Empleo de sustancias tipo húmicas obtenidas a partir de diferentes residuos orgánicos en la eliminación de contaminantes emergentes

[ES] En la presente tesis doctoral se ha estudiado la degradación de diferentes mezclas de contaminantes mediante el proceso de oxidación avanzada foto-Fenton solar, buscando alternativas que lo hagan más eficiente a un pH próximo a la neutralidad. Este proceso oxidativo se ha llevado a cabo a pH 5 mediante la adición de sustancias tipo húmicas (STH) extraídas de diferentes residuos orgánicos. Las STH se han extraído del residuo de la producción del aceite de oliva, del residuo del café y de lodos de depuradora deshidratados del reactor anaerobio de EDAR. Estas STH se han caracterizado por diferentes técnicas analíticas y se han adicionado al proceso foto-Fenton para comprobar su eficacia y eficiencia en el mismo. En el caso del uso de las STH provenientes del residuo de la oliva se han obtenido diferentes tiempos de fermentación y diferentes tamaños de fracciones. El estudio sobre STH preparadas sobre residuos con diferentes tiempos de fermentación, demuestra que los mejores resultados de degradación se obtienen con las muestras fermentada un mes, pero en cualquier caso no son significativas las diferencias, por lo que no sería necesario someter al residuo a ningún tiempo de fermentación previo a la extracción de las STH. En los ensayos con diferentes fracciones de STH, se determina que no es necesario el proceso de separación por membranas ya que las degradaciones obtenidas son muy similares, independientemente del uso de una u otra. Se ha probado su eficiencia en diferentes matrices de agua y se ha comprobado su capacidad para complejar el hierro manteniéndolo en disolución, obteniendo buenos resultados en todos los casos. Se han realizado ensayos de toxicidad sobre diferentes organismos para comprobar la detoxificación de las muestras tratadas. Los ensayos de toxicidad determinan que el compuesto clorfenvinfos es el más tóxico y que las muestras en presencia de las STH son más tóxicas antes de aplicar ningún tratamiento, debido a la capacidad surfactante de las mismas. El tratamiento de una mezcla de parabenos con STH de diferente procedencia, mejora los resultados de degradación de contaminantes cuando el proceso se aplica a pH próximo a la neutralidad. Se determina que las STH extraídas del café aplicadas con una cantidad extra de peróxido de hidrógeno (doble de la estequiométrica) proporcionan mejores resultados de degradación de contaminantes que las STH obtenidas de la oliva y del lodo de depuradora. De los ensayos toxicológicos realizados y del de disrupción endocrina, se concluye que el tratamiento durante un t30w de 30 minutos, pese a que consigue la degradación de los parabenos, no resulta suficiente para detoxificar las muestras, ya que las disoluciones finales presentan mayor toxicidad que las intermedias, por lo que se considera prolongar los tratamientos. Las STH extraídas del lodo de depuradora se han utilizado para el lavado de contaminantes cuando se quiere aumentar su concentración y tratar menores volumenes con mayor concentración. Se han acoplado procesos de membrana y procesos oxidativos. Se comprueba que las STH son capaces de atrapar el contaminante por la formación de micelas, impidiendo su paso por la membrana y facilitando el posterior tratamiento por proceso foto-Fenton del retentado obtenido. El análisis realizado por PARAFAC determina que existe una interacción entre las STH y el contaminante. Por otro lado, se ha comprobado la capacidad de generar especies reactivas por parte de las STH en presencia de Fe(II) y Fe(III) obteniéndose una velocidad de reacción más lenta, aunque más estable a lo largo del tiempo con el uso del Fe(III). Las STH extraídas de diferentes residuos han resultado eficientes para la degradación de contaminantes emergentes cuando se lleva el proceso foto-Fenton a pH 5 debido a su capacidad por un lado de complejar el hierro manteniéndolo en disolución y por otro a la capacidad de generar especies reactivas durante el proceso.[CA] En la present tesi doctoral s'ha estudiat la degradació de diferents mescles de contaminants mitjançant el procés d'oxidació avançada foto-Fenton solar, buscant alternatives que ho facen més eficient a un pH pròxim a la neutralitat. Aquest procés oxidatiu s'ha dut a terme a pH 5 mitjançant l'addició de substàncies tipus húmiques (STH) extragudes de diferents tipus de residus orgànics. Les STH s'han extret del residu de la producció de l'oli d'oliva, del residu del café i de lodes de depuradora deshidratats del reactor anaerobi d'EDAR. S¿han caracteritzat per diferents tècniques analítiques i s'han addicionat al procés foto-Fenton per a comprovar la seua eficàcia i eficiència en el mateix. En el cas de les STH provinents del residu de l'oliva s'han obtingut diferents temps de fermentació i diferents tamanys de fraccions. En l'ús de diferents temps de fermentació millors resultats de degradació s'observen en el cas de la mostra fermentada un mes, però, en qualsevol cas no son significatives les diferències, per el que no és necesari sotmetre al residu a cap temps de fermentació abans de l'extracció. Respecte al assatjos en els diferents tamanys de fraccions es determina que no es necessari la separació per membranes, ja que, les degradacions obtenides son molt similars independentment de l'ús d'una fracció o altra. S'ha comprovat l'efectivitat en diferents matrius d'aigua i la capacitat de les mateixes per a complexar el ferro mantenint-lo en disolució, en bons resultats en tots els casos estudiats. Complementàriament s'han realitzat assajos de toxicitat sobre diferents organismes per tal de comprovar la detoxificació de les mostres tractades. Els assatjos de toxicitat determinen que el compost clorfenvinfos és el més tòxic i que les mostres en presència de les STH són més tòxiques, a causa de la capacitat surfactant d'aquestes. El tractament d'una mescla de parabens en STH de diferent procedència milloren els resultats de degradació de contaminants quan es porta el procés a pH pròxim a la neutralitat. Es determina que les STH extragudes del residu del café quan s'adiciona al procés una quantitat extra de peròxid de hidrògen (doble de la quantitat estequiomètrica) milloren els resultats de degradació de contaminnats comparant en les STH obtingudes de l'oliva i del lodes de depuradora. Dels assatjos toxicològics realitzats i del de disrupció endocrina, es conclou que el tractamnet en una duració de t30w 30 minuts no és suficient per a detoxificar les mostres encara que, la degradació dels parabens es consegueix. Per lo que es considera prolongar el temps de tractament. Les STH procedents del lodes de depuradora s'han utilitzat per al llavat de contaminants quan es troben a concentracions elevades. S'han acoplat processos de membrana i procesos oxidatius. Es comproba que les STH poden atrapar contaminnats per la formació de micel-les, bloquejant el pas del contaminant a través de la membrana i sent més fàcil el posterior tractament per foto-Fenton del retentat obtingut. L'anàlisi realitzat per PARAFAC determina que existeix una interacció entre les STH i el contaminant. D'altra banda, s'ha estudiat el mecanisme de reacció de les STH i la seua capacitat per a generar espècies reactives en presència de Fe(II) i Fe(III), obtinguen una reacció més lenta encara que més estable al llarg del temps en el Fe(III). Les STH extragudes de diferents residus han resultat eficients per a la degradció de contaminants emergents quan es porta el procés foto-Fenton a pH 5 a causa de la seua capacitat per un costat de complexar el ferro mantenint-lo en dissolució i d'altra banda per la seua capacitat de genera espècies reactives durant el procés.[EN] In the present doctoral thesis, degradation of different pollutant mixtures using the advanced oxidation process called photo-Fenton has been studied, gaining further insight in how this process would take place at circumneutral pHs. Photo-Fenton was carried out at pH 5 by adding humic like substances (HLS) isolated from different organic residues. HLS have been isolated from olive mill wastes, coffee wastes and from wastewater treatment plant sludges. These HLS have been characterized by different analytical techniques and were added to photo-Fenton process to determine their efficacy and efficiency. In the use of HLS isolated from olive mill wastes, different fermentation times and different sizes were obtained. For the HLS from different fermentation times slightly better degradation results were obtained with one month fermentation time, however differences were insignificant to take it into account, and the conclusion of no need of residue fermentation was achieved. In the use of different sizes, the pollutant degradation kinetics were practically the same, concluding that the best option is to use a mixture of them all. Iron complexing ability were studied using different water matrixes with good results in all cases. Toxicity bioassays were carried out using different organisms to know which level of detoxification has achieved. Concluding that these HLS were able to act as iron complexing agents, and that chlorfenvinphos is the most toxic compound, and that water samples containing HLS seems to be more toxic at the end of the treatment time due to their surfactant capacity. A mixture of parabens was treated using different origin HLS at mild photo-Fenton process. HLS isolated from coffee were the most efficient when and extra amount of hydrogen peroxide were added (stoichiometric doble amount). The conclusion reached from toxicology bioassays and endocrine disruption is that the treatment time t30w 30 minutes is not enough to eliminated toxicity, even when the parabens removal was obtained. HLS from sludges were used for contaminant washing when pollutant concentration is high, fitting together membrane system and oxidative process. HLS formed micelles and can catch the pollutant inside, blocking the pass through the membrane. Thus, less volume is treated then by photo-Fenton making easier the process. PARAFAC analysis shows that exist an interaction between HLS and the pollutant. Finally, mechanism reaction between HLS with Fe(II) and Fe(III) and their capacity of generate reactive species were studies. Obtaining that in presence of Fe(III) the reaction is slower but the complex is most stable. HLS isolated from different residue types are useful when photo-Fenton process takes place at circumneutral conditions due to their ability to complex iron, remaining it in solution, and their ability to generate reactive species during the process. Is possible to eliminate emerging pollutants present in wastewaters by photo-Fenton process at mild pH conditions by adding these substances, adding value to the process, and promoting circular economy.Quiero agradecer al Ministerio de Economía, Industria y Competitividad la concesión de la beca FPI asociada a un proyecto del Plan Nacional de I+D+i (BES- 2016-077962) “Tecnologías eficientes para la eliminación de contaminantes de preocupación emergente, contenidos en Directiva 2013/39/CE o de riesgo significativo según Directiva 2008/105/CE” dentro del que se engloba el trabajo realizado en la presente tesis doctoral. Así como a la Unión Europea por la financiación para la realización de las estancias internacionales.García Negueroles, P. (2021). Empleo de sustancias tipo húmicas obtenidas a partir de diferentes residuos orgánicos en la eliminación de contaminantes emergentes [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/177595TESI

Enhancement of Iron-Based Photo-Driven Processes by the Presence of Catechol Moieties

Photo-induced Advanced Oxidation Processes (AOPs) using H2O2 or S2O82- as radical precursors were assessed for the abatement of six different contaminants of emerging concern (CECs). In order to increase the efficiency of these AOPs at a wider pH range, the catechol organic functional compound was studied as a potential assistant in photo-driven iron-based processes. Different salinity regimes were also studied (in terms of Cl- concentration), namely low salt water (1 g center dot L-1) or a salt-water (30 g center dot L-1) matrix. Results obtained revealed that the presence of catechol could efficiently assist the photo-Fenton system and partly promote the photo-induced S2O82- system, which was highly dependent on salinity. Regarding the behavior of individual CECs, the photo-Fenton reaction was able to enhance the degradation of all six CECs, meanwhile the S2O82--based process showed a moderate enhancement for acetaminophen, amoxicillin or clofibric acid. Finally, a response-surface methodology was employed to determine the effect of pH and catechol concentration on the different photo-driven processes. Catechol was removed during the degradation process. According to the results obtained, the presence of catechol in organic macromolecules can bring some advantages in water treatment for either freshwater (wastewater) or seawater (maritime or aquaculture industry)

Unveiling the Dependence between Hydroxyl Radical Generation and Performance of Fenton Systems with Complexed Iron

[EN] Humiclike substances (HLS) have been demonstrated to be useful auxiliaries to drive the (photo)-Fenton process at mild pH, by avoiding iron inactivation via formation of active complexes. However, the actual performance of the process is affected by a manifold of opposite processes. In this work, the generation of hydroxyl radical-like reactive species in the Fentonlike process has been investigated using electron paramagnetic resonance, employing 5,5-dimethyl-1-pyrroline-N-oxide as a probe molecule. The signal obtained with the Fe(II)-HLS-H2O2 system at pH = was very intense but decreased with time, in line with the difficult reduction of the formed Fe(III) to Fe(II). On the contrary, the signal of the Fe(III)-HLS-H2O2 system was weak but stable. The most intense signal was observed at HLS concentration of ca. 30 mg/L. Interestingly, the performance of the Fenton system at pH = 5 to degrade caffeine followed the same trends, although caffeine removal was very low after 1 h of irradiation. The results were more evident in a solar simulated photo-Fenton process, where an increase in the abatement of caffeine was observed until an HLS concentration of 30 mg/L, where 98% removal was reached after 1 h.The authors want to acknowledge the financial support from Ministerio de Ciencia, Innovacion y Universidades (RTI2018-097997-B-C31) and European Union (645551-RISE-2014, MAT4TREAT). P.G.-N. would like to thank Spanish Ministerio de Economia y Competitividad for her fellowship (BES-2016-077962).García-Negueroles, P.; García-Ballesteros, S.; Amat Payá, AM.; Laurenti, E.; Arqués Sanz, A.; Santos-Juanes Jordá, L. (2019). Unveiling the Dependence between Hydroxyl Radical Generation and Performance of Fenton Systems with Complexed Iron. ACS Omega. 4(26):21698-21703. https://doi.org/10.1021/acsomega.9b02241S216982170342

Use of Fluorescence Spectroscopy and Chemometrics to Visualise Fluoroquinolones Photodegradation Major Trends: A Confirmation Study with Mass Spectrometry

[EN] In this work, we employed EEM-PARAFAC (fluorescence excitation-emission matrices-parallel factor analysis) as a low-cost tool to study the oxidation pathways of (fluoro)quinolones. Amounts of 12.5 ¿M of enrofloxacin (ENR), ciprofloxacin (CIP), ofloxacin (OFL), oxolinic acid (OA), and flumequine (FLU), as individual solutions, were irradiated under UVA light. A 5-component PARAFAC model was obtained, four of them related to the parent pollutants, named as ENR-like (including CIP), OFL-like, OA-like, and FLU-like, and an additional one related to photoproducts, called ENRox-like (with an emission red-shift with respect to the ENR-like component). Mass spectrometry was employed to correlate the five PARAFAC components with their plausible molecular structures. Results indicated that photoproducts presenting: (i) hydroxylation or alkyl cleavages exhibited fingerprints analogous to those of the parent pollutants; (ii) defluorination and hydroxylation emitted within the ENRox-like region; (iii) the aforementioned changes plus piperazine ring cleavage emitted within the OA-like region. Afterwards, the five antibiotics were mixed in a single solution (each at a concentration of 0.25 ¿M) in seawater, PARAFAC being also able to deconvolute the fingerprint of humic-like substances. This approach could be a potential game changer in the analysis of (fluorescent) contaminants of emerging concern removals in complex matrices, giving rapid visual insights into the degradation pathways.This work is part of a project that received funding from the European Union's Horizon 2020 research and innovation programme under the Marie Sklodowska-Curie grant agreement No. 765860 (AQUAlity). The paper reflects only the authors' view and the Agency is not responsible for any use that may be made of the information it contains. The authors also wish to thank the Spanish Ministry of Science and Innovation (MCI) for funding under the AquaEnAgri Project (Reference: PID2021-126400OB-C31). Further thanks goes to the Water JPI-Biodiversa COFUND Program for funding the BIORESET project and supporting the research of the scientist Laura Ferrando Climent.Sciscenko, IM.; García-Negueroles, P.; Amat Payá, AM.; Oller, I.; Escudero-Oñate, C.; Ferrando-Climent, L.; Arqués Sanz, A. (2023). Use of Fluorescence Spectroscopy and Chemometrics to Visualise Fluoroquinolones Photodegradation Major Trends: A Confirmation Study with Mass Spectrometry. Molecules. 28(2). https://doi.org/10.3390/molecules2802077728

Humic like substances extracted from oil mill wastes in photo-Fenton processes: Characterization, performance and toxicity assesment

[EN] Olive mill waste has been used as sourcing materials for the isolation of humic like substances (OMW-HLS) which have demonstrated its capacity to expand the range of applicability of photo-Fenton process to pH= 5. During the isolation process, membranes of three different pore sizes (300 kDa, 150 kDa and 50 kDa) were employed in order to obtain three batches of OMW-HLS. Four pollutants contained in 2013/39/EC were used as target substances: terbutryn (TBT), diclofenac (DCF), chlorfenvinphos (CVF) and pentachlorophenol (PCP). Results showed that OMW-HLS was able to enhance photo-Fenton at pH = 5, but differences were not significant, either among fractions or with commercial humic substances. Reactions were scaled-up and driven under real sunlight and pollutants removal was faster in the presence of OMW-HLS. Toxicity was monitored according to bioassays based on different organisms or cell lines. Detoxification was observed with and without OMW-HLS, although higher toxicity was detected in the presence of humic acids, most probably due to the surfactant effect, that allows a better contact between pollutant and organism.The authors thank the financial support of the European Union H2020 (2018-2022) (Ref. 776816) Proyect O, and Spanish Ministerio de Ciencia, Innovacion y Universidad (RTI 2018-097997-B-C31) . Paula Garcia Negueroles thanks Spanish Ministerio de Ciencia, Innovacion y Universidades for providing their fellowships BES-2016-0777962.García-Negueroles, P.; García-Ballesteros, S.; Santos-Juanes Jordá, L.; Sabater Marco, C.; Castillo López, M.; López Pérez, MF.; Vicente Candela, R.... (2021). Humic like substances extracted from oil mill wastes in photo-Fenton processes: Characterization, performance and toxicity assesment. Journal of Environmental Chemical Engineering. 9(6):1-8. https://doi.org/10.1016/j.jece.2021.106862189

Treatment and reuse of textile wastewaters by mild solar photo-Fenton in the presence of humic-like substances

The final publication is available at Springer via http://dx.doi.org/10.1007/s11356-016-7889-1In this paper, the possibility of reusing textile effluents for new dyeing baths has been investigated. For this purpose, different trichromies using Direct Red 80, Direct Blue 106, and Direct Yellow 98 on cotton have been used. Effluents have been treated by means of a photo-Fenton process at pH 5. Addition of humic-like substances isolated form urban wastes is necessary in order to prevent iron deactivation because of the formation of non-active iron hydroxides. Laboratory-scale experiments carried out with synthetic effluents show that comparable results were obtained when using as solvent water treated by photo-Fenton with SBO and fresh deionized water. Experiments were scaled up to pilot plant illuminated under sunlight, using in this case a real textile effluent. Decoloration of the effluent could be achieved after moderate irradiation and cotton dyed with this water presented similar characteristics as when deionized water was used.This work was realized with the financial support of a Marie Sklodowska-Curie Research and Innovation Staff Exchange project funded by the European Commission H2020-MSCA-RISE-2014 within the framework of the research project Mat4treaT (project number 645551). Financial support from Spanish Government (CTQ2015-69832-C4-4-R) is gratefully acknowledged. The authors acknowledge the financial support of the Generalitat Valenciana, Conselleria d’Educació, Cultura i Esport (GV/AICO/2015/124) and CTQ2015-69832-C4-4-R.García-Negueroles, P.; Bou-Belda, E.; Santos-Juanes Jordá, L.; Amat Payá, AM.; Arques Sanz, A.; Vercher Pérez, RF.; Monllor Pérez, P.... (2017). Treatment and reuse of textile wastewaters by mild solar photo-Fenton in the presence of humic-like substances. 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Humic-Like Substances as Auxiliaries to Enhance Advanced Oxidation Processes

The authors are thankful for the funding from the Spanish Ministry of Science and Innovation (project CALYPSOL RTI2018-097997-B-C31). Sara Garcia Ballesteros wants to thank the Valencian Government for her postdoctoral fellowship (APOST-2019)García-Ballesteros, S.; García-Negueroles, P.; Amat Payá, AM.; Arqués Sanz, A. (2022). Humic-Like Substances as Auxiliaries to Enhance Advanced Oxidation Processes. ACS Omega. 7(4):3151-3157. https://doi.org/10.1021/acsomega.1c05445S315131577

Use of Fluorescence Spectroscopy and Chemometrics to Visualise Fluoroquinolones Photodegradation Major Trends: A Confirmation Study with Mass Spectrometry

In this work, we employed EEM-PARAFAC (fluorescence excitation-emission matrices-parallel factor analysis) as a low-cost tool to study the oxidation pathways of (fluoro)quinolones. Amounts of 12.5 μM of enrofloxacin (ENR), ciprofloxacin (CIP), ofloxacin (OFL), oxolinic acid (OA), and flumequine (FLU), as individual solutions, were irradiated under UVA light. A 5-component PARAFAC model was obtained, four of them related to the parent pollutants, named as ENR-like (including CIP), OFL-like, OA-like, and FLU-like, and an additional one related to photoproducts, called ENRox-like (with an emission red-shift with respect to the ENR-like component). Mass spectrometry was employed to correlate the five PARAFAC components with their plausible molecular structures. Results indicated that photoproducts presenting: (i) hydroxylation or alkyl cleavages exhibited fingerprints analogous to those of the parent pollutants; (ii) defluorination and hydroxylation emitted within the ENRox-like region; (iii) the aforementioned changes plus piperazine ring cleavage emitted within the OA-like region. Afterwards, the five antibiotics were mixed in a single solution (each at a concentration of 0.25 μM) in seawater, PARAFAC being also able to deconvolute the fingerprint of humic-like substances. This approach could be a potential game changer in the analysis of (fluorescent) contaminants of emerging concern removals in complex matrices, giving rapid visual insights into the degradation pathways