Global ETD Search

71	PCBs e DDTs em grânulos de plástico depositados em praias do litoral paulista / PCBs and DDTs in plastic pellets from São Paulo coast, Brazil Vaitsa Maciel Haratsaris 29 March 2018 (has links) Os grânulos de plástico (\"pellets\") no oceano podem adsorver diversas substâncias hidrofóbicas como os poluentes orgânicos persistentes (POPs). Neste trabalho foi avaliada a ocorrência de bifenilos policlorados (PCBs) e diclorodifeniltricloroetano (DDTs) em \"pellets\" coletados em 37 praias de 13 municípios ao longo do litoral paulista, sudeste do Brasil. Os POPs foram extraídos com solventes orgânicos e quantificados por cromatografia em fase gasosa com detecção por captura de elétrons (CG-DCE) e espectrometria de massas (CG/EM). A deposição dos \"pellets\" e a concentração dos PCBs (1,3 - 5.112 ng g-1) e DDTs (14,1 - 1.214 ng g-1) foi maior na Baixada Santista, onde se localiza o maior complexo industrial do país e o maior porto da América Latina, seguido do litoral norte não industrializado e o litoral sul com atividade pesqueira. Os dados de POPs em \"pellets\" deste estudo foram comparados aos publicados anteriormente utilizando grânulos com vários graus de descoloração da mesma área e aos resultados do International Pellet Watch (grânulos amarelados) apresentando concentrações similares e contribuíram para acompanhar o \"status\" de contaminação por POPs na costa do Estado de São Paulo. / Pellets in the ocean can adsorb various hydrophobic substances such as persistent organic pollutants (POPs).This study evaluated the occurrence of polychlorinated biphenyls (PCBs) and dichloro-diphenyltrichloroethane (DDT) adsorbed on plastic pellets. The pellets were collected in 37 beaches of 13 cities, along the São Paulo coast, southern Brazil. The POPs were extracted with organic solvents and quantified by gas chromatograph equipped with electron capture detector (GC-ECD) and mass spectrometer (GC/MS). The deposition of \"pellets\" and the concentration of PCBs (1.3-5,112 ng g-1) and DDTs (14.1 - 1,214 ng g-1) were greater in the Santos Bay, where the largest industrial complex in the country and the largest port in Latin America are located; followed by the non-industrialized north coast and the south coast presenting fishing activity. The POPs data was compared to those previously published using granules with a mixture of several degrees of discoloration from the same area and the results from International Pellet Watch (yellowing pellets). The results indicated concentrations and contributed to monitoring POPs contamination status on the coast of the State of São Paulo. Brasil costa de São Paulo microplástico Poluentes orgânicos persistentes \"pellets\" "pellets" Brazil microplastics Persistents organic pollutants Sao Paulo coast
72	Grânulos plásticos em praias arenosas: avaliação de um método amostral quantitativo e da contaminação química / Plastic pellets in sandy beaches: evaluation of a quantitative sampling method and the chemical contamination Mara Fisner Cesar 11 December 2012 (has links) Os grânulos plásticos são encontrados no ambiente marinho e, em função de suas características podem concentrar e transportar poluentes orgânicos. A Enseada de Santos representa um polo de grande importância econômica para o estado de São Paulo, devido à existência do Porto de Santos e do complexo industrial de Cubatão nos seus arredores. Essa região foi escolhida para o desenvolvimento deste estudo por possuir uma grande quantidade de grânulos na superfície arenosa de suas praias. O presente estudo teve como objetivos: (1) avaliar uma proposta metodológica para a coleta de grânulos plásticos, baseada no uso de transectos perpendiculares à linha da água compostos por escavações (amostragens) equidistantes; e (2) analisar a concentração, composição e fontes de contaminação de hidrocarbonetos policíclicos aromáticos (HPAs) nos grânulos coletados em praias arenosas, considerando diferentes escalas espaciais e a influência do tipo de resina que os grânulos são produzidos, bem como o tempo de exposição destes no ambiente. O resultado da avaliação da proposta metodológica determinou o diâmetro do trado que fornece a melhor combinação entre tempo e volume de sedimento coletado, além da confirmação da profundidade de maior ocorrência dos grânulos na coluna sedimentar, bem como a constatação de que transectos tornam-se inviáveis para este procedimento. É sugerido, então, o desenvolvimento de estudos futuros a fim de encontrar o melhor desenho amostral, uma vez que não foi eficaz a realização de transectos, para a amostragem de grânulos plásticos em profundidade. De acordo com os resultados das análises, a concentração e composição de HPAs nos grânulos plásticos variaram de forma expressiva entre os pontos amostrais em uma mesma praia, de forma que, para a obtenção da real variabilidade de poluentes em uma praia, são necessárias coletas em diversos pontos amostrais, a fim de evitar uma equivocada extrapolação dos resultados. As análises dos grânulos coletados em diferentes profundidades no sedimento arenoso indicam resultados semelhantes, com uma alta variabilidade na composição e concentração de HPAs. Entre as resinas, houve diferença na concentração de HPAs (polietileno > polipropileno) e no tempo de exposição, com maiores concentrações nos grânulos mais escuros, ou seja, mais tempo expostos no ambiente. A contaminação na área de coleta é oriunda da mistura de compostos provenientes de fontes petrogênicas e pirolíticas e as análises da potencial toxicidade dos HPAs em grânulos, em geral, indicam um risco iminente aos organismos. São necessários, no entanto, estudos complementares também para a investigação da possibilidade de bioacumulação dos poluentes em organismos. / Plastic pellets are easily found in marine environment and due to its characteristics they may concentrate and bring organic pollutants. Santos bay represents a major economic center for the state of São Paulo because of Santos Port and the Cubatão industrial complex in its surroundings. This place was chosen for the development of the study for the great number of pellets found in the sandy surface of its beaches. This study aimed at (1) evaluating a sampling methodology for plastic pellets based on the use of transects perpendicular to the seawater line and made by diggings equally distant from one another (samplings). It also aimed at (2) analyzing the concentration, composition and sources of polycyclic aromatic hydrocarbons (PAH) contamination on the pellets sampled on sandy beaches, considering different spatial scales and resin kinds which the plastic pellets were made from as well as their exposure time in the environment. As a result of the evaluation of sampling methodology the sampler diameter was defined which provides the best combination between the time and the volume of sampled sediment. Apart from that the depth of the major occurrence of plastic pellets in the sedimentary column was confirmed and it was established that transects are impracticable for this kind of procedure. The development of future studies in order to figure out the best sample design is suggested once the use of transects was not efficient for plastic pellets sampling in depth. According to analyses results the PAHs concentration and composition on the plastic pellets vary largely among sampling sites on the same beach. In order to obtain real pollutant variability on one beach, samples taken from different sampling sites are necessary to avoid a wrong over sizing of results. The plastic pellets analyses taken from different depths in sandy sediment showed similar results to those from the surface with a high variability in PAH concentration and composition. Among the resins there was a difference on PAH concentration (polyethylene > polypropylene) and exposure time, showing larger concentrations on darker pellets, that is longer exposed in the environment. The contamination in the studied area comes from the mixture of compounds from petrogenic and pyrolitic sources and the PAHs potential toxicity in plastic pellets analyses generally reflect an imminent risk to organisms. Complementary studies are also necessary to investigate the possibility of pollutant bioaccumulation in organisms. contaminação Enseada de Santos. grânulos plásticos microplásticos poluentes orgânicos praias arenosas contamination microplastics organic pollutants plastic pellets polycyclic aromatic hydrocarbon sandy beaches Santos Bay
73	A comparison between the effects of polylactic acid and polystyrene microplastics on Daphnia magna Puranen Vasilakis, Mikaela January 2017 (has links) The effects of microplastics on zooplankton are an increasing environmental concern. Both primary microplastics that are produced as constituents of cosmetic products, as well as secondary microplastics that are formed by degradation of larger plastic debris, are ubiquitous in aquatic environments. Today, primary microplastics are being phased out and replaced by plant-derived bioplastics. Whether these new materials have similar effects as oil-based microplastics on animals is currently unknown. Here, we compare the effects of secondary microplastic exposure to Daphnia magna, using polylactic acid (PLA) as a representative for bioplastics and polystyrene (PS) for oil-based plastics. To increase the ecological relevance of our tests, we also provided treatments where the particles were coated with bovine serum albumin (BSA) as a means to simulate the coating of biofilms which readily form on particles under natural conditions. Furthermore, to be able to differentiate the effects of general particles from those specific to microplastics, kaolin clay was used as a control treatments, as well as one treatment containing only algae. The objectives were to test the influence of particles on feeding rates, reproduction and growth. PS caused a higher mortality, decreased feeding rate and reproductive output, while PLA and kaolin did not produce any negative effects. BSA did not have a significant effect on reproduction or growth. However, a decrease in reproduction was observed in the plastic treatments. Degradation of PS into styrene monomers is suggested as a possible explanation for the observed toxicity and effects on life history parameters. Microplastics daphnia magna bioplastics feeding rate reproduction Mikroplast daphnia magna bioplast födoupptag reproduktion Ecology Ekologi Environmental Sciences Miljövetenskap Analytical Chemistry Analytisk kemi
74	Fragmentations chimique et physique de plastiques et microplastiques en eau douce sous irradiation UV-visible / Chemical and physical fragmentations of plastics and microplastics in freshwater under UV-visible irradiation Bissagou Koumba, Gaelle 26 January 2018 (has links) La question des détritus marins de plastique et de leur impact sur l'environnement prend de l’ampleur. Il a été démontré que 80% des plastiques sont issus de sources terrestres, tandis que 20% viennent des côtes et mers. De nombreux auteurs soulignent un problème environnemental sérieux lié à l'absorption de POP (Polluants Organiques Persistants) par les débris plastiques, initiant ainsi une source potentielle de contamination de la chaîne alimentaire. Tous les auteurs attribuent la fragmentation en « microplastiques » (taille < 5mm) à des phénomènes liés à la dégradation, en particulier sous UV sans l’avoir jamais réellement ni démontré ni analysé. Les rivières constituant alors un vecteur privilégié de transport des déchets terrestres vers les mers et océans, nous avons décidé de mettre en évidence (et de quantifier) la présence de microplastiques dans une rivière réputée « sauvage » comme l’Allier. Au laboratoire, nous mettons au point des protocoles de simulation de la fragmentation des plastiques sous irradiations UV de différentes matières plastiques dans l'eau (douce). Nous analysons aussi bien les molécules chimiques issues de la dégradation des plastiques et transférées dans le milieu aqueux que les modifications moléculaires que peut subir le matériau. / The question of marine litter and their environmental impact gains importance. It was shown that 80% of plastics results from terrestrial sources, while 20% come from coastlines and seas. Many authors point to a serious environmental problem involved to the absorption of POPs (persistent organic pollutants) by plastic detritus, thus initiating a potential source of contamination of the food chain. All authors attribute the fragmentation to "microplastic" (size < 5mm) to phenomena related to degradation, under UV without ever having demonstrated or analysed it. The rivers constituting then a privileged vector of transport of the terrestrial waste towards the seas and oceans, we decided to highlight (and quantify) the presence of microplastics in a river known as "wild" as the Allier. At the laboratory, we develop simulation protocols for the fragmentation of plastics under UV irradiation of various plastic materials in fresh water. We analyse both the chemical molecules resulting from the degradation of plastics and transferred to the aqueous medium as well as the molecular changes that can undergo the material. Photodégradation Polymères Microplastiques Polluants Organiques Persistants Chromatographie liquide Chromatographie ionique Rhéologie Photodegradation Polymers Microplastics Persistent Organic Pollutants Liquid chromatography Ionic chromatography Rheology
75	Les microplastiques : une menace en rade de Brest ? / Microplastics : a threat for the bay of Brest ? Frère, Laura 13 June 2017 (has links) Depuis plusieurs décennies la production mondiale de plastiques ne cesse d’augmenter, menant à une contamination des écosystèmes aquatiques à l’échelle de la planète qui a été récemment estimée à plus de cinq mille milliards de débris de plastiques flottants à la surface des océans. Les microplastiques (particules de plastique < 5 mm), introduits dans l’environnement aquatique directement en tant que microparticules (granulés plastiques industriels, cosmétiques, fibres textiles) ou lors de la fragmentation de plus gros débris plastiques, représentent une préoccupation scientifique et sociétale grandissante. Ces travaux de thèse se sont focalisés sur la contamination par les microplastiques de la rade de Brest (Bretagne, France), un système côtier macrotidal où l’activité anthropique est importante. Les objectifs de ces travaux sont (1) d’évaluer la contamination des matrices environnementales (eau de surface, sédiment subtidal et biote) par les microplastiques, et (2) d’identifier leur rôle potentiel en tant que vecteurs de contaminants chimiques et de bactéries dans la rade de Brest.Pour cela, des développements analytiques ont été nécessaires afin d’améliorer leur extraction des matrices environnementales ainsi que leur caractérisation morphologique et chimique via la microspectrométrie Raman. Les observations in situ ont montré que l’ensemble de l’écosystème de la rade de Brest est contaminé par les microplastiques, avec des concentrations de 0,24 ± 0,35, et 0,97 ± 2,08 (moyenne ± écart-type). L’eau de surface et le sédiment sont contaminés par le polyéthylène, le polypropylène et le polystyrène. Leur distribution à la surface de l’eau semble être liée à l’urbanisation très présente au nord de la rade, mais également à l’hydrodynamisme de cette région marine. Les premiers résultats concernant les bivalves marins ont montré un niveau relativement faible de contamination par les microplastiques (0,01 ± 0,04 et 0,08 ± 0,34 pour les moules et les coques, respectivement), cependant cela est probablement dû aux choix méthodologiques appliqués ici (exclusion des fibres). Les observations in situ ont montré que certains polluants organiques (HAP, PCB et pesticides) étaient détectés sur les microplastiques flottants à des valeurs (non détecté – 49763 ng.g-1, moyenne ± écart-type) similaires de celles retrouvées dans les sédiments et les bivalves locaux, ce qui suggère un risque faible dans le transfert des contaminants chimiques vers les organismes marins en cas d’ingestion. Enfin, les résultats concernant la colonisation bactérienne des microplastiques flottants ont montré des communautés distinctes de celles retrouvées dans l’eau de mer environnante, et l’identification du genre Vibrio en tant que biomarqueur discriminant de cette matrice. Dans l’ensemble, ces travaux fournissent une première évaluation approfondie de l’état de contamination de la rade de Brest par les microplastiques ainsi que de solides recommandations méthodologiques pour des travaux futurs. / World production of plastics has increased steadily for the past decades leading to a major contamination of the worldwide aquatic ecosystems recently estimated at more than five trillion plastic pieces floating the surface of the oceans. Microplastics (plastic particles < 5 mm) are introduced into aquatic environments directly as industrial raw material (plastic pellets, cosmetics, clothing) or indirectly via the fragmentation of larger plastics. This emerging contaminant represents an increasing ecological concern for science and society. The present study focused on the microplastic contamination of the Bay of Brest (Brittany, France), a macrotidal coastal ecosystem characterized by intense anthropogenic activity. The main objectives were: (1) to evaluate the contamination of environmental matrices (surface water, subtidal sediment and biota) by microplastics, and (2) to identify their potential role as vector of chemicals and bacteria in the bay of Brest.Methodological developments were first conducted to improve microplastic extraction from environmental matrices as well as their rapid morphological and chemical identification by Raman micro-spectrometry. The field investigations showed that the ecosystem of the bay of Brest is contaminated by microplastics with mean concentrations of 0.24 ± 0.35, and 0.97 ± 2.08 (mean ± standard deviation) in surface water and sediment, respectively. Microplastic contamination in surface water and sediment was dominated by polyethylene, polypropylene and polystyrene microparticles.Spatial microplastic distribution appeared to be related to proximity to urbanized areas and to hydrodynamic in the bay. Preliminarily results of microplastic contamination in marine bivalves demonstrated relatively low contamination (0.01 ± 0.04, and 0.08 ± 0.34 for mussels and cockles, respectively) by microplastics (mainly polyethylene and polypropylene fragments), however this could be partly related to the methodological limitation identified here (e.g. exclusion of fibers). Organic pollutant (PAH, PCB and pesticides) were detected on floating microplastics at levels (not detected – 49,763 ng g-1, mean ± SD) similar to those measured in sediment and bivalves suggesting low risks in transferring hazardous chemicals in local marine organisms upon microplastic ingestion. Finally, distinct bacterial community assemblages were demonstrated on microplastics as compared with surrounding surface water; the Vibrio genus was identified as a discriminant biomarker of the plastic matrix. Overall, this work provides a first and thorough assessment of the microplastic contamination in the bay of Brest and solid methodological recommendations for further work. Microplastiques Micro-spectroscopie Raman Matrices environnementales Rade de Brest Polluant organique Communautés bactériennes Microplastics Micro-spectroscopy Raman Environmental matrices Bay of Brest Organic pollutant Bacterial communities 577.727
76	Vývoj metody pro semikvantitativní stanovení mikroplastů v půdách metodou TGA-MS / The development of a TGA-MS based method for determination of microplastics in soils Šilhánková, Lenka January 2018 (has links) Plasty, pronikající do životního prostředí ať už neúmyslně či záměrně, mohou být fragmentovány za vzniku částic v řádu mikrometrů (tzv. mikroplastů) a znečišťovat tak půdní systémy. Doposud vyvinuté analýzy pro stanovení mikroplastů v půdách jsou především zaměřeny na kvalitativní stanovení, nicméně i jejich provedení se zatím stále potýká s různými úskalími. Navíc, téměř všechny tyto analýzy vyžadují časově náročnou předúpravu vzorku. V této studii jsme se zaměřili na vývoj nové analytické metody pro kvantitativní stanovení mikroplastů polyvinylchloridu (PVC) a polystyrenu (PS) v půdách bez předchozí úpravy vzorku pomocí termogravimetrické analýzy spojené s hmotnostní spektrometrií (TGA-MS). Pro analýzu byly použity vzorky modelové půdy s nízkým obsahem organického uhlíku, které byly spikovány na výslednou koncentraci 0,23–7 hm% PVC či PS. Vzorky byly pyrolyzovány s teplotním krokem 5 K min–1 až na teplotu 1000 °C. Pyrolýzní plynné produkty byly následně analyzovány s využitím hmotnostního spektrometru. Získaná data byla normalizována pomocí externího standardu (šťavelan vápenatý). Limity detekce se pohybovaly v rozmezí 0,08–5,3 hm% pro PVC a 0,005–0,7 hm% pro PS v závislosti na zvoleném m/z. Limity kvantifikace pak byly 0,3–17,7 hm% pro PVC a 0,002–2,2 hm% pro PS. Výsledky dokazují, že spojení TGA-MS může být konkurující semikvantitativní metodou pro stanovení mikro-PVC a mikro-PS v půdě s nízkým obsahem organického uhlíku.
77	Odstraňování mikroplastů z vody / Microplastics removing from water Ermis, Martin January 2021 (has links) This thesis deals with the occurrence of microplastics in water, the reasons for their potential elimination, and the possibilities leading to that. More specifically, it focuses on flotation as a process for removing microplastics from water. Flotation is further described from a theoretical point of view and its mathematical model is developed. The wettability of selected polymers is measured. The experiment performed to determine the efficiency of flotation as a process of treating water from microplastics is described. This efficiency is further compared to measured wettability.
78	Identify synthetic polymers used in cosmetics and further test their biodegradation in aqueous setup in order to assess their impact on the environment / Identifiering av syntetiska polymerer i kosmetiska produkter och undersökning av miljöpåverkan genom analys av bionedbrytbarhet Ayan, Hilal January 2017 (has links) Plastics have a wide application field, where cosmetic products are one of them. Polymers which are building blocks to plastics exists in many variants, overall they can be categorized into two groups; microplastics and water soluble polymers. Both polymer types are important to study and understand since polymers in general are not covered by any legislation. To gain a more profound understanding of their impact on environment this study was conducted. In collaboration with SSNC (Naturskyddsföreningen), a database containing hundreds cosmetic products was processed. The most occurring polymers were quantified and prevalent ingredients having “poly” in their name were selected for further investigation namely Nylon 12-20 (microplast) and Acrylates C/10-30 Alkyl-crosspolymer (water soluble). A standardized analysis method OECD 301 F was performed to test the polymers biodegrading ability. Results from biodegradation method showed that, neither of the two polymers is readily biodegradable in aqueous environment, despite their different properties. In connection with the obtained results, a filtration analysis was performed, with the purpose to determine the possibility to capture the polymers using microfilters. Results mainly showed flowthrough of both polymers. Relating the results to reality implies that these polymers are not captured in waste water treatment plant due to inefficient filtration and thereby spread to the environment. In addition more research should be devoted to water-soluble polymers and their impact on nature. Based on all compiled results, it is proposed that legislation addressing microplastics should be edited and revised in such a way that water soluble polymers are included in future prohibitions (against microplastics). / Plast har många användningsområden varav kosmetiska produkter är ett av dem. I kosmetika används exempelvis naturliga ämnen, sådana som förekommer i naturen och således kan brytas ned. Sedan finns syntetiska polymerer, sådana som syntetiseras och tillverkas av människor. Det finns oerhört många varianter av syntetiska polymerer som används inom kosmetika, generellt kan de kategoriseras i två grupper; mikroplaster och vattenlösliga polymerer. Med hjälp av Naturskyddsföreningens databas som innehåller hundratals kosmetikaingredienser, söktes de komponenter som hade ”poly” i sitt namn eftersom de inte täcks av lagstiftning. Bland dessa, valdes två mest förekommande polymerer för att studeras vidare, nämligen Nylon 12-20 (mikroplast) och Acrylates C/10-30 alkyl crosspolymer (vattenlöslig). En standardiserad analysmetod OECD 301 F tillämpades för att testa deras biologiska nedbrytbarhet. Resultatet från nedbrytbarhetstestet visade att ingen av polymertyperna, trots deras åtskiljande egenskaper, är lättnedbrytbar i vattenmiljöer. I följd av resultatet från analysen genomfördes en filtreringsanalys på KTH, för att avgöra om respektive polymer går att fånga upp i olika storlekar av mikrofilter. Resultatet visade att ingen av dem fångades upp (med den utrustning som var tillgänglig på KTH). Baserat på resultaten föreslås det att lagstiftningar som innefattar mikroplaster bör redigeras och revideras på ett sådant sätt att vattenlösliga polymerer är inkluderade i framtida förbud (mot mikroplaster). Utöver detta bör mer forskning ägnas åt vattenlösliga polymerer och deras påverkan på naturen. biodegradation cosmetics environment microplastics OECD polymer REACH water biologisk nedbrytbarhet kosmetika miljö mikroplast OECD polymer REACH vatten Industrial Biotechnology Industriell bioteknik
79	BACTERIAL COLONIZATION OF MICROPLASTICS IN FRESHWATER Hossain, Mohammed Rumman January 2022 (has links) No description available. Microbiology Materials Science Molecular Biology Plastics
80	Novel Microplastics Remediation Strategy Using High-Voltage Atmospheric Cold Plasma Juan Velasquez (15353575) 27 April 2023 (has links) <p> </p> <p>Plastics are the most common polymers used in various industries. However, million tons of plastics are produced and disposed every year around the world, and part of them end up entering the environment and agricultural ecosystems in the form of microplastics. Microplastics have become an environmental and health threat to aquatic species and humans because they are small and can easily reach water bodies for municipal and agricultural uses. Microplastics have been traced in food commodities and products derived from animals and even found in bottles of drinking water. As an approach to permanently remediating microplastics, current microplastic degradation techniques, however, require high energy inputs and thus are generally not cost-efficient. High-voltage atmospheric cold plasma (HVACP) is a low-cost energy-efficient technology to produce highly reactive species that can induce physicochemical changes in polymers. This study, for the first time, used HVACP as a novel remediation strategy for microplastics. HVACP was generated by dielectric barrier discharge at 50 kV using oxygen, nitrogen, or their mixture as working gas. Two types of microplastics, polypropylene (PP) and low-density polyethylene (LDPE), were treated for 30 min, and the effect of 24-h post-treatment was also studied. The properties of HVACP-treated microplastics, including weight, particle size, crystallinity, melting point, carbonyl index (CI), and surface morphology, were comprehensively analyzed. HVACP treatments were found effective in degrading both PP and LDPE microplastics. A larger extent of degradation was observed with PP microplastics treated by O/N mixture plasma, but the nitrogen plasma-treated sample showed a higher degree of oxidation according to its CI. For PE microplastics, oxygen plasma caused more degradation, but post-treatment did not promote further oxidation. The results indicated two potential mechanisms for microplastic degradation by HVACP. LDPE microplastics were degraded by oxidative reactions caused by highly reactive oxygen species, and PP microplastics followed a hydrolytic pathway of degradation as they became more hydrophilic after HVACP treatment. This study proved that HVACP is a promising method for microplastic degradation, and thus has great potential for addressing the severe challenges of microplastics that the food and agriculture sectors are currently facing.</p> Food sustainability Food engineering Environmentally sustainable engineering Microplastics Cold Plasma Degradation High Voltage Atmospheric Cold Plasma

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