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UČINKOVITOST OZONACIJE GLIKOPEPTIDNEGA ANTIBIOTIKA ZA ZMANJŠANJE EMISIJ IN VPLIVA NA OKOLJE
ID Ošlaj, Nika (Author), ID Žgajnar Gotvajn, Andreja (Mentor) More about this mentor... This link opens in a new window

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Abstract
V današnjem času je vedno več bolezni in s tem tudi vedno večja uporaba farmacevtskih učinkovin, med katere sodijo tudi antibiotiki. Njihova prekomerna uporaba (pri ljudeh in živalih) ter neprimerno odlaganje farmacevtskih učinkovin (v straniščne školjke, naravo itd.) je privedlo do razvoja rezistentnih bakterij. Zato farmacevtske družbe razvijajo vedno več novih antibiotikov in ostalih farmacevtskih učinkovin. V ta namen smo pripravili modelno odpadno vodo z uporabo antibiotika vankomicina, ki smo jo pri različnih temperaturah (sobni –20 °C in povišani –40 °C) ozonirali. Izvedli smo neposredno ozonacijo, ozonacijo pri povišanem pH, ozonacijo pri povišanem pH z dodatkom vodikovega peroksida, katalitsko ozonacijo, foto-katalitsko ozonacijo, ozonacijo s Fentonovo oksidacijo in ozonacijo s foto-Fentonovo oksidacijo. Vzorcem smo pomerili kemijsko potrebo po kisiku (KPK) in celotni organski ogljik (TOC). Iz dobljenih rezultatov smo izračunali učinkovitost čiščenja in kinetiko razgradnje, po Arrheniusovi zvezi pa tudi aktivacijsko energijo. Da bi ugotovili, kakšen vpliv ima posamezna očiščena odpadna voda na okolje, smo izvedli strupenostni test z bakterijami Vibrio fischeri, kjer uporabljamo morske bakterije, ki oddajajo luminescenco. Na podlagi tega testa smo določili strupenost očiščene in neočiščene odpadne vode na okolje. Ugotovili smo, da poteče dvostopenjska reakcija ozonacije; prva stopnja, ki je bolj učinkovita, pa poteče hitreje. Prav tako je ozonacija inkovitejša in tudi hitrejša pri povišani temperaturi. Popolne mineralizacije ne moremo potrditi pri nobenem tipu ozonacije, saj so učinkovitosti razgradnje največ 94 %. Na podlagi TOC in KPK analize smo ugotovili, da sta najbolj uspešni ozonacija pri povišanem pH z dodatkom vodikovega peroksida ter ozonacija pri povišanem pH. Hkrati pa strupenostni test kaže, da sta ti dve očiščeni vodi za bakterije tudi najbolj strupeni, zato za rešitev predlagamo uporabo neposredne ozonacije, ki je sicer manj učinkovita, vendar pa je za okolje najmanj nevarna.

Language:Slovenian
Keywords:napredni oksidacijski postopki, oksidacija, strupenostni test, vankomicin
Work type:Master's thesis/paper
Typology:2.09 - Master's Thesis
Organization:FKKT - Faculty of Chemistry and Chemical Technology
Year:2024
PID:20.500.12556/RUL-160793-ef17ca22-fded-5f24-f0e5-d32da76077b1 This link opens in a new window
COBISS.SI-ID:211190275 This link opens in a new window
Publication date in RUL:04.09.2024
Views:182
Downloads:28
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Secondary language

Language:English
Title:EFFICIENCY OF OZONATION OF A GLYCOPEPTIDE ANTIBIOTIC FOR REDUCTION OF EMISSIONS AND ENVIRONMENTAL IMPACT
Abstract:
Nowadays, there are more and more diseases and therefore more and more pharmaceutical drugs, including antibiotics. Their overuse (in human and veterinary medicine) and the inappropriate disposal of active pharmaceutical ingredients (in sewage systems, in the environement, etc.) have led to the development of resistant bacteria. As a result, pharmaceutical companies are developing more and more antibiotics and other active pharmaceutical ingredients. The aim of our work was to assess the efficiency of ozonation-based processes for treatment of wastewaters containing antibiotics. For this purpose, a model wastewater using the antibiotic vancomycin was prepared and ozonated at different temperatures (room temperature –20 °C and elevated temperature –40 °C). Direct ozonation, ozonation at elevated pH, ozonation at elevated pH with the addition of hydrogen peroxide, catalytic ozonation, photo-catalytic ozonation, ozonation by Fenton oxidation and ozonation by photo-Fenton oxidation were carried out. The chemical oxygen demand (COD) and total organic carbon (TOC) of the samples were measured. From the results obtained, the treatment efficiency and the kinetics of degradation were calculated, as well as the activation energy according to the Arrhenius relation. In order to determine the environmental impact of the treated wastewater, we carried out a toxicity test with Vibrio fischeri using luminescence-emitting marine bacteria. This test was used to determine the toxicity of treated and untreated wastewater to the environment. We have found that a two-stage ozonation reaction takes place, with the first stage, which is more efficient, taking place more quickly. It is also more efficient and also faster at elevated temperature. We cannot confirm complete mineralisation of selected antibiotic with any type of ozonation, as the decomposition efficiencies are at a maximum of 94 %. Based on the TOC and COD analysis, ozonation at elevated pH with the addition of hydrogen peroxide and ozonation at elevated pH are the most successful. However, the toxicity test reveals that these two treatment processes resulted in the most toxic effluent, therefore we propose the use of direct ozonation as a solution, which may indeed be less effective, but is the least dangerous for the environment.

Keywords:advanced oxidation processes, oxidation, toxicity test, vancomycin

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