constructed wetlands (CWs) can achieve a high-quality wastewater treatment and a quality that meets the prescribed standard, defined by legislation on wastewater discharge. A limitation in the application of constructed wetlands (CWs) is the large area requirement, which limits their application. The subject matter of this research is to check the possibility of improving the efficiency of wastewater treatment and reducing the required area for constructed wetlands (CWs) by using an adequate substrate under the conditions found in Montenegro. In the described experiment, the constructed wetlands (CW) have a vertical flow system and play the role of a secondary wastewater treatment, receiving water from the existing WWTP in Podgorica after the primary treatment. These vertical flow systems reflect experience with the use of similar systems in Slovenija, Austria and Italy. Measurements to date show that the substrate plays an important role and that wastewater treatment efficacy varies significantly with respect to the type of substrate when used under the conditions available in Montenegro.

References

[1]	O’Hogain, S. and McCarton, L. (2018) A Technology Portfolio of Nature Based Solutions: Inovations in Water Management. Springer, Cham. https://doi.org/10.1007/978-3-319-73281-7
[2]	Didanovic, S. and Sekulic, G. (2011) [Construction of Plant Systems for Wastewater Treatment in MONTENEGRO from the Aspect of Efficiency and Economic Profitability] Izgradnja biljnih sistema za preciscavanje otpadnih voda u Crnoj Gori sa aspekta efikasnosti i ekonomske isplativosti. Zastita Materijala, 52, 285-290.
[3]	Didanovic, S. and Sekulic, G. (2012) [Plants in the Wastewater Treatment Process in Montenegro] Biljke u procesu preciscavanja otpadnih voda u Crnoj Gori. Zastita Materijala, 53, 137-142.
[4]	EC (2000) Directive 2000/60/EC of the European Parliament and of the Council Establishing a Framework for Community Action in the Field of Water Policy. https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=celex%3A32000L0060
[5]	Official Gazette of Montenegro (2017) Decision on the Designation of Sensitive Areas in the Danube River Basin and Adriatic Sea Drainage Basin. https://www.gov.me/
[6]	Ministry of Sustainable Development and Tourism of Montenegro (2014) Ecoremediation Strategy in Montenegro. https://www.researchgate.net/publication/277413765_ECOREMEDIATION_STRATEGY_FOR_MONTENEGRO
[7]	Montenegro’s Program of Accession to the EU. https://wapi.gov.me/download-preview/0b00010a-937a-4b56-8e87-6cf4a8be0a20?version=1.0
[8]	Programme of Accession of Montenegro to the EU 2018–2020. https://www.eu.me/en/programme-of-accession-of-montenegro-to-the-eu-2018-2020/
[9]	Ministry of Sustainable Development and Tourism of Montenegro (2016) The 2030 National Sustainable Development Strategy. https://www.fao.org/faolex/results/details/en/c/LEX-FAOC180387
[10]	Official Gazette of Montenegro (2017) Law on Municipal Wastewater Management. https://leap.unep.org/countries/me/national-legislation/law-communal-wastewater-management
[11]	Official Gazette of Montenegro (2007, 2018) Law on Waters. http://faolex.fao.org/docs/pdf/mne139421.pdf
[12]	Ministry of Sustainable Development and Tourism of Montenegro (2019) The Municipal Wastewater Management Plan for Montenegro (2020-2035). https://www.gov.me/en/documents/06b0403a-923c-4f3c-8422-8cafffae8c0f
[13]	Tusar, B. (2009) [Wastewater Treatment] Prociscavanje otpadnih voda, Zagreb. Preciscavanje u Prirodnim Uvjetima, 5, 181-204.
[14]	Vrhovsek, D. and Korze, V.A. (2007) Ekoremediacije. Maribor in Ljubljana.
[15]	Vidali, M. (2001) Bioremediation. An Overview. Pure and Applied Chemistry, 73, 1163-1172. https://doi.org/10.1351/pac200173071163
[16]	UN-Habitat (2003) Water and Sanitation in the World’s Cities: Local Action for Global Goals. Earthscan Publications, London.
[17]	Tusar, B. (2009) Prociscavanje otpadnih voda, Zagreb. Otpadne vode i sistemi odvodnje, 2, 51-69.
[18]	Tusar, B. (2004) Discharge and Purification of Waste Water. Ispustanje i prociscavanje otpadne vode, Zagreb.
[19]	Cooper, P.F. (2005) The Performance of Vertical Flow Constructed Wetland Systems with Special Reference to the Significance of Oxygen Transfer and Hydraulic Loading Rates. Water Science and Technology, 51, 81-90. https://doi.org/10.2166/wst.2005.0293
[20]	EPA. United States Envoronmental Protection Agency (2000) Constructed Wetlands treatment of Municipal Waste Waters. https://nepis.epa.gov/Exe/ZyNET.exe/30004TBD.txt?ZyActionD=ZyDocument&Client=EPA&Index=2011
[21]	Kadlec, R.H. and Wallace, S.D. (2009) Treatment Wetlands. 2nd Edition, CRC Press, Boca Raton. https://doi.org/10.1201/9781420012514
[22]	Brix, H. and Johansen, N.H. (2004) Retningslinier for Etablering af Beplantede Filteranlaeg op til 30 PE (Guidelines for Vertical Flow Constructed Wetland Systems up to 30 PE). Okologisk Byfornyelse og Spildevandsrensning No. 52, Miljostyrelsen, Miljoministeriet. (In Danish)
[23]	DWA (2006) Grundsatze für Bemessung, Bau und Betrieb von Pflanzenklaranlagen mit beflanzten Bodenfiltern zur biologischen Reinigung kommunalen Abwassers, in German. (Principles for Dimensioning, Construction and Operation of Wastewater Treatment Plants with Soil Filters for Biological Cleaning of Municipal Wastewater). Deutsche Vereinigung für Wssserwirt schaft. Abwasser und Abfall, Hennef, Germany.
[24]	Brix, H. and Arias, C.A. (2005) The Use of Vertical Flow Constructed Wetlands for On-Site Treatment of Domestic Wastewater: New Danish Guidelines. Ecological Engineering, 25, 491-500. https://doi.org/10.1016/j.ecoleng.2005.07.009
[25]	Hrast, T. (2012) Draft of the Guidelines for the Design of Constructed Wetlands in Slovenia Based on Practices in Europe. https://www.semanticscholar.org/paper/Draft-of-the-guidelines-for-the-design-of-wetlands-Hrast/194e573f5952c4964d3f3047b76e7a6501ef6b25
[26]	Sekulic, G. and Cipranic, I. (2015) Municipal Hydrotechnics, Komunalna Hidrotehnika, Gradevinski fakultet Podgorica, 2015. Preciscavanje Upotrebljenih Otpadnih voda, 171-177, 283-307. https://www.scribd.com/document/579225715/komunalna-hidrotehnika
[27]	Winsoft, D.O.O. (2015) Prostorno urbanisticki plan Glavnog grada Podgorice (Spatial Urban Plan of the Capital Podgorica). https://podgorica.me/db_files/Urbanizam/PUP/pup.pdf
[28]	DHV and FIDECO (2007) Project of Rehabilitation of WWTP Podgorica (Project Documentation). Archives Company Watersupply and Sewerage in Podgorica.
[29]	Franjo, C. (1990) Voda za pice-Standardne metode za ispitivanje higijenske ispravnosti (Drinking Water—Standard Methods for Testing Hygiene), Beograd. https://www.tehnologijahrane.com/knjiga/voda-za-pie
[30]	Lurie, J.J. (1984) Analiticeskaja Chimia promyslennych stocnych Vod (Analytical Chemistry of Process Water and Wastewater). Verlag Chimia, Moskva. https://doi.org/10.1002/aheh.19860140513
[31]	AWWA (1975) Standard Methods for the Examination of Water and Wastewater. 14th Edition, American Water Works Association, Washington DC.
[32]	Maviosoa, J.F. and Ana, F. (2010) Wastewater Treatment through Constructed Wetlands: The Influence of Vegetation, Portugal. https://fenix.tecnico.ulisboa.pt/downloadFile/395142116560/Resumo%20alargado.pdf

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