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Table of Contents

Information Systems: A Manager's Guide to Harnessing Technology, v. 1.0

by John Gallaugher

4.4 E-waste: The Dark Side of Moore’s Law

Learning Objectives

After studying this section you should be able to do the following:

  1. Understand the magnitude of the environmental issues caused by rapidly obsolete, faster and cheaper computing.
  2. Explain the limitations of approaches attempting to tackle e-waste.
  3. Understand the risks firms are exposed to when not fully considering the lifecycle of the products they sell or consume.
  4. Ask questions that expose concerning ethical issues in a firm or partner’s products and processes, and that help the manager behave more responsibly.

We should celebrate the great bounty Moore’s Law and the tech industry bestow on our lives. Costs fall, workers become more productive, innovations flourish, and we gorge at a buffet of digital entertainment that includes music, movies, and games. But there is a dark side to this faster and cheaper advancement. A PC has an expected lifetime of three to five years. A cell phone? Two years or less. Rapid obsolescence means the creation of ever-growing mountains of discarded tech junk, known as electronic waste or e-wasteDiscarded, often obsolete technology; also known as electronic waste.. According to the U.S. Environmental Protection Agency (EPA), in 2007 the United States alone generated over 2.5 million tons of e-waste,U.S. Environmental Protection Agency, General Information on E-waste, February 5, 2009. and the results aren’t pretty. Consumer electronics and computing equipment can be a toxic cocktail that includes cadmium, mercury, lead, and other hazardous materials. Once called the “effluent of the affluent,” e-waste will only increase with the rise of living standards worldwide.

The quick answer would be to recycle this stuff. Not only does e-waste contain mainstream recyclable materials we’re all familiar with, like plastics and aluminum, it also contains small bits of increasingly valuable metals such as silver, platinum, and copper. In fact, there’s more gold in one pound of discarded tech equipment than in one pound of mined ore.P. Kovessy, “How to Trash Toxic Tech,” Ottawa Business Journal, May 12, 2008. But as the sordid record of e-waste management shows, there’s often a disconnect between consumers and managers who want to do good and those efforts that are actually doing good. The complexities of the modern value chain, the vagaries of international law, and the nefarious actions of those willing to put profits above principle show how difficult addressing this problem will be.

The process of separating out the densely packed materials inside tech products so that the value in e-waste can be effectively harvested is extremely labor intensive, more akin to reverse manufacturing than any sort of curbside recycling efforts. Sending e-waste abroad can be ten times cheaper than dealing with it at home,Christopher Bodeen, “In ‘E-waste’ Heartland, a Toxic China,” International Herald Tribune, November 18, 2007. so it’s not surprising that up to 80 percent of the material dropped off for recycling is eventually exported.E. Royte, “E-waste@Large,” New York Times, January 27, 2006. Much of this waste ends up in China, South Asia, or sub-Saharan Africa, where it is processed in dreadful conditions.

Consider the example of Guiyu, China, a region whose poisoning has been extensively chronicled by organizations such as the Silicon Valley Toxics Coalition, the Basel Action Network (BAN), and Greenpeace. Workers in and around Guiyu toil without protective equipment, breathing clouds of toxins generated as they burn the plastic skins off of wires to get at the copper inside. Others use buckets, pots, or wok-like pans (in many cases the same implements used for cooking) to sluice components in acid baths to release precious metals—recovery processes that create even more toxins. Waste sludge and the carcasses of what’s left over are most often dumped in nearby fields and streams. Water samples taken in the region showed lead and heavy metal contamination levels some four hundred to six hundred times greater than what international standards deem safe.Elizabeth Grossman, “Where Computers Go to Die—and Kill,” Salon.com, April 10, 2006, http://www.salon.com/news/feature/2006/04/10/ewaste. The area is so polluted that drinking water must be trucked in from eighteen miles away. Pregnancies are six times more likely to end in miscarriage, and 70 percent of the kids in the region have too much lead in their blood.60 Minutes, “Following the Trail of Toxic E-waste,” November 9, 2008.

Figure 4.4 Photos from Guiyu, ChinaJohn Biggs, “Guiyu, the E-waste Capital of China,” CrunchGear, April 4, 2008.

China cares about its environment. The nation has banned the importing of e-waste since 2000.Elizabeth Grossman, “Where Computers Go to Die—and Kill,” Salon.com, April 10, 2006. But corruption ensures that e-waste continues to flow into the country. According to one exporter, all that’s required to get e-waste past customs authorities is to tap a one-hundred-dollar bill on the side of the container.Christopher Bodeen, “In ‘E-waste’ Heartland, a Toxic China,” International Herald Tribune, November 18, 2007. Well-meaning U.S. recyclers, as well as those attempting to collect technology for reuse in poorer countries, are often in the dark as to where their products end up

The trade is often brokered by middlemen who mask the eventual destination and fate of the products purchased. BAN investigators in Lagos, Nigeria, documented mountains of e-waste with labels from schools, U.S. government agencies, and even some of the world’s largest corporations. And despite Europe’s prohibition on exporting e-waste, many products originally labeled for repair and reuse end up in toxic recycling efforts. Even among those products that gain a second or third life in developing nations, the inevitable is simply postponed, with e-waste almost certain to end up in landfills that lack the protective groundwater barriers and environmental engineering of their industrialized counterparts. The reality is e-waste management is extraordinarily difficult to monitor and track, and loopholes are rampant.

Thinking deeply about the ethical consequences of a firm’s business is an imperative for the modern manager. A slip up (intentional or not) can, in seconds, be captured by someone with a cell phone, uploaded to YouTube, or offered in a blog posting for the world to see. When Dell was caught using Chinese prison labor as part of its recycling efforts, one blogger chastised the firm with a tweak of its marketing tagline, posting “Dude, you’re getting a cell.”J. Russell, “Dell under Attack over Using Prison Labour,” Inquirer, January 10, 2003. See also http://laughingmeme.org/2003/03/23/dell-recycling-a-ways-to-go-still. The worst cases expose firms to legal action and can tarnish a brand for years. Big firms are big targets, and environmentalists have been quick to push the best-known tech firms and retailers to take back their products for responsible recycling and to eliminate the worst toxins from their offerings.

Consider that even Apple (where Al Gore sits on the firm’s Board of Directors), has been pushed by a coalition of environmental groups on all of these fronts. Critics have shot back that signaling out Apple is unfair. The firm was one of the first computer companies to eliminate lead-lined glass monitors from its product line, and has been a pioneer of reduced-sized packaging that leverage recyclable materials. But if the firm that counts Al Gore among its advisors can get tripped up on green issues, all firms are vulnerable.

Environmentalists see this pressure to deal with e-waste as yielding results: Apple and most other tech firms have continually moved to eliminate major toxins from their manufacturing processes. All this demonstrates that today’s business leaders have to be far more attuned to the impact not only of their own actions, but also to those of their suppliers and partners. How were products manufactured? Using which materials? Under what conditions? What happens to items when they’re discarded? Who provides collection and disposal? It also shows the futility of legislative efforts that don’t fully consider and address the problems they are meant to target.

Finding Responsible E-waste Disposers

A recent government sting from the U.S. Government Accountability Office (U.S. GAO) found that forty-three American recyclers were willing to sell e-waste illegally to foreign countries, without gaining EPA or foreign country approval. Appallingly, at least three of them held Earth Day electronics-recycling events.U.S. Government Accountability Office (U.S. GAO), Report to the Chairman: Committee on Foreign Affairs, House of Representatives: Electronic Waste, August 2008.

So how can firms and individuals choose proper disposal partners? Several certification mechanisms can help shed light on whether the partner you’re dealing with is a responsible player. The Basel Action Network e-Stewards program certifies firms via a third-party audit, with compliant participants committing to eliminating e-waste export, land dumping, incineration, and toxic recycling via prison labor. The International Association of Electronics Recyclers (IAER) also offers audited electronics recycler certification. And firms certified as ISO 9001 and ISO 14001 compliant attest to quality management and environmental processes. Standards, techniques, and auditing practices are constantly in flux, so consult these organizations for the latest partner lists, guidelines, and audit practices.Basal Action Network e-Stewards program accessed via http://www.e-stewards.org/esteward_certification.html; International Standards Organization accessed via http://www.iso.org/iso/home.htm; the IAER accessed via http://www.iaer.org/search; and G. MacDonald, “Don’t Recycle ‘E-waste’ with Haste, Activists Warn,” USA Today, July 6, 2008.

Which brings us back to Gordon Moore. To his credit, Moore is not just the founder of the world’s largest microprocessor firm and first to identify the properties we’ve come to know as Moore’s Law, he has also emerged as one of the world’s leading supporters of environmental causes. The generosity of the Gordon and Betty Moore foundation includes, among other major contributions, the largest single gift to a private conservation organization. Indeed, Silicon Valley, while being the birthplace of products that become e-waste, also promises to be at the forefront of finding solutions to modern environmental challenges. The Valley’s leading venture capitalists, including Sequoia and Kleiner Perkins (where Al Gore is now a partner), have started multimillion-dollar green investment funds, targeted at funding the next generation of sustainable, environmental initiatives.

Key Takeaways

  • E-waste may be particularly toxic since many components contain harmful materials such as lead, cadmium, and mercury.
  • Managers must consider and plan for the waste created by their products, services, and technology used by the organization. Consumers and governments are increasingly demanding that firms offer responsible methods for the disposal of their manufactured goods and the technology used in their operations.
  • Managers must audit disposal and recycling partners with the same vigor as their suppliers and other corporate partners. If not, an organization’s equipment may end up in environmentally harmful disposal operations.

Questions and Exercises

  1. What is e-waste? What is so dangerous about e-waste?
  2. What sorts of materials might be harvested from e-waste recycling?
  3. Many well-meaning individuals thought that recycling was the answer to the e-waste problem. But why hasn’t e-waste recycling yielded the results hoped for?
  4. What lessons do the challenges of e-waste offer the manager? What issues will your firm need to consider as it consumes or offers products that contain computing components?
  5. Why is it difficult to recycle e-waste?
  6. Why is e-waste exported abroad for recycling rather than processed domestically?
  7. What part does corruption play in the recycling and disposal of e-waste?
  8. What part might product design and production engineering play in the reduction of the impact of technology waste on the environment?
  9. What are the possible consequences should a U.S. firm be deemed “environmentally irresponsible”?
  10. Name two companies that have incurred the wrath of environmental advocates. What might these firms have done to avoid such criticism?