Overview
• What is electronic waste?
• Why is it a problem?
• What is being done about e-waste?
• Lead vs. Lead free
What is electronic waste?
• American definition– Anything with a PCB or slightly complicated
electronic components
• European– Anything with a plug
Electronic Waste
• More than 4.6 million tons of electronic waste (e-waste) was produced in the US in the year 2000 [Bhuie]
• In Europe, quantity of e-waste increases 3 to 5% a year [Bhuie]– 3 times larger growth than other waste growth
Why is e-waste becoming a big deal?
• Electronics are becoming more and more a part of everyday life
• Embedded systems are every place– Microwaves, printers, key fobs, cars,
appliances, cell phones
• Electronics becoming disposable• Cell phones
– Life span is about 1.5 years now– 130 million are retired a year– Over 500 million are stockpiled [Bhuie]
• Computers– 20 million retired a year– 240 million already stockpiled [Bhuie]
• Estimated that for every new cell phone or computer one becomes obsolete [Bhuie]
Why is e-waste becoming a big deal?
Why is it a problem?
• Hazardous materials found in electronics– Examples: Arsenic, Beryllium, Cadmium,
Nickel, Zinc, Antimony, Lead– Can cause damage to brain, lungs, and other
organs– Lead especially toxic to developing children
[Jackson]
Other Hazardous Materials
• Hazardous materials not only found in electronic components
• Toxins are found in the plastics– Brominated flame-retardants (BFR) added to
plastics to reduce chance of fire– Damage to sexual development and growth
attributed to some BFRs [Jackson]
What is being done?
• Recycling programs
• Many programs try to refurbish and sell old equipment
• Programs in place to mine precious metals from old equipment
Examples of Recycling
• Computer companies have started recycling programs– Some charge fee– Some give customers rebates on new products
• Cell Phone recycling– Largest programs are Verizon’s Hopeline and
Wireless Foundation’s Donate-a-Phone programs
Cell Phone vs. PC
• Cell phone recycling much more successful than PC– Costs 12 to 30 dollars to refurbish cell phones– Refurbished cell phone worth 40 to 50 dollars– 70% of cell phones refurbished [Bhuie]
• PC– 10% recycled– Costs 13 to 34 dollars– Lack of refurbished market [Bhuie]
Cost Comparison for Collecting and Processing of Cell Phone and PC
Cost (US $) Cell Phone PC
Collection 6.00 23.50
Transportation 0.35 0.43
Sorting - 3.50
Dismantling 0.03 2.75
Refining 0.32 7.87
Disposal of non-hazardous
0.01 0.83
Disposal of hazardous
0.03 5.00
Bhuie, A. K., O. A. Ogunseitan, et al. (2004).
Exporting Waste
• High cost of labor for recycling• Outsource to China
– Cheap labor– Laws are less strict
• City of Guiyu: e-waste hub of world– Drinking water has to be brought in [Johnston]– Horrible working conditions [Grossman]– Studies show problems in workers from
recycling [Grossman]
China and E-waste
• There is a lot of money to be had processing electronic waste
• Chinese government trying to come up with system
• Laws have been passed
• Electronics companies taking some responsibility in making sure waste handled properly [Johnston]
UNICOR
• Poor conditions not only overseas
• Federal Prison Industries (UNICOR) run electronic waste processing in prisons [Jackson]
• Workers are in unsafe environments [Jackson]
• Negatively affects legitimate recyclers by undercutting on price [Jackson]
Legitimate Recyclers
• Some take old equipment and pass on to schools and nonprofits
• Others mine for metals– 30 to 50% circuit is made of metal [Grossman]
• 950 e-waste processors in North America– 400 to 500 in the United States [Grossman]
• 700 million dollar industry in 2003 [Grossman]
• Estimated that by 2010 the industry will have $3.5 billion dollars in revenue [Grossman]
What about Europe?
• Two directives have been passed– Waste Electrical and Electronic Equipment
(WEEE) – Restrictions of the Use of Certain Hazardous
Substances (RoHS)
• Move responsibility of end of life impact to producer (“producer responsibility”) [Tetra Tech]
Waste Electrical and Electronic Equipment (WEEE)
• Producers responsible for collection, treatment, and disposal of e-waste [Tetra Tech]
• Logos must be placed on products alerting customers not to throw away in normal trash
[Tetra Tech]
• Provide list of materials in products to recyclers
[Tetra Tech]
Restriction of the Use of Certain Hazardous Substances (RoHS)
• The name is fitting
• Restricts:– Lead, mercury, hexavalent chromium,
cadmium, and some brominated flame retardants [Tetra Tech]
– If there is no alternative you can use the above
• Every 4 years review to see if you can stop using restricted substance [Grossman]
RoHS
• Has a large impact on electronics [Mueller]
• Lead is used in practically everything
• Getting rid of lead clearly makes end of life better [Mueller]
• Yet some environmentalists are opposed to lead ban
Lead vs. Lead free
• SnAgCu is common replacement to SnPb• US EPA finds that SnAgCu has greater
environmental impact on:– Non-renewable resources– Energy use– Water Quality– Ozone depletion– Global Warming
• Per 1000 cc of solder, lead free uses an energy equivalent of 162 gallons more of gasoline [United States EPA]
Lead Free
• Increased environmental impact comes from material and process related issues [United States EPA; Mueller]
• Metals used are more costly to extract [Mueller]
• Melting point is higher which results in more energy use [Mueller]
• Tin based solders form whiskers [Mueller]
Why would anyone want to move to lead free?
• Improvements cannot be made to impact of lead at end of life
• Processes used to produce and use lead free solder could be improved
• Forcing lead free could force companies to come up with recycling friendly designs to reduce cost
Review
• Electronics are becoming more and more of part of everyday life
• New legislature is forcing electronic industry to pay attention to environmental impact
• It is unsure if such laws are beneficial
References• Tetra Tech. (2005). "Factsheet: WEEE and RoHS Directives." Retrieved 10/21, 2006, from
http://www.mdsmap.com/en/pdf/weee%20rohs%20directive%20factsheet.pdf.
• Bhuie, A. K., O. A. Ogunseitan, et al. (2004). Environmental and economic trade-offs in consumer electronic products recycling: a case study of cell phones and computers. Electronics and the Environment, 2004. Conference Record. 2004 IEEE International Symposium on, 10-13 May 2004, Page(s): 74 – 79
• Grossman, E. (2006). High tech trash: digital devices, hidden toxics, and human health. Washington, Island Press/Shearwater Books.
• Jackson, A. S., A. Shuman, et al. (2006). "Toxic Sweatshops: How UNICOR Prison Recycling Harms Workers, Communities, the Environment, and the Recycling Industry." Retrieved 10/22, 2006, from http://www.computertakeback.com/docUploads/ToxicSweatshops.pdf.
• Johnston, B. R. (2003). "The Political Ecology of Water: An Introduction " Capitalism, nature, socialism 14(3): 73 - 90.
• Mueller, J., H. Griese, et al. (2005). Transition to lead free soldering - a great change for a better understanding of materials and processes and green electronics.
• United States. Environmental Protection Agency. (2005). "Solders in electronics a life-cycle assessment." Retrieved 10/20, 2006, from http://www.epa.gov/opptintr/dfe/pubs/solder/lca/lfs-lca-final.pdf.