End-of-life electronic, electrical equipment totals 41.8 million metric tonnes in 2014

E-waste last year contained US$52 billion in resources, large volumes of toxic material; most is not collected for recovery or treatment

New United Nations University report details e-waste generation by region

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In 2014, people worldwide discarded all but a small fraction of an estimated 41.8 million metric tonnes (megatonnes – Mt) of electrical and electronic products — mostly end-of-life kitchen, laundry and bathroom equipment like microwave ovens, washing machines and dishwashers.

And the volume of e-waste is expected to rise by 21% to 50 million Mt in 2018.

The new figures were released today in the Global E-Waste Monitor 2014, compiled by the United Nations University (UNU), the UN’s think tank. The report offers in unprecedented detail a wealth of insights into the location and composition of the world’s fast-growing e-waste problem.

Just 7% of e-waste last year was made up of mobile phones, calculators, personal computers, printers, and small information technology equipment.

Almost 60% was a mix of large and small equipment used in homes and businesses, consisting of:

12.8 Mt of small equipment (vacuum cleaners, microwaves, toasters, electric shavers, video cameras, etc.);

11.8 Mt of large equipment (washing machines, clothes dryers, dishwashers, electric stoves, photovoltaic panels, etc.);

7.0 Mt of cooling and freezing equipment (temperature exchange equipment);

6.3 Mt of screens;

3.0 Mt of small IT (mobile phones, pocket calculators, personal computers, printers, etc.); and

1.0 Mt of lamps

The 41.8 Mt weight of last year’s e-waste is comparable to that of 1.15 million 40-ton 18-wheel trucks — enough to form a line of trucks 23,000 kilometres long, or the distance from New York to Tokyo and back.

Less than one-sixth of last year’s e-waste is thought to have been diverted to proper recycling and reuse.

The e-waste generated in 2014 contained an estimated 16,500 kilotons of iron, 1,900 kilotons of copper, 300 tonnes of gold (equal to 11% of the world’s total 2013 gold production), as well as silver, aluminum, palladium plastic and other resources with a combined estimated value of US$52 billion (48 billion Euro).

Toxins in that e-waste, meanwhile, include 2.2 Mt of lead glass — more than six times the weight of the Empire State Building — 0.3 Mt of batteries, as well as mercury, cadmium, chromium and 4,400 tonnes of ozone-depleting chlorofluorocarbon (CFCs). Health problems associated with such toxins include impaired mental development, cancer, and damage to liver and kidneys.

And while the US and China produce the most e-waste overall (32% of the world’s total), the top per capita producers by far are the wealthy nations of northern and western Europe, the top five being Norway, Switzerland, Iceland, Denmark, and the UK.

The escalating global e-waste problem is driven by the rising sales and shortening life cycles of electrical and electronic equipment (EEE — essentially, any device with a battery or an electric cord).

“Worldwide, e-waste constitutes a valuable ‘urban mine’ — a large potential reservoir of recyclable materials. At the same time, the hazardous content of e-waste constitutes a ‘toxic mine’ that must be managed with extreme care,” says UN Under-Secretary-General David Malone, Rector of UNU.

“The monitor provides a baseline for national policymakers, producers and the recycling industry, to plan take-back systems. It can also facilitate cooperation around controlling illegal trade, supporting necessary technology development and transfer, and assisting international organizations, governments and research institutes in their efforts as they develop appropriate countermeasures. This will eventually lead to improved resource efficiency while reducing the environmental and health impacts of e-waste.”

Says co-author Kees Baldé of the United Nations University Institute for the Advanced Study of Sustainability (UNU-IAS) Sustainable Cycles (SCYCLE) operating unit in Bonn (Germany): “This report, based on empirical data, provides an unprecedented level of detail and a more accurate overview of the magnitude of the e-waste problem in different world regions than has ever been reported previously.”

Selected highlights:

In 2014, approximately 4 billion people were covered by national e-waste legislation (though not all laws cover the full range of e-waste and are not all enforced);

Around 6.5 Mt of e-waste was reported as formally treated by national take-back systems;

Most world e-waste in 2014 was generated in Asia: 16 Mt (3.7 kg per inhabitant);

The highest per inhabitant e-waste quantity (15.6 kg/inh.) was generated in Europe; the region (including Russia) generated 11.6 Mt;

The lowest quantity of e-waste was generated in Oceania (0.6 Mt), however, per inhabitant the e-waste generated was nearly as high as Europe’s (15.2 kg/inh.);

The lowest amount of e-waste per inhabitant was generated in Africa (1.7 kg/inh). The continent generated 1.9 Mt of e-waste in total;

The Americas generated 11.7 Mt of e-waste (7.9 Mt in North America, 1.1 Mt in Central America, 2.7 Mt in South America), or an average of 12.2 kg/inh;

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Report co-authors Ruediger Kuehr, Cornelis Peter Baldé, Feng Wang and Jaco Huisman are available for interviews. The full report is available in the Related Files tab.

Contacts:

Terry Collins, +1 416-538-8712; +1 416-878-8712

tc@tca.tc

Ruediger Kuehr, Head UNU-IAS SCYCLE

+49 228-815-0213/0271; +49 40-53630931

kuehr@unu.edu