Electronic equipment waste

TABLE 5 Substances and Components that must be Removed from Separately Collected Electrical and Electronic Equipment Waste... 

Directive 2002/96/EC ofthe European Parliament and of the Council of 27 January 2003 on waste electrical and electronic equipment (WEEE) (2003) Official Journal ofthe European Union, L37 13/02/2003, 24-39. 

Shredded circuit boards. Circuit boards are metal boards that hold computer chips, thermostats, batteries, and other electronic components. Circuit boards can be found in computers, televisions, radios, and other electronic equipment. When this equipment is thrown away, these boards can be removed and recycled. Whole circuit boards meet the definition of scrap metal, and are therefore exempt from hazardous waste regulation when recycled. On the other hand, some recycling processes involve shredding the board. Such shredded boards do not meet the exclusion for recycled scrap metal. In order to facilitate the recycling of such materials, U.S. EPA excluded recycled shredded circuit boards from the definition of solid waste, provided that they are stored in containers sufficient to prevent release to the environment, and are free of potentially dangerous components, such as mercury switches, mercury relays, nickel-cadmium batteries, and lithium batteries. 

To illustrate the concept of external (or damage) cost, we can first look at the emissions from Waste of Electric and Electronic Equipment (WEEE) to the air. The different points leading to the evaluation of emission s impact are the following [36] ... 

The second possibility is the European waste legislation, which includes the Restriction of Hazardous Substances Directive (RoHS). The RoHS Directive is closely linked with the Waste Electrical and Electronic Equipment Directive (WEEE) which sets collection, recycling, and recovery targets for electrical goods and is part of a legislative initiative to solve the problem of toxic e-waste. 

Isolating agent in small capacitors Cl < 42% Closed Waste from electric and electronic equipment/ household waste Possible in state-of-the-art sorting plants... 

Friege H (2012) Resource recovery from used electric and electronic equipment alternative options for resource conservation, Waste Mgt Res 30(9)... 

EEA - European Environmental Agency (2003) Waste from electric and electronic equipment -quantities, dangerous substances and treatment methods. http //eea.eioneLeuropa.eu/Public/irc/ eionet-circle/etc waste/library l=/working j>apers/weeepdf/ EN 1.0 a=d. Accessed 12 Nov 2010... 

EU s Waste Electrical and Electronic Equipment Directive and RoHS. 267... 

India is second to China in processing e-waste. Seventy percent of the e-waste processed or disposed of in India is believed to originate abroad, with Delhi as its primary destination. Bangalore handles more that is domestically produced India by itself produces 400,000 tons of e-waste annually. With only three facilities currently existing in India to properly handle e-waste, the overwhelming majority goes into the informal sector. As in China, unwanted electronic equipment is seen as worth money, and sold by households or businesses to doorstep collectors. 

Manomaivibool P (2009) Extended producer responsibility in a non-OECD context the management of waste electrical and electronic equipment in India. Resour Conserv Recycl 53(3) 136-144... 

Based on the values of Cpcdd/fs [46], Ccipahs [38], and CBfrs in e-waste, the annual mass emissions of selected PCDD/F and C1PAH congeners and BFRs from e-waste are estimated (Table 3). The lowest annual mass emission of PBDEs is about 82,207 tons/year, with 70,607 tons/year from importation and 11,600 tons/ year from domestic generation (Table 3). Nona- and deca-BDEs are the most important congeners as they are the major constituents of BRFs in electronic equipment [77]. In addition, the annual mass emissions of PBBs, TBBPA, and PBPs are also estimated with the same procedure (Table 3). Obviously, importation is responsible for the majority of annual mass emissions of e-waste-derived organic pollutants in China (Table 3). 

Keywords Brominated flame retardants, E-waste, Substance Flow Analysis SFA, Informal Recycling, Waste Electric and Electronic Equipment WEEE... 

Convention on Control of Transboundary Movements of Hazardous Wastes and their Disposal and 69 ratified the ban on all kinds of hazardous waste export from wealthy OECD-countries to non-OECD countries, large amounts of waste electrical and electronic equipment (WEEE) are shipped overseas for recycling, the majority to China as reported by Brigden et al. [2] and Puckett et al. [3], lesser quantities to India and Western Africa reported by Kuper and Hojsik [4]. WEEE contains a variety of harmful substances like endocrine disruptors and persistent organic pollutants (POPs). Additionally, hazardous substances may be formed during informal recycling. This often practised informal treatment without proper equipment for metal extraction and labour safety heavily affects the environment and human health of workers and the inhabitants of whole stretches of land. 

In 2003, the European WEEE-Directive 2002/96/EG [5] was implemented to reduce the amount of electronic waste and foster reuse, recovery and recycling of electric and electronic equipment. Closely connected to this, the restriction of hazardous substances Directive 2002/95/EG [6] (RoHS) was adopted by the EC in 2003 with the aim to restrict the use of hazardous substances in the manufacture of electric and electronic products. 

Waste Electrical and Electronic Equipment (WEEE) legislation, 20 60 Waste exchanges, 21 407 Waste facilities, design of, 21 842 Waste fuel... 

The introduction of EU directives on Waste Electrical and Electronic Equipment and Reduction of Hazardous Substances has highlighted the need for precise and repeatable elemental analysis of heavy metals in the plastics production process. X-ray fluorescence (XRF) spectroscopy has emerged as the most economical and effective analytical tool for achieving this. A set of certified standards, known as TOXEL, is now available to facilitate XRF analyses in PE. Calibration with TOXEL standards is simplified by the fact that XRF is a multi-element technique. Therefore a single set of the new standards can be used to calibrate several heavy elements, covering concentrations from trace level to several hundred ppm. This case study is the analysis of heavy metals in PE using an Epsilon 5 XRF spectrometer. 

The move by the European Commission to make three separate pieces of legislation out of an original single draft directive on waste electrical and electronic equipment has probably served to intensify the focus onbrominated flame retardants in these applications. Under the draft, EU countries shall ensure that the use of lead, mercury,... 

The German Environmental Ministry is reported to have attacked European proposals to ban substances such as specific flame retardants in forthcoming regulations for recycling electrical and electronic equipment. Initial proposals from the EU Commission on the disposal of waste electrical and electronic equipment, include a phaseout of PBDEs, despite preliminary findings under EU risk assessment that there is no need for risk reduction from the two types, decaBDE and octaBDE mainly used in such equipment. The Ministry is said to be concerned at the excessively prescriptive and restrictive system being proposed, and that substance restrictions should not be addressed in waste legislation, but should be based on life cycle risk assessments. 

Proposals to ban two types of brominated flame retardants in electrical and electronic goods are raising controversy in Bmssels. The EU DG XI (Environment) is circulating a draft proposed directive on waste electrical and electronic equipment under which polybrominated biphenyls and polybrominated diphenyl ethers would be banned by 1 January 2004. The proposal is circulating despite risk assessments which show that there is no particular cause for concern and no need for further risk assessment. 

European Parliament and Council in their Proposal for a Directive on Waste Electrical and Electronic Equipment (COM/2000/0347 final), See http // europa.eu.int/smartapi/cgi/sga doc sma rtapi celexplus prod CELEXnumdoc lg= en numdoc=52000PC0347(01)... 

Lymberidi, E. (2001). Towards Waste-Free Electrical and Electronic Equipment. The examples are cited from Tadatomo Suga, University of Tokyo, Good practice on the substitution of heavy metals in... 

The example of the textile chain demonstrates (i) how much the techni-cal/aesthetic quality of products and chemicals-related product security are interdependent and (ii) what requirements exist for a quality management system beyond the supply chain level. Only the major brands can take this initiative on a global scale. For cosmetic, medical devices and food products, as well as technical products with high safety requirements (such as aircraft), management systems beyond supply chain level have now become a matter of survival. The same holds true for products that are subject to special waste and design regulations in Europe (such as automotive vehicles and electronic equipment). 

R. Balart, L. Sanchez, J. L6pez, and A. Jimenez, Kinetic analysis of thermal degradation of recycled polycarbonate/acrylonitrile-butadi-ene-styrene mixtures from waste electric and electronic equipment,... 

P.A. Tarantili, A.N. Mitsakaki, and M.A. Petoussi, Processing and properties of engineering plastics recycled from waste electrical and electronic equipment (WEEE), Polym. Degrad. Stab., In Press, Accepted Manuscript, 2010. 

Parts cleaning and stripping are integral process operations for industries that repair, maintain, or manufacture parts and equipment. Manufacturing groups generating metal wastes include metal furniture manufacturers, metal fabricators, machinery manufacturers, electric and electronic equipment manufacturers, instrument manufacturers, and many others. 

Silver is one of the basic elements that make up our planet. Silver is rare, but occurs naturally in the environment as a soft, "silver" colored metal. Because silver is an element, there are no man-made sources of silver. People make jewelry, silverware, electronic equipment, and dental fillings with silver in its metallic form. It also occurs in powdery white (silver nitrate and silver chloride) or dark-gray to black compounds (silver sulfide and silver oxide). Silver could be found at hazardous waste sites in the form of these compounds mixed with soil and/or water. Therefore, these silver compounds will be the main topic of this profile. Throughout the profile the various silver compounds will at times be referred to simply as silver. 

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