Every action has an equal and opposite reaction

Note: This post was written by SEI staff, Aida Sefic Williams.

When consumers purchase electronics, they have usually been considering which new gadget to buy for a while. For example, when upgrading phones, consumers may shop at different wireless companies, comparing and contrasting the look, feel, features, and quality of what will soon be their new toy. All of us have been there! I became a Blackberry enthusiast (and that is putting it lightly) about two years ago. I was browsing for new phones that would meet my phone expectations, but that would also have that new pizazz and would almost have that “new phone smell.” After a few months of research, I headed to my wireless company and picked up my new little electronic bundle of joy! I was more excited than words can describe about my new, shiny, red, perfectly wonderful and could-do-no-wrong Blackberry. It was a simple transaction, I hand over my money and sign a renewal contract with the company, and I receive my lovely new gadget! What could be wrong about that?

To answer my own question: conflict materials! In short, conflict materials are earth elements that are necessary for many electronic applications. For example, these materials keep your electronics from overheating, help materials maintain an electronic charge, or make the “vibrate” function of your phone possible. Elizabeth Dias of Time Magazine wrote “First Blood Diamonds, Now Blood Computers?,” explaining why these materials are referred to as “conflict materials.” Unfortunately, the trade of these materials is controlled by militia in the Democratic Republic of Congo (DRC). The money used to purchase the conflict materials has been used to fuel a gruesome war within the DRC, where miners (including women and children) are forced to work long hours under horrible conditions. The miners live in fear, as armed guards watch over them. In addition, the militia is also taxing their workers an exorbitant amount, making their livelihoods continuously dependent on harsh working and living conditions. The powers in charge not only use their power to exploit the workers of DRC, but they also use extreme violence and fear tactics to intimidate workers. Most people living in militia-controlled regions live in fear of their lives, as massacres of entire families as well as brutal rapes are a common practice. Lydia Polgreen and Nicholas Kristof of the New York Times have additionally published articlesCongo’s Riches, Looted by Renegade Troops” and “Death by Gadget,” respectively, to shed light to this problem.

Similar to my previous post titled “Future of electronics after 2012,” I am not only concerned about what the problems are. Instead, I am interested in possible solutions. Jeffrey Davis of Green Lifestyle Magazine published “Conflict Materials in Electronics” where he explains the current problem with conflict materials. Furthermore, he discusses possible solutions. An obvious recommendation many have is for manufacturers to stop purchasing “conflict materials.” This action, however, could result in more violence as the militia would not have their source of income, which would only make for worse living conditions of the miners and workers. Davis offers additional ways we can help the people of the DRC.

Additionally, several organizations’ aim to aid the people of the Congo and are determined to find ways to bring attention to this cause. Two main organizations focusing on the Congo and the “Conflict Material” problem are Enough! Project and Raise Hope for the Congo. In addition, Rachel Cernansky of Planet Green published Conflict Minerals 101: Coltan, the Congo Act, and How You Can Help, offering further information about conflict materials and ways to help the current conflict in the Congo.

While most consumers are unaware of the current “conflict materials” problem, the US government seems to be paying attention. On January 5, 2010, President Obama signed Pub.L. 111-203/HR 4173, also known as Dodd-Frank Wall Street Reform and Consumer Protection Act. The act would require some electronics manufacturers to disclose where they obtained conflict materials in the DRC or an adjoining country. Companies would be required to report this to the Securities Exchange Commission (SEC) and place the information on their website. Furthermore, companies may also need to hire external auditors and provide additional information to the SEC. Baker and McKenszie has published a Client Alert titled “New Reporting and Audit Obligations for High-Tech and Other Manufacturers” on August 16, which details the act, by providing an executive summary, reporting requirements, and practical considerations.

While purchasing electronics for most people within the United States can be done inexpensively, most consumers, including myself, do not think about the negative consequences our actions have. When handing our money to electronics manufacturers and distributors in order to get the newest, coolest phone, our bank account is not the only thing that takes a hit. As a society, we need to be aware of the materials, mining and manufacturing processes that occur in order to bring us the electronics we want.

Future of electronics after 2012

Note: This post was written by SEI staff, Aida Sefic Williams.

Whenever electronics are discussed, the conversation always involves the argument that electronics are environmentally damaging. In order to make electronics, we need materials that have to be mined out of the ground, be highly processed, and manufactured in astronomically high quantities. Electronics also require energy to function, and many electronic components are often discarded with little or no consideration about the materials, energy, and time that went into making the product.

rareearthIf all of the previous points were not enough, I unfortunately have yet another thing to add: the consumption of rare earth materials. The phrase “rare earth materials” has been used frequently when discussing many technologically advanced designs, but what exactly does this phrase mean? Rare earth materials are 17 metallic elements, all of which have similar properties, as they reside in the same families within the periodic table of elements. The elements are: lanthanum, cerium, praseodymium, neodymium, promethium, samarium, europium, gadolinium, terbium, dysprosium, holmium, erbium, thulium, ytterbium, lutetium, scandium, and yttrium [1].

While the general consumer may not hear about many of these individual elements, one thing is certain: They are vital to our current technologically-charged world. These materials are used in fiber optics, hybrid car batteries, x-ray units, magnets used in computer hard drives, and many other applications [2]. While many of us enjoy the applications of rare earth materials (REM), we may not be able to enjoy them for much longer. Since these materials are rare, it seems that we have currently depleted 95% to 97%, depending on which article you read, of the Earth’s REMs [3]. The rapid depletion of these materials becomes alarmingly more critical, since China controls most of the materials. More significantly, some reports have stated that China has been decreasing their REM exports and will completely stop them in 2012. (If you believe that the world will end in 2012, I am sure this news rings a very loud and alarming bell.)

While one may easily dismiss articles published by The Economic Collapse as pure paranoia, it is much harder to dismiss several claims by the Government Accountability Office (GAO). In April of 2010, the GAO gave a presentation, which is publicly available, titled “Rare Earth Materials in the Defense Supply Chain“. The report explains further information and details about rare earth materials, their applications, as well as possible solutions to the REM depletion.

Slide 16 of the GAO report lists other countries with rare earth material deposits. The list of countries includes the U.S., China, Australia, Brazil, India, Malaysia, and others. Furthermore, the report mentions that work new rare earth material mines needs to be begin. IndustryWeek reports of a mine in California that was previously used to mine REMs within the United States, but the mine’s Chinese competitors successfully drove the mine out of business. Naturally, an option under consideration is the re-opening of this new mine, which would take at least 3-5 years to become fully operational. In order to create a completely new mine, significant capital investment is needed in order to get the mine 100% operational in 7-15 years, according to the GAO. In the best case scenario, that leaves the U.S. and remainder of the world without REMs 1-3 years, or in the worst case scenario, this would be 5-13 years.

Some sources, such as the Natural News, suggest that we (the global, societal “we”) should recycle rare earth materials. After all, there is a significant market for recycling common metals such as lead, copper, and aluminum. The UN Environmental Programme has stated the importance of metals recycling. In fact, the UNEP has published a report stating current metal recycling rates and also explains the need for increased recycling of specific materials of interest. A press release from May 13, 2010, offers a brief summary as well as a link to the full text of the report.

If you read this post and all of its related links, you may start believing in the Mayan prediction for the year 2012. But the goal of this blog post is not to scare or stir people into a frenzy. Instead, the goal of this post is to inform and brainstorm! Because of this, I want to involve you, the reader. I want your input and feedback. What do you think can be done? Is increased mining the answer? Do we need to find new technologies for recycling these precious materials? Can the world’s brilliant scientists create new materials which would have the desired properties of rare earth materials? What other options can you offer?

While the technical questions are important, it is vital to also ask several social questions. For example, if you do believe in being eco-conscious, how much are you willing to give up in order to save these precious metals? Will you hold on to your computer, cell phone, or other device for 2-3 instead of 1.5 years, if it will save some rare earth materials which could be used in medical equipment that can save someone’s life? What are you willing to give up? And how much of it?

There are many more questions that I could ask, but I think these brain teasers should be enough. What do you think? I would love to enter a dialogue, not of “The world is ending!” but, “This is a problem, and here is what we can do”. Please, I invite you all, scientists, engineers, designers, environmentalists, students, consumers and everyone else to humor me for a few minutes. Let me know what you think about this subject!

Death of Advanced Recycling Fee?

Note: This post was written by SEI staff, Aida Sefic Williams.

In the last few weeks, the issue of California’s e-waste recycling has become an increasingly prominent issue.  When speaking of US electronic waste rules, the general statement was “California is the only one with an advanced recycling fee (ARF)”, but their process seemed to work. After all, California’s e-waste laws have been in place much longer than e-waste legislation of other states. Unfortunately, it seems that California’s model of e-waste collection has unfortunately failed.

It seems that in 2002, when e-waste legislation was first considered and drafted, California also considered manufacturer responsibility legislation (Modesto Bee), which is currently used by 21 states. The voices of the tech industry, however, prevailed and California passed an e-waste recycling law requiring an advanced recycling fee (ARF). Given this legislation, when a customer purchases a new monitor or television, they are charged a fee (between $8 and $25), which should in turn be used to recycle the purchased equipment. The goal of the program was to provide a way for consumers to dispose of their electronics responsibly while providing funds for a green industry (Sacramento Bee). While the state had good intentions, no one could foresee the fraudulent activities that would take place.

Due to the amount of state-funding, hundreds of new electronics recyclers sprung up throughout the state (Merced Sun-Star). State officials passing the ARF legislation only counted on the environmental spirits in the state, but they did not foresee the greed that would take over the program. This has led to organizations importing electronics from Arizona and other neighboring states, in order to recycle the electronics within California and receive money for recycling such electronics products. To date, the state of California has paid approximately $320 million for electronics recycling, since the law’s passing in 2005 (Desert Dispatch). The state additionally recognizes that approximately $30 million have been used to recycle electronics which came in from other states, but it has rejected approximately $23 million of fraudulent claims. The Sacramento Bee offers a chart detailing California’s recyclers with the most claim denials.

Understandably, many are angered by the news and knowing their money is used to recycle e-waste  brought in from illegally other states. Environmentalists, however, have another problem with California’s law and its mistreatment – the disposal of usable monitors. California’s model makes it more enticing for people to recycle their “old” but usable monitors, instead of using them until they physically break or donating them to a charitable organization. ScrippsNews tackles this issue in their article “Mounds of usable computer monitors in Calif. dumps“.

So how can California handle this apparent fraud and misuse of their laws and funds? Will they change their laws to reflect other US states? If so, how long will this process take? What can be done in the meantime? These questions need answers – and soon! The failing system needs to go to the root of the problem, update legislation to meet these new challenges, and with proper care and maintenance, the system will be working better, more effectively, and should last for a very long time.

E-Waste Competition Winners Announced

 

Note: This post was written by SEI staff, Aida Sefic Williams.

Winners have been announced in the International E-Waste Competition.  The competition is part of the Sustainable Electronics Initiative (SEI) at the University of Illinois at Urbana-Champaign.

The competition is designed to prompt the industrialized world to dialogue about product designs for environmentally responsible computing and entertainment. The goals of this competition are to learn about ways to re-use electronic waste (E-Waste) for new and productive means, explore new ideas of how to address E-Waste problems, and contribute to the body of knowledge that advances the practice of environmentally responsible product design.

The winners were announced at the Illinois Sustainable Technology Center (ISTC), the coordinating agency for the Sustainable Electronics Initiative.  ISTC is part of the Institute of Natural Resource Sustainability at the University of Illinois.

The videos of the winning entrants were shown as a part of the International E-Waste Video Film Festival. The videos of the winning entries will be shown on the websites of the e-waste competition www.ewaste.illinois.edu, www.istc.illinois.edu, www.sustainelectronics.illinois.edu, as well as SEI’s YouTube Channel.

Entries were judged in two categories: Technical/Geek and Artist/Designer. A total of 33 entries were submitted; 26 were in the Artist/Designer category, and 7 in the Technical/Geek category. Prizes were awarded for the top three projects within each category, along with two honorable mentions in the Artist/Designer category. The first, second, and third place winners will receive $5000, $3000, and $1000 monetary prizes, respectively. In addition, honorable mentions will receive $500. The total amount of money to be given out during the International E-Waste Competition is close to $20,000, which has been made possible through generous contributions by several sponsors, including Dell and Wal-mart.

Technical/Geek Category Winners

First Place

  • Team: Port-e-garden
  • Project name: Port-e-garden
  • School: University of Illinois at Urbana-Champaign
  • Video

Second Place

  • Team: Chaps
  • Project name: BioGrow
  • School: University of Illinois at Urbana-Champaign
  • Video

 

Third Place

  • Team: CSULB Studio Group #1
  • Project name: The Pure Drive Home Automation and Computing System
  • School: California State University, Long Beach CA
  • Video

Artist/Designer Category Winners

First Place

  • Team: revOlve
  • Project name: revOlve
  • School: Rochester Institute of Technology, New York
  • Video

 

Second Place

  • Team: eLiminators
  • Project name: E-volve
  • School: California State University, Long Beach CA
  • Video

Third Place

  • Team: eMotion
  • Project name: eMotion
  • School: California State University, Long Beach CA
  • Video

 

Honorable Mention

  • Team: CSULB ID 2011
  • Project name: The Personalized E-Waste Recycling Bin
  • School: California State University, Long Beach CA

Honorable Mention

  • Team: CSULB ID Team
  • Project name: E-Responsibility
  • School: California State University, Long Beach CA

The competition was started at UIUC in the fall of 2009. In 2010, the competition was expanded to an international base, where students from all over the globe were able to submit their projects and a 2-minute video online. Each project was judged on their project description and video.

The international scope of the competition was evident through students who submitted entries from various states in the US (Illinois, Minnesota, California, New York) and other countries (Cyprus, Canada, Australia, Turkey and South Korea). The jury of the competition included a variety of experts, including

  • Vicky Matranga, Design Program Coordinator of International Housewares Association;
  • Clive Roux, CEO of the Industrial Designers Society of America;
  • Joe Jasinski, Global Senior Industrial Design Manager at Dell, Inc.;
  • Steve Belletire, Design Area Head at Southern Illinois University;
  • Sam Al-Basha, Engineer at the IL Department of Commerce and Economic Opportunity;
  • Chris Newman, Materials and Management Branch of US EPA;
  • Mike Tibbs, Sr. Director of Information Systems Division Compliance at Wal-mart;
  • Roger L. Franz, Engineering Manager at Motorola;
  • and Will Larkin, Director of Vendor Management Office and Star Complex at Wal-mart.

Helping two great causes at once!

cell phone recyclingNote: This post was written by SEI staff, Aida Sefic Williams.

By now, everyone has heard of the massive earthquake which struck Haiti last week. Undoubtedly, everyone has heard horrid stories of devastation. As I wondered what to write this week’s blog about, I found an article, which really speaks for itself, and I just wanted to make our blog followers aware of this cause, because it is a wonderful way to incorporate ewaste issues along with charity.

Continue reading “Helping two great causes at once!”

E-waste International

ewaste-computer-recycling-image[1]Note: This post was written by SEI staff member, Amy Cade.

As Aida mentioned in an earlier post, a lack of a global standard for e-waste is one of the biggest problems we, in the e-waste industry, have to deal with.  Inconsistencies between states, countries, and continents not only make it hard on the manufacturers but also on the well-intentioned collectors.

Sunil Herat, a senior lecturer in waste management at Griffith University in Australia, addressed this problem in a recent paper titled International regulations and treaties on electronic waste (e-waste).  Herat has given an overview of the different policies in different regions.  This post will be a summary and commentary of that document. Continue reading “E-waste International”