‘Electronic Waste’. Electronic waste covers everything from home appliances like TVs, air conditioners, and fans to IT devices like computers and mobiles that have been replaced or have reached the end of their life cycle and need to be disposed of.
Waste electrical and electronic equipment (WEEE) is becoming a major threat to the whole world. Its toxic emissions mixed with virgin soil and air and causing harmful effects to the entire biota either directly or indirectly. Direct impacts include the release of acids, toxic compounds including heavy metals, carcinogenic chemicals and indirect effects such as biomagnification of heavy metals. Many private firms are involved in collecting, dismantling, separation and exporting e-wastes for recyclers. However, strict regulations are currently being followed as on approval of such firms such as e-steward certification by Basel action network in the USA, they also involved in public awareness programs; this review is based on collected information from various journal articles, websites including the technical note by Greenpeace international. Further, it analyzes the current progress on e-waste management worldwide.
Here’s an example to understand the scale of the problem, according to estimates by Ceylon Waste Management there are 7.6 Million CRT TVs and Monitors in Sri Lanka, and only 10% of that will be properly disposed. The remaining 90% will be around 67500 metric tons of CRTs, of which 8840 tons will be lead and 110 tons of arsenic. That’s a massive amount of poison that could leach into our ecosystem endangering both human and animal lives. Other methods must be employed to dispose of this waste.
What Happens to Devices at the End of Their Useful Life
Unfortunately, the majority of these electronic products end up in landfills, and just 12.5% of e-waste is recycled. According to a UN study, over 41.8 million tons of e-waste was discarded worldwide, with only 10%–40% percent of disposals appropriately done. Electronics are full of valuable materials, including copper, tin, iron, aluminum, fossil fuels, titanium, gold, and silver. Many of the materials used in making these electronic devices can be recovered, reused, and recycled—including plastics, metals, and glass.
In a report, Apple revealed that it recovered 2,204 pounds of gold —worth $40 million—from recycled iPhones, Macs, and iPads in 2015.
Benefits of E-Waste Recycling
Recycling e-waste enables us to recover various valuable metals and other materials from electronics, saving natural resources (energy), reducing pollution, conserving landfill space, and creating jobs. According to the EPA, recycling one million laptops can save the energy equivalent of electricity that can run 3,657 U.S. households for a year. Recycling one million cell phones can also recover 75 pounds of gold, 772 pounds of silver, 35,274 pounds of copper, and 33 pounds of palladium.
On the other end, e-waste recycling helps cut down on production waste. According to the Electronics TakeBack Coalition, it takes 1.5 tons of water, 530 lbs of fossil fuel, and 40 pounds of chemicals to manufacture a single computer and monitor. 81% of the energy associated with a computer is used during production and not during operation.
The Electronics Recycling Process
Electronics recycling can be challenging because discarded electronics devices are sophisticated devices manufactured from varying proportions of glass, metals, and plastics. The process of recycling can vary, depending on the materials being recycled and the technologies employed, but here is a general overview.
Collection and Transportation: Collection and transportation are two of the initial stages of the recycling process, including for e-waste. Recyclers place collection bins or electronics take-back booths in specific locations and transport the collected e-waste from these sites to recycling plants and facilities.
Shredding, Sorting, and Separation: After collection and transportation to recycling facilities, materials in the e-waste stream must be processed and separated into clean commodities that can be used to make new products. Efficient separation of materials is the foundation of electronics recycling. Shredding the e-waste facilitates the sorting and separation of plastics from metals and internal circuitry, and waste items are shredded into pieces as small as 100mm to prepare for further sorting.
A powerful overhead magnet separates iron and steel from the waste stream on the conveyor and then prepares it for sale as recycled steel. Further mechanical processing separates aluminum, copper, and circuit boards from the material stream—which now is mostly plastic. Water separation technology is then used to separate glass from plastics. The final step in the separation process locates and extracts any remaining metal remnants from the plastics to purify the stream further.
Preparation For Sale as Recycled Materials: After the shredding, sorting and separation stages have been executed, the separated materials are prepared for sale as usable raw materials for the production of new electronics or other products.
Electronics Recycling Associations
- ISRI (the Institute of Recycling Industries): ISRI is the largest recycling industry association with 1600 member companies, of which 350 companies are e-waste recyclers.
- CAER (Coalition for American Electronics Recycling): CAER is another leading e-waste recycling industry association in the U.S. with over 130 member companies operating around 300 e-waste recycling facilities altogether throughout the country.
- EERA (European Electronics Recyclers Association): EERA is the leading e-waste recycling industry association in Europe.
- EPRA (Electronic Products Recycling Association): EPRA is the leading e-waste recycling industry association in Canada.
Current Challenges for Electronics Recycling Industry
The E-waste recycling industry has a significant number of challenges, which the primary one being exporting to developing nations. Exporting e-waste, including hazardous and toxic materials, is leading to serious health hazards for the workers working for dismantling electronic devices in countries without adequate environmental controls. Currently, 50%–80% of e-waste that recyclers collect is exported overseas, including illegally exported e-scrap, which is of particular concern. Overall, the inadequate management of electronics recycling in developing countries has led to various health and environmental problems.
Although the volume of e-waste is increasing rapidly, the quality of e-waste is decreasing. Devices are getting smaller and smaller, containing less precious metal. The material values of many end-of-life electronic and electrical devices have therefore fallen sharply. Electronics recyclers have suffered due to sagging global prices of recycled commodities, which have decreased margins and resulted in business closures.
Another problem is that as time goes on, many products are being made in ways that make them not easily recyclable, repairable, or reusable. Such design is often undertaken for proprietary reasons, to the detriment of overall environmental goals. Organizations such as ISRI have been active in promoting policies to broaden the range of authorized companies allowed to repair and refurbish smartphones to avoid their needless destruction. The current rate or level of e-waste recycling is definitely not sufficient. The current recycling rate of 15%–18% has much room for improvement as most e-waste still is relegated to the landfill.
Electronics Recycling Laws
Currently, 25 U.S. states have laws mandating statewide e-waste recycling, and several more states are working toward passing new legislation and improving the existing policy. State e-waste recycling laws cover 65% of the U.S. population, and some states, including California, Connecticut, Illinois, and Indiana, e-waste is banned from landfills.
Potential Initiatives in Sri Lanka
Despite these initiatives, Sri Lanka is still far away in terms of e-waste management compared to most countries. Thus, existing bottlenecks need to be addressed in order for Sri Lanka to be a sustainable e-waste recycler. Strengthening policy and legislation is vital. Apart from the existing policy and regulation, the government could reinforce regulations, specifically on the imports of EEE. For instance, regulations should be enacted on discouraging the imports of used EEE, and to import equipment that has less hazardous elements; for example, LED/LCD monitors can replace CRT monitors, since CRT has more hazardous elements. In addition, suitable technology and skills need to be implemented in order to streamline the sustainable e-waste recycling system in the country. Proper mechanisms should also be developed to take out the informal market for e-waste recycling in the country. Improving the knowledge on e-waste within the community is crucial. Conducting programmes which highlight the social and ecological impacts of improper handling of e-waste, and the importance of disposing e-waste in proper places and in proper ways can be effective in raising public awareness. This can be provided through the public health staff, starting from grassroots levels. Also, the media can play a pivotal role in disseminating the message and making the mass community aware of the impacts of improper handling of e-waste as well as the proper mechanisms in recycling and its benefits.
‘E-waste’ should not be considered as normal ‘junk’. It may not impact you instantaneously, but could do so later in life. Therefore, much attention should be paid to this issue, considering the many health impacts that could be instigated by the e-waste around us.
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