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Artykuły w czasopismach na temat "Matières plastiques – Environnement"
Rasoatahinjanahary, Harivola, Fanilo Joseph RANDRIAMAMONJY, Roger RANDRIANJA i Michel Dieudonné RANARIVELO. "Fabrication De Pavés Perméables A L’Eau A Base Des Déchets De PET". International Journal of Progressive Sciences and Technologies 40, nr 1 (27.08.2023): 208. http://dx.doi.org/10.52155/ijpsat.v40.1.5142.
Pełny tekst źródłaRozprawy doktorskie na temat "Matières plastiques – Environnement"
Jacob-Vaillancourt, Colin. "Caractérisation avancée et valorisation des plastiques mélangés postconsommation : étude de cas chez Gaudreau Environnement inc". Master's thesis, Université Laval, 2018. http://hdl.handle.net/20.500.11794/28305.
Pełny tekst źródłaLes plus récents estimés indiquent que seulement 32% des plastiques post-consommation (emballages, sacs et contenants) sont récupérés par la collecte sélective des matières recyclables au Québec, et une quantité probablement encore moindre est réellement recyclée. Pourtant, le recyclage a été identifié comme une des stratégies clés permettant la mise en place d’une véritable économie circulaire des plastiques. Présentement, un manque de données précises et transférables entre les acteurs de la chaîne de valeurs rend plus difficile l’application de mesures efficaces pour augmenter la qualité des plastiques voués au recyclage thermomécanique. De plus, il existe peu de solutions de recyclage pour les flux de plastiques fortement hétérogènes, alors que la diversité des emballages disponibles sur le marché est sans cesse croissante. Ce travail de recherche avait pour objectif d’étudier la qualité des plastiques mélangés en provenance du centre de tri de Gaudreau Environnement Inc., et de développer une technologie de recyclage applicable aux flux hétérogènes de plastiques. Une caractérisation combinant des équipements industriels et des analyses de laboratoire a permis de dégager un taux de qualité correspondant à la concentration réelle d’un polymère visé dans un échantillon trié par séparateur optique. De plus, la caractérisation des contaminants a démontré que les plastiques faits de polystyrène et de polyvinyle chloré sont sujets à de grandes variations de qualité. Une méthode de recyclage de ces plastiques est proposée ici, soit l’utilisation d’agrégats de plastiques recyclés comme substituts au sable pour des mélanges expérimentaux de béton. Le plastique a généré des bétons ayant une plus grande ténacité élastique et une résistance thermique plus élevée que le béton conventionnel. Cette technique de recyclage a semblé convenir aux flux hétérogènes de plastiques, notamment lorsque plusieurs types de polymères sont présents, car les critères de qualité diffèrent de ceux employés pour évaluer les plastiques voués au recyclage thermomécanique conventionnel.
According to recent estimates, only 32% of all postconsumer plastics are collected by curbside collection programs in the province of Quebec (CANADA), and an even smaller amount may be actually recycled into new products. Recycling has nonetheless been identified as one of the key strategies needed to enable a transition to a fully circular economy for plastics. At this time, a lack of precise data, transferable between all stakeholders of the plastics value chain, prevents the implementation of efficient measures to upgrade the quality of plastics channelled towards thermomechanical recycling. Also, very few recycling techniques are designed for heterogeneous plastic streams, while an increasingly varied array of plastic packaging is found on the consumer market. This research aimed to study the quality of a mixed plastics stream produced by Gaudreau Environnement Inc.’s material recovery facility, and develop a recycling technique able to process an heterogeneous plastic stream. A combination of industrial machineries and laboratory analyses was used to characterize the quality of the mixed plastics, and a quality index was generated to estimate the concentration of a targeted polymer in a sorted plastic stream. A characterization of contaminants showed that polystyrene and polyvinyl chloride streams experienced more variation in terms of quality for recycling. A potential valorization route was investigated, where recycled plastic aggregates were substituted to sand in experimental concrete blends. Plastic aggregates helped confer greater elastic toughness and a higher thermal resistance to concrete. Plastic aggregates with a high bulk density, such as those derived from PVC, generated concretes with the best mechanical performances. This recycling technique seems promising for heterogeneous plastic streams, particularly when several polymers are present, since its quality parameters differ from conventional thermomechanical recycling.
Kedzierski, Mikaël. "Pollutions du milieu littoral par les microplastiques : Méthodes d’évaluation". Electronic Thesis or Diss., Lorient, 2017. http://www.theses.fr/2017LORIS464.
Pełny tekst źródłaPlastics are technical materials necessary for industrialized societies. However, in the early 2000s, plastic particles of about ten microns were observed in seawater samples. These are called "microplastics". Their presence in most environments has been progressively highlighted making it an anthropocene marker. Moreover, these particles interact with environments and may carry toxic additives or micropollutants. However, scientific and technical barriers limit this accurate evaluation. In this context, the aims of this work are (1) to determine the most efficient and cost- effective extraction conditions of microplastics trapped in sand and (2) to evaluate the toxicity due to the interactions between micropollutants and aged plastics, which can occur in the marine environment. Thus, an elutriation system prototype has been built and an adapted protocol developed to efficiently extract microplastics from sand. In order to determine the optimal elutriation flow velocities, a simple numerical model based on hydrodynamic equations has been developed. This numerical model has been validated by comparing theoretical and experimental results. However, these results also demonstrate that process optimization was required: based on different constraints, for example the time needed to achieve the elutriation or the size of the column, new data on the design have been acquired. The evolution of the surface state and the toxicity of 3 types of plastic (PVC, PET and PBAT) immersed in the marine environment during 550 days was studied on Kernevel harbor (Larmor-Plage, France). The results of the plastics ageing show very different behaviors. PBAT ages faster than PVC whereas PET does not exhibit large modifications. The aging of PVC is accompanied by a loss of compounders characterized by an estrogenic activity and by the adsorption of heavy metals. In the marine environment, the degradation of the PBAT surface forms cavities in which clay particles can be trapped. Moreover, in a more punctual manner than PVC, this material exhibit strong estrogenic activities
Deroiné, Morgan. "Étude du vieillissement de biopolymères en milieu marin". Electronic Thesis or Diss., Lorient, 2014. http://www.theses.fr/2014LORIS354.
Pełny tekst źródłaPollution of nature by plastics is a major environmental problem and better management of the lifetime of polymers is a major challenge for the future. In recent years, bio-based and biodegradable polymers, such as polylactide (PLA), or polyhydroxyalkanoates (PHA) have appeared as an alternative solution in order to solve these problems. One of the limits remains the relative lack of knowledge of their lifetime and degradation behaviour in aqueous environments, and more specifically in the marine environment. In this study natural and accelerated ageing tests were performed under several conditions, distilled water, filtered and renewed seawater and natural seawater, at different temperatures, in order to decouple enzymatic and hydrolytic mechanisms. The aim of this study is to establish a baseline on degradation mechanisms and kinetics, in order to make lifetime predictions of biopolymer behaviour in seawater.Degradation phenomena have been identified. Biodegradation tests were also performed in a marine environment by following the release of CO2. Then, lifetime predictions of the properties of these biopolymers at seawater temperature were made using two different approaches
Wahl, Aurélie. "Distribution et comportement de débris plastiques dans un sol agricole amendé en compost de déchets ménagers". Electronic Thesis or Diss., Rennes 1, 2022. http://www.theses.fr/2022REN1B031.
Pełny tekst źródłaPlastic waste is accumulating in all environmental compartments, and its presence is of great interest to the scientific community. However, plastic waste study in soils is only very recent compared to rivers and oceans. This PhD work therefore focused on the behaviour of micro- and nanoplastics and associated contaminants from the composting of household waste enriched with plastic debris in agricultural soil. The microplastics collected in soil have an advanced degree of weathering that favours the release of small plastic particles such as nanoplastics. In order to identify them, an extraction/identification method was developed and highlighted for the first time, the presence of nanoplastics containing the three most common polymers in the uppermost soil surface layer. It was then demonstrated that these nanoplastics were present in the mineral layers at depth, whereas the microplastics were only present at ploughing depth. Nanoplastics are therefore mobile in soils and can reach the underlying groundwaters. Finally, the role of plastic waste in the concomitant metal contamination found in soil was investigated. The highest concentrations correspond to metals used as additives in the formulation of plastics, but the plastic role could not be implicated with certainty in soil contamination. However, metals and their isotopic signatures are good candidates for tracing nanoplastics in complex natural matrices
Frère, Laura. "Les microplastiques : une menace en rade de Brest ?" Electronic Thesis or Diss., Brest, 2017. http://www.theses.fr/2017BRES0046.
Pełny tekst źródłaWorld 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
Durance, Loïc. "Développement d'une méthode de stérilisation par la chaleur de solutions injectables conditionnées en polyéthylène basse densité". Amiens, 2003. http://www.theses.fr/2003AMIED003.
Pełny tekst źródłaThe solutions for injection are usually packaged in glass flasks and sterilised by moist steam. Is the current tendency to substitute glass by the plastic because it reduce the obstruction of conditioning while increasing its shock-proofness and allows a board elimination of the wastes by incineration. Only some plastics meet both public health regulations and ecological requirements. Among them, low density polyethylene (LDPE) offers various advantages. It possesses virtually no additive, which limits the interaction hazards between plastic and chemical substances used in injection preparations. Its destruction does not bring chlorine-containing waste or other toxic matter into the atmosphere. Moreover, it is fully adapted to the various manufacturing technologies for large-scale production as the blow-fill-an-seal. However, the temperature value admitted for sterilisation is 121°C, whereas LDPE exhibits a melting point at about 117°C. Therfore, we have developped an alternative cycle of sterilisation based on F0 concept at a temperature lower than 121°C and such as it respected the LDPE containers integrity. The efficiency on the micro-organisms destruction have been calculated aid of stocks spores of Bacillus Stearothermophilus introduced into the recipients which contained water for injection as base solution. The sterilised products have been followed throughout this period. The information obtained by this work have the aim of documenting a manufacturing authorization file about products for injection for its recording with the benefit of a pharmaceutical industry of Amiens
Monsaingeon, Baptiste. "Le déchet durable : éléments pour une socio-anthropologie du déchet ménager". Thesis, Paris 1, 2014. http://www.theses.fr/2014PA010654/document.
Pełny tekst źródłaOver the past forty years, household waste and its management have been assimilated to a global environmental issue. While sustainable development is becoming a pressing issue, the number of our garbage bins is increasing. So what is it that we aim to preserve when we are dutifully sorting out our garbage? Between the very local gesture of discarding and the global environmental issue, there is a tremendous gap. The link between everyday practices of waste and environmental issues is so underdetermined that it has to be analysed. The main claim of this dissertation is that despite a growing concern with environment and the increasing time and space devoted to waste management, we remain unaware of the social, technological and material issues at stake. Because of this individual and collective blindness waste is not seen as a clue: as its memorial function is neglected waste is still perceived as what has to disappear, as a material quantity that has to be controlled and eliminated. The en-durable waste is an oxymoron that leads to further investigate the multiple modes of presence of waste in today’s life. Inspired by the personae of the ragman and of the archaeologist, this socio-anthropological investigation follows household waste from uncertain oceans of plastic to few Parisian vermicompost bins. Based on this confrontation to the materiality of waste, to the territories and to practices of wasting, this dissertation claims that where the unavoidable presence of waste is described as a problem, it is question of our presence to waste that is at stake
Julienne, Fanon. "Fragmentation des plastiques : effet de l’environnement et de la nature du polymère sur la taille et la forme des fragments générés". Thesis, Le Mans, 2019. http://www.theses.fr/2019LEMA1033.
Pełny tekst źródłaPlastic wastes have been accumulating for several decades in the oceans where they break up into particles called microplastics when their size is less than 5 mm. These microplastics are found in all earth’s waters, in sediments and in many marine organisms. Their long-term physico-chemical fate and their possible fragmentation into nanoplastics are complex, still poorly documented and require laboratory studies.In order to understand the processes related to photodegradation and fragmentation of polymers, but also in order to understand the evolution of these fragments during irradiation, an accelerated aging protocol in abiotic conditions has been set up. The oxidation and fragmentation of two model polymers, low density polyethylene and polypropylene, were monitored using spectroscopic techniques (InfraRed, Raman), DSC, contact angles and microscopic technics (light microscopy, polarized light, SEM, AFM ...).This work has demonstrated a significant influence of the environment and the initial morphology of the polymers on their kinetics of aging and cracking mechanisms. This lead to significantly different distributions in numbers, sizes and shapes of the generated fragments. Moreover, after a long time of irradiaiton, other degradation products could be detected but the significant production of nanoplastics has not been demonstrated. The possibility of a size limit below which the fragmentation rate of plastics would strongly decrease should be considered
Kedzierski, Mikaël. "Pollutions du milieu littoral par les microplastiques : Méthodes d’évaluation". Thesis, Lorient, 2017. http://www.theses.fr/2017LORIS464/document.
Pełny tekst źródłaPlastics are technical materials necessary for industrialized societies. However, in the early 2000s, plastic particles of about ten microns were observed in seawater samples. These are called "microplastics". Their presence in most environments has been progressively highlighted making it an anthropocene marker. Moreover, these particles interact with environments and may carry toxic additives or micropollutants. However, scientific and technical barriers limit this accurate evaluation. In this context, the aims of this work are (1) to determine the most efficient and cost- effective extraction conditions of microplastics trapped in sand and (2) to evaluate the toxicity due to the interactions between micropollutants and aged plastics, which can occur in the marine environment. Thus, an elutriation system prototype has been built and an adapted protocol developed to efficiently extract microplastics from sand. In order to determine the optimal elutriation flow velocities, a simple numerical model based on hydrodynamic equations has been developed. This numerical model has been validated by comparing theoretical and experimental results. However, these results also demonstrate that process optimization was required: based on different constraints, for example the time needed to achieve the elutriation or the size of the column, new data on the design have been acquired. The evolution of the surface state and the toxicity of 3 types of plastic (PVC, PET and PBAT) immersed in the marine environment during 550 days was studied on Kernevel harbor (Larmor-Plage, France). The results of the plastics ageing show very different behaviors. PBAT ages faster than PVC whereas PET does not exhibit large modifications. The aging of PVC is accompanied by a loss of compounders characterized by an estrogenic activity and by the adsorption of heavy metals. In the marine environment, the degradation of the PBAT surface forms cavities in which clay particles can be trapped. Moreover, in a more punctual manner than PVC, this material exhibit strong estrogenic activities
Deroiné, Morgan. "Étude du vieillissement de biopolymères en milieu marin". Thesis, Lorient, 2014. http://www.theses.fr/2014LORIS354/document.
Pełny tekst źródłaPollution of nature by plastics is a major environmental problem and better management of the lifetime of polymers is a major challenge for the future. In recent years, bio-based and biodegradable polymers, such as polylactide (PLA), or polyhydroxyalkanoates (PHA) have appeared as an alternative solution in order to solve these problems. One of the limits remains the relative lack of knowledge of their lifetime and degradation behaviour in aqueous environments, and more specifically in the marine environment. In this study natural and accelerated ageing tests were performed under several conditions, distilled water, filtered and renewed seawater and natural seawater, at different temperatures, in order to decouple enzymatic and hydrolytic mechanisms. The aim of this study is to establish a baseline on degradation mechanisms and kinetics, in order to make lifetime predictions of biopolymer behaviour in seawater.Degradation phenomena have been identified. Biodegradation tests were also performed in a marine environment by following the release of CO2. Then, lifetime predictions of the properties of these biopolymers at seawater temperature were made using two different approaches
Książki na temat "Matières plastiques – Environnement"
La guerre du pochon: Paradoxes pour un écocitoyen. [Paris]: Éd. Yago, 2006.
Znajdź pełny tekst źródłaVinyl chloride. Geneva: World Health Organization, 1999.
Znajdź pełny tekst źródłaVinyl Chloride, 1999 (Environmental Health Criteria). World Health Organization, 2000.
Znajdź pełny tekst źródłaCzęści książek na temat "Matières plastiques – Environnement"
Verney, Vincent, i Vincent Verney. "4. Matériaux polymères et environnement". W Matières plastiques, 123–37. Dunod, 2017. http://dx.doi.org/10.3917/dunod.carre.2017.02.0123.
Pełny tekst źródła"Bibliographie". W Matières plastiques et environnement, 319–20. Dunod, 2009. http://dx.doi.org/10.3917/dunod.duval.2009.01.0319.
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