izpis_h1_title_alt

Uporaba EDTA za čiščenje odpadnega blata, onesnaženega s strupenimi kovinami
ID Fojkar, Barbara (Author), ID Leštan, Domen (Mentor) More about this mentor... This link opens in a new window

.pdfPDF - Presentation file, Download (639,02 KB)
MD5: 5556015ABD60CC7C3D19521A5FF06213

Abstract
Blato je stranski produkt komunalnih čistilnih naprav, ki poleg drugih onesnaževal vsebuje potencialno strupene kovine (PSK). Ravno te omejujejo njegovo uporabo v kmetijstvu, saj presegajo mejne vrednosti, ki so zakonsko določene. Uporaba remediiranega blata v kmetijstvu vodi v trajnosten način upravljanja z blatom zaradi vrnitve organske snovi in hranil, še posebej fosforja, v tla. V magistrski nalogi smo uporabili že obstoječo tehnologijo odstranjevanja PSK iz blata čistilnih naprav in jo prilagoditi za potencialno uporabo kot del postopka na čistilnih napravah. Kot kelatno sredstvo za vezavo in odstranjevanje PSK smo uporabili EDTA. V prvem delu poskusa smo primerjali različne koncentracije EDTA in ugotovili, da ima 35 mM EDTA najboljše razmerje med odstranitvijo PSK in cenovno dostopnostjo. Z izbrano koncentracijo EDTA smo nato izpirali blato, sestavljeno iz anaerobnega in aerobnega blata v razmerju 1:8. V anaerobnem delu poskusa smo med inkubacijo vzorcev opazovali vpliv EDTA na produkcijo metana, kasneje pa smo iz blata odstranili železo, saj njegova prisotnost v blatu kasneje ovira odstranitev ostalih kovin. Ugotovljeno je bilo, da EDTA nima vpliva na metanogenezo, dodatek citronske kisline pa ta proces pospeši. V aerobnem delu poskusa smo iz blata odstranili preostale PSK s trikratnim spiranjem. Na podlagi meritev blata, procesnih raztopin in trdnega odpada smo določili učinkovitost odstranitve PSK iz blata. Ugotovili smo, da je odstranitev PSK iz blata zadostna, da koncentracije v njem upadejo pod zakonsko določene mejne vrednosti za uporabo v kmetijstvu. Vsebnost fosforja se v blatu pred in po remediiaciji bistveno ne razlikuje. Prav tako smo v poskusu uspešno reciklirali EDTA in procesne raztopine, ki prispevajo k trajnosti postopka, saj ne proizvaja odpadne vode.

Language:Slovenian
Keywords:blato komunalnih čistilnih naprav, EDTA, potencialno strupene kovine, oprano blato, trajnost, anaerobna razgradnja, aerobna obdelava, proizvodnja metana, fosfor
Work type:Master's thesis/paper
Typology:2.09 - Master's Thesis
Organization:BF - Biotechnical Faculty
Year:2023
PID:20.500.12556/RUL-150433 This link opens in a new window
COBISS.SI-ID:164902403 This link opens in a new window
Publication date in RUL:17.09.2023
Views:1339
Downloads:112
Metadata:XML DC-XML DC-RDF
:
Copy citation
Share:Bookmark and Share

Secondary language

Language:English
Title:Use of EDTA to treat sewage sludge contaminated with toxic metals
Abstract:
Sludge is a by-product of municipal sewage treatment plants, which, in addition to other pollutants, contains potentially toxic metals (PTM). It is precisely these that limit its use in agriculture, as they exceed the limit values set by law. The use of remedied sludge in agriculture leads to a sustainable method of sludge management due to the return of organic matter and nutrients, especially phosphorus, to the soil. In the master's thesis, we used an already existing technology of PTM removal from sewage sludge and adapted it for potential use as part of the process at sewage treatment plants. EDTA was used as a chelating agent for PTM binding and removal. In the first part of the experiment, we compared different concentrations of EDTA and found that 35 mM EDTA has the best ratio between PTM removal and affordability. The selected concentration of EDTA was then used to wash the sludge, consisting of anaerobic and aerobic sludge in a ratio of 1:8. In the anaerobic part of the experiment, we observed the effect of EDTA on methane production during the incubation of the samples, and later iron was removed from the sewage sludge, as its presence later hinders the removal of other metals. It was found that EDTA has no effect on methanogenesis, and the addition of citric acid accelerates this process. In the aerobic part of the experiment, the remaining PTM were removed from the mud by washing it three times. Based on measurements of sludge, process solutions and waste, we determined the efficiency of PTM removal from sludge. We found that the removal of metals from the sludge is sufficient for the concentrations to fall below the legal limit values for use in agriculture. The phosphorus content in the sludge before and after remediation does not differ significantly. We also successfully recycled EDTA and process solutions in the experiment, which contributes to the sustainability of the process, as it does not produce waste water.

Keywords:sewage sludge, EDTA, potentially toxic metals, washed sludge, sustainability, anaerobic digestion, aerobic treatment, methane production, phosphorus

Similar documents

Similar works from RUL:
Similar works from other Slovenian collections:

Back