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Статті в журналах з теми "Déchets électriques et électroniques":
Monnet, Marlène. "La logistique inversée des déchets électriques et électroniques." Logistique & Management 13, no. 1 (January 2005): 49–57. http://dx.doi.org/10.1080/12507970.2005.11516831.
Douet, Marie. "La circulation inverse des déchets d’équipements électriques et électroniques (DEEE) : entre consolidation et développement." Logistique & Management 26, no. 1 (November 28, 2017): 3–14. http://dx.doi.org/10.1080/12507970.2017.1384702.
Aksa, Wessim, Karim Medles, Mohamed Rezoug, Mohamed Miloudi, Mihail Bilici, and Lucien Dascalascu. "Procédé de séparation électrostatique pour l’amélioration des isolants issus des déchets d’équipements électriques et électroniques." European Journal of Electrical Engineering 16, no. 5-6 (December 30, 2013): 583–95. http://dx.doi.org/10.3166/ejee.16.583-5958.
Dieng, Diomaye, Cheikh Diop, El hadji Mamadou Sonko, Jean Birane Gning, Mamané Djitte, and Cheikhou Ibrahima Diaby Gassama. "Gestion des déchets d’équipements électriques et électroniques (DEEE) au Sénégal : acteurs et stratégie d’organisation de la filière." International Journal of Biological and Chemical Sciences 11, no. 5 (January 11, 2018): 2393. http://dx.doi.org/10.4314/ijbcs.v11i5.35.
Bahers, Jean-Baptiste, Isabella Capurso, and Cédric Gossart. "Réseaux et environnement : regards croisés sur les filières de gestion des Déchets d’Équipement Électriques et Électroniques à Toulouse et à Milan." Flux N° 99, no. 1 (2015): 32. http://dx.doi.org/10.3917/flux.099.0032.
Yeboué-Kouamé, B. Y., J. H. Kouadio, J. Soya, T. A. Ngouafouo, and D. Lison. "Risque d’exposition simultanée aux métaux traces chez des artisans du secteur informel des déchets d’équipements électroniques et électriques (DEEE) en Côte d’Ivoire." Toxicologie Analytique et Clinique 29, no. 2 (May 2017): S69—S70. http://dx.doi.org/10.1016/j.toxac.2017.03.103.
Veltz, Pierre. "L'espace des industries électriques et électroniques." Les Annales de la recherche urbaine 29, no. 1 (1986): 69–76. http://dx.doi.org/10.3406/aru.1986.1222.
Salommez, Gérard. "L'affichage environnemental des produits électriques et électroniques." Annales des Mines - Responsabilité et environnement N° 73, no. 1 (2014): 40. http://dx.doi.org/10.3917/re.073.0040.
Macé, Georges. "L'emploi en Bretagne dans les industries électriques et électroniques." Norois 128, no. 1 (1985): 677–88. http://dx.doi.org/10.3406/noroi.1985.4283.
-MARTY, Yvon. "Les produits électriques et électroniques en fin de vie." Revue de l'Electricité et de l'Electronique -, no. 04 (2000): 34. http://dx.doi.org/10.3845/ree.2000.030.
Дисертації з теми "Déchets électriques et électroniques":
Chevallier, Céline. "Valorisation des polymères styréniques issus des déchets d'équipements électroniques et électriques." Phd thesis, Université Jean Monnet - Saint-Etienne, 2012. http://tel.archives-ouvertes.fr/tel-00969321.
Chevallier, Céline. "Valorisation des polymères styréniques issus des déchets d’équipements électroniques et électriques." Thesis, Saint-Etienne, 2012. http://www.theses.fr/2012STET4015/document.
The aim of this work consists in the recycling of the styrenic polymers coming from waste of electric and electronic equipments. Polystyrene (PS), high impact polystyrene (HIPS), poly(acrylonitrile-butadiene-styrene) (ABS), its alloy with the polycarbonate (ABS/PC) and poly(styrene-acrylonitrile) (SAN) are considered. A preliminary study permits to choose two blends to study: PS/ABS and PS/PC. In the case of PS/ABS blend, the ionic way of compatibilization was studied. The addition of a copolymer containing an ionic structure and the creation of an ionic network in-situ are investigated. Both these attempts are not conclusive about the improvement of the final properties of the blend. The PS/PC blend is then compatibilized by adding a polystyrene-block-poly(ethylene-butylene)-block-polystyrene grafted polycarbonate. This copolymer is first created in an internal mixer, in order to study different catalysts able to initiate the grafting, and then the reactive extrusion is used to synthesize it on a large scale. Several amounts are introduced in the PS/PC blend and the improvement of the properties and microstructures proves its compatibilizing effect
El, Bouchtioui Lamia. "Le cadre réglementaire des déchets d'équipements électriques et électroniques : de la conception à la fin de vie des équipements électriques et électroniques." Electronic Thesis or Diss., Bordeaux, 2023. http://www.theses.fr/2023BORD0491.
Waste electrical and electronic equipment (W.E.E.E.) is a challenge for society as a whole, as their management has quickly become an issue that is at once economic, political, social, environmental and health. Thus, they represent a burden that developed countries seek to get rid of at a lower cost. International traffic has emerged around their export to developing or emerging countries mainly marked by legal weaknesses in environmental matters. Several international and regional texts limit the transboundary movement of waste in order to prevent economically efficient methods of sending hazardous waste. Within the European Union, a specific regulation aims to frame the theme of W.E.E.E. It advocates sustainable management of W.E.E.E. to protect and improve the quality of the environment. It aims to contribute to sustainable production and consumption, as a priority, through the prevention of W.E.E.E. and, in addition, through the reuse and recycling of materials in order to reduce the amount of waste to be disposed of. Recent changes in European law highlight the desire for a transition to a circular economy. Nevertheless, there are still some difficulties in achieving the objectives set. This work aims to address the way in which the law in force today incorporates a global approach to the subject taking into account the entire life cycle of the W.E.E.E. reconciling environmental and economic objectives. This study highlights the advances but also the persistent difficulties that society must confront
Aldoori, Hussam. "Valorisation des déchets plastiques d'équipements électriques et électroniques contenant des retardateurs de flamme bromés." Electronic Thesis or Diss., Université de Lille (2022-....), 2022. http://www.theses.fr/2022ULILR053.
The use of brominated flame retardants, such as polybrominated diphenyl ethers (PBDEs), is currently restricted by the European RoHS directive because of their toxicity, bioaccumulation and persistence in the environment. However, these toxic molecules are still found in large quantities in end-of-life plastics, particularly in the residues of obsolete electrical and electronic equipment.Consequently, these plastic wastes loaded with brominated flame retardants cannot be recycled without a prior treatment ensuring the elimination of these additives. Moreover, these additives can migrate in the environment surrounding the waste storage sites and degrade by exposure to solar radiation to generate more harmful substances such as polybrominated dibenzofurans (PBDF).The aim of this thesis, which is part of the Interreg VALBREE project, is to study the feasibility of a decontamination process of plastic waste by irradiation with UV-visible radiation, a technique that has proven promising for the abatement of brominated molecules incorporated in the plastic material, in order to allow the revalorization of the latter by mechanical recycling. The efficiency of the radiative treatment in the photodegradation of brominated flame retardants in model polymer/RFB mixtures has been confirmed by different spectroscopic and chromatographic analysis techniques. Thus, the evaluation of the state of the plastic material after irradiation allowed to optimize the treatment conditions in order to avoid the deterioration of the properties of the decontaminated plastics
Ausset, Sandrine. "Procédé de recyclage de mélanges ABS-PC issus de déchets d’équipements électriques et électroniques (DEEE)." Thesis, Bordeaux 1, 2013. http://www.theses.fr/2013BOR14760/document.
The aim of this PhD work was to propose a recycling process method of PC-ABS blend from real Waste Electrical and Electronic Equipment deposit (WEEE) deposits. This recycling process has to be able to overcome the problematic related to polymer recycling.The main constraints about recycling process are the presence of polymeric impurities after sorting step as well as mechanical reprocessing (extrusion and injection molded). Firstly, the effect of impurities on the mechanical properties (tensile and impact strength) and morphology (SEM, TEM) of PC-ABS blends have been studied. The presence of immiscible impurity deteriorates the mechanical properties of PC-ABS. The addition of an appropriate compatibilizer enhances the interface between PC-ABS and the impurity. The compatibilizer improves the impact strength and changes the morphology of this blend. Secondly, the optimization of injection molding parameters generates a change in morphology. This change leads to an increase of the impact strength.Both methods were applied to a flame retardant PC-ABS from WEEE with an impurity. The addition of a compatibilizer and the modification of injection molding parameters improve the impact strength. The presences of an impurity and a compatibilizer have a negative effect on the flame retardant properties of the PC-ABS blend
Ausset, Sandrine. "Procédé de recyclage de mélanges ABS-PC issus de déchets d'équipements électriques et électroniques (DEEE)." Phd thesis, Université Sciences et Technologies - Bordeaux I, 2013. http://tel.archives-ouvertes.fr/tel-00943822.
Durrant, Emmanuelle. "La législation sur les équipements électriques et électroniques : un scénario d'optimisation de la gestion des déchets en Europe ?" Nantes, 2007. http://www.theses.fr/2007NANT4020.
The management of household wastes by local authorities is no longer the only option. Producers can stand in for local authorities as provided for by the principle of extended producer responsibility. In the case of waste electrical and electronic equipment, the Community legislation carnes - even though the responsibility can be shared - a responsibility to the producers of electrical and electronic equipment for the products they put on the market. Producers are responsible for managing used equipment and the legislation urges them to create electrical and electronic equipment that take into account their end of life and, in a broader sense, their life-cycle. Waste managing gets more complex as the waste becomes a source of resources that contributes to its rehabilitation. Although the Community legislation about electrical and electronic equipment may appear favourable in regards to an optimised waste management, a generalisation of its method for all the wastes cannot be realistically achieved. We must take into account that the principle of extended producer responsibility on which the system of electrical and electronic equipment waste management is based is merely an economical instrument available for the public authorities
Fossi, Tabieguia Guy-Joël. "Recyclage, réemploi, réutilisation et régénération des cristaux liquides et d’oxyde indium-étain (ITO) issus des déchets d’équipements électriques et électroniques (DEEE)." Thesis, Lille 1, 2013. http://www.theses.fr/2013LIL10179.
The volumes of waste electrical and electronic equipment (WEEE) such as TVs and monitors display (LCD), keep grow in recent years. These WEEE contain recyclable raw material of great interest, including LCD and indium tin oxide (ITO). Meanwhile, there is currently no treatment for industrial recovery of this liquid crystals and ITO of LCD screens at the end of life for the purpose of recovery. Given the technological and economic benefits of these materials, we have implemented in the MEDUSA project funded by ADEME and controlled by the company ENVIE 2E, a process of treating LCDs. This process consists to extract of LCD panels, liquid crystals by mechanical extraction and ITO by chemical extraction. The advantage of this method lies in the rapid recovery of liquid crystal ITO whatever the size of the screen. In a second step, the phases of distillation and purification perfectly mastered possible to obtain liquid crystal molecules. The good quality of the products is checked by different physico-chemical analyzes. Some recovery methods were used such as lettings of ITO solution, the liquid crystal molecules, liquid crystals as additives for thermochromic inks, and liquid crystals as PDLC (Polymer Dispersed Liquid Crystals) for windows switchable. Finally, estimates of the costs of operating the process compared to the potential selling price of recovered liquid crystal reveal a good project profitability
Mbodji, Mor. "Etude des impacts environnementaux et sanitaires des déchets d’équipements électriques et électroniques (DEEE) au Sénégal : cas de la ville de Dakar." Electronic Thesis or Diss., Lyon, 2021. http://www.theses.fr/2021LYSE1290.
Waste electrical and electronic equipment (WEEE) is particularly problematic around the world. The aim of this thesis was to assess the potentially harmful effects of waste electrical and electronic equipment (WEEE) on the dispersion of metals in the environment and their fate to human health in Dakar, Senegal. Studies first focused on the determination of metals in the soils of four WEEE recycling sites in Dakar (Mbeubeuss, Mermoz Pikine and Reubeuss) by LIBS and portable X-ray fluorescence techniques. The results of this work showed that all the sites studied were contaminated by elements such as Pb, Cr, Fe, Mn and Zn in comparison with a control site. The distribution of metals is highly dependent on the site and therefore on the recycling activity. The potential contamination of the population through the food chain was assessed by analyzing vegetables produced near the largest WEEE waste dump (Mbeubeuss). Speciation by sequential extraction of the elements Sb, Pb, Sr, Cr, Cu Mn and Zn in market garden soils showed that the elements were mainly present in the residual fraction. This approach has shown that the metals are not mobile and not very bioavailable to plants. The contamination of metallic elements in two batches of vegetables produced from two distinct market gardening areas near Mbeubeuss and the evaluation of the potential health risk associated with the consumption of these products were studied. The results obtained from the first batch showed the contents of Cu, Cr, Mn, Zn and Fe led to risk indices. For the 2nd batch of vegetables (closer to Mbeubeuss) the concentrations of Cr, Zn and Pb are higher with a risk linked to the presence of Cr. The results of this work led to the conclusion that there is a potential health hazard for consumers of vegetables linked to the Cr element, only if it is present as CrVI
Gripon, Layla. "Contribution au recyclage et à la valorisation des matières plastiques issues des déchets d’équipements électriques et électroniques contenant des retardateurs de flamme bromés." Thesis, Ecole nationale supérieure Mines-Télécom Lille Douai, 2020. http://www.theses.fr/2020MTLD0014.
Brominated flame retardants (BFR) are added to polymers to enhance their flammability resistance. But some of them are nowadays considered as persistent organic pollutants (POP). To avoid their propagation into recycling streams, plastic materials which bromine concentration is too high (> 2000 ppm) are generally incinerated to destroy the pollutants they contain. The objective of this work is to find a solution to recycle BFR containing plastics materials while respecting the regulations. The study is focused on an acrylonitrile-butadiene-styrene (ABS) batch coming from real waste electrical and electronic equipment which contains a POP concentration about four times higher than the regulation limit authorizing recycling. Physico-chemical methods were studied to extract BFR. Solid-liquid extractions with stirring and diethyl ether as well as the dissolution-precipitation method lowered the POP concentration under the regulatory limit. A detailed study on supercritical CO2 extraction was performed and showed its efficiency to remove BFR, but optimizations are still needed. The recycling environmental impacts were also evaluated considering the pre-treatment processes studied previously. The energy and solvent consumptions need to be optimized in order to make the recycling process more viable compared to incineration. The treated plastic material showed that it can be easily recycled. Nevertheless, its impact strength could be improved during a formulation step. Finally, a practical application of this material in a bilayer structure was proposed to enhance its mechanical and esthetic properties. Good adhesions were obtained with virgin ABS and ABS/PC materials guaranteeing satisfactory properties to the bilayer structure
Книги з теми "Déchets électriques et électroniques":
Durrant, Emmanuelle. Le cadre légal des DEEE: Prévention, valorisation, financement de la gestion des déchets d'équipements électriques et électroniques. Paris: Victoires, 2009.
Durrant, Emmanuelle. Le cadre légal des DEEE: Prévention, valorisation, financement de la gestion des déchets d'équipements électriques et électroniques. Paris: Victoires, 2009.
Beauvillain, René. Circuits électriques et électroniques. Paris: Technique et documentation-Lavoisier, 1985.
Framboisier, Alban, Marc Battier, and Florence Gétreau. Instruments électriques, électroniques et virtuels. Paris: CNRS Éditions, 2018.
Boutigny, Jacques. Circuits électroniques et amplificateur opérationnel: Classe de mathématiques spéciales. Paris: Vuibert, 1985.
Floyd, Thomas L. Fondements d'électronique: Circuits, composants et applications. [Repentigny, Québec]: Éditions R. Goulet, 2003.
Buhler, Hansruedi. Convertisseurs statiques. Lausanne: Presses polytechniques et universitaires romandes, 1991.
Garot, P. (Pierre). Mesures et essais sur machines électriques et systèmes électroniques. Casteilla, 1998.
Garot, P. (Pierre). Mesures et essais sur circuits électriques et dispositifs électroniques. Casteilla, 1995.
Chamlian, Simon Vatché, and Chahé Nerguizian. Analyse de circuits électriques et électroniques. Simulations avec SPICE. Presses internationales Polytechnique, 1999.
Частини книг з теми "Déchets électriques et électroniques":
"La REP relative aux déchets d'équipements électriques et électroniques au Canada." In La responsabilité élargie du producteur, 259–65. OECD, 2017. http://dx.doi.org/10.1787/9789264273542-12-fr.
Bernard, Claire. "9. Conséquences sanitaires du commerce des déchets électriques et électroniques du Nord vers le Sud." In Santé internationale, 157–67. Presses de Sciences Po, 2011. http://dx.doi.org/10.3917/scpo.kerou.2011.01.157.
GAMBS, Pauline, Marie LEPAGE, and Hervé MUHR. "Récupération et recyclage des métaux contenus dans les DEEE." In Le recyclage, enjeu pour l’économie circulaire, 95–132. ISTE Group, 2023. http://dx.doi.org/10.51926/iste.9162.ch5.
DAVID, Raphaël, Étienne HAMELIN, Paul DUBRULLE, Shuai LI, Philippe DORE, Alexis OLIVEREAU, Maroun OJAIL, Alexandre CARBON, and Laurent LE GARFF. "Plate-forme modulaire pour un environnement informatique de l’automobile du futur." In Systèmes multiprocesseurs sur puce 2, 125–57. ISTE Group, 2023. http://dx.doi.org/10.51926/iste.9022.ch5.
"12 Transport de charges électriques. Conducteurs et isolants. Propriétés électroniques des oxydes." In La chimie des solides, 443–80. EDP Sciences, 2004. http://dx.doi.org/10.1051/978-2-7598-0173-2.c014.