Recycling of WEEE is a specialist part of the waste and recycling industry. It is a rapidly growing sub-sector due largely to the implementation of the original WEEE Directive in the UK by the WEEE Regulations 2006, With that came the associated requirements for the recovery, reuse, recycling and treatment of WEEE. The Waste Electric and Electronic Equipment (WEEE) Regulations 2013 (“the Regulations link to external website”) became law in the UK on the 1st of January 2014 and replaced the 2006 Regulations. The new Regulations transpose the main provisions of Directive 2012/19/EU on WEEE which recasts the previous Directive 2002/96/EC. These regulations also provide for a wider range of products to be covered by the Directive with effect from 1st January 2019.
Further information on the WEEE Regulations 2013 can be found in the Government Guidance Notes PDF link to external website produced by the Department for Innovation and Skills.
Every year an estimated 2 million tonnes of WEEE items are discarded by householders and companies in the UK. WEEE includes most products that have a plug or need a battery. There are ten broad categories of WEEE currently outlined within the Regulations (see Schedules 1 and 2 of the Regulations), namely:
Large household appliances e.g. fridges, cookers, microwaves, washing machines and dishwashers
Small household appliances e.g. vacuum cleaners, irons, toasters and clocks
IT and telecommunications equipment – e.g. personal computers, copying equipment, telephones and pocket calculators
Consumer equipment e.g. radios, televisions, hi-fi equipment, camcorders ad musical instruments
Lighting equipment e.g. straight and compact fluorescent tubes and high intensity discharge lamps
Electrical and electronic tools – e.g. drills, saws and sewing machines, electric lawnmowers
Toys, leisure and sports equipment e.g. electric trains, games consoles and running machines
Medical devices e.g. (non infected) dialysis machines, analysers, medical freezers and cardiology equipment
Monitoring and control equipment e .g. smoke detectors, thermostats and heating regulators
Automatic dispensers e.g. hot drinks dispensers and money dispensers
The scope of the Regulations will be extended from January 2019 to cover further categories of electric and electronic equipment (EEE) (see Schedules 3 and 4 of the Regulations for more information)
Treatment of WEEE
Large household appliances (e.g. ovens, fridges, washing machines) currently make up over 40% of WEEE but there are large volumes of other equipment such as IT equipment (mainly computers), TVs (over two million discarded each year), small household appliances (e.g. kettles and hair dryers), electrical tools, digital watches, electronic toys and medical devices.
Such items contain a wide variety of materials e.g. an average TV contains 6% metal and 50% glass, whereas a cooker is 89% metal and only 6% glass. Other materials found include plastics, ceramics and precious metals.
As a result of this complex mix of product types and materials, some of which are hazardous (including arsenic, cadmium, lead and mercury and certain flame retardants) WEEE recycling poses a number of health risks that need to be adequately managed. For example, exposure to substances released during processing (such as mercury released from fluorescent tubes, lead and phosphorous pentachloride as a result of breaking cathode ray tubes).
It is important to stress that if effective measures are taken to control exposure to mercury and lead then normally the control of exposure to other hazardous substances should also be adequate.
The exact treatment of WEEE can vary enormously according to the category of WEEE and technology that is used. Some treatment facilities utilise large-scale shredding technologies, whilst other use a disassembly process, which can be manual, automated or a combination of both.
For disassembly operations, treatment facilities should comply with the minimum requirements specified in the DEFRA document Guidance on Best Available Treatment Recovery and Recycling Techniques (BATRRT) and treatment of Waste Electrical and Electronic Equipment (WEEE) PDF link to external website. This provides a useful overview of the standards for treatment, recycling and recovery of materials from WEEE. It outlines the requirements for the removal of certain substances and components (see Guidance on Specific Substances/Components below).
For shredding operations, treatment facilities may not be required to remove these components and substances. This is dependent on the size and type of technology used, although some hazardous components and substances must be removed in advance to avoid risks to health and safety and damage to equipment.
The Waste Resources Action Programme (WRAP) have made available online good practice guidance on the collection and processing of WEEE link to external website (including sections on treatment of WEEE and health and safety policies and procedures) directed at different audiences including AATFs and waste management companies which inspectors may find useful.
Guidance on specific substances/components
The following summary is based largely on the DEFRA document Guidance on Best Available Treatment Recovery and Recycling Techniques (BATRRT) and treatment of Waste Electrical and Electronic Equipment (WEEE) PDF link to external website.
Fluids - these are typically found in heating and cooling appliances, such as fridges and freezers (coolant circuit) and oil-filled radiators. The WEEE Directive requires the removal of all fluids from WEEE. Fluids must be safely removed prior to crushing or shredding operations. Cooling appliances containing refrigerants (fridges and freezers) – most refrigerators reaching the waste stream are between 10 and 15 years old and are therefore likely to contain Ozone Depleting Substances (ODS) (e.g. CFCs and HCFCs). Units manufactured after 1994 are unlikely to contain CFCs.
Fridges and freezers identified as containing ammonia must have their ammonia extracted and transferred to a suitable container pending disposal. As well as presenting a fire and explosion risk, ammonia is potentially hazardous to both the environment and human health.
Capacitors containing polychlorinated biphenyls (PCBs) - Historically PCBs were used extensively in electrical equipment such as capacitors and transformers. However, their use in open applications was widely banned in 1972 and they have not been used in the manufacture of new equipment since 1986. Plants that had been installed prior to 1986 were allowed to continue until the end of their working life. Thus it should be assumed that capacitors manufactured before 1976 contain PCBs. However, unless an appliance is more that 20 years old the chance that it contains capacitors containing PCBs is very remote. All uses of PCBs were to be phased out by the year 2000. For guidance re capacitors containing polychlorinated biphenyls see “Do you know how to work safely with PCBs?
Mercury containing components such as switches or back-lighting
Mercury is used in fluorescent lamps, medical equipment, data transmission, telecommunications and mobile phones. Its use in electrical and electronic equipment has declined significantly in recent years and its use is banned (save certain exempt uses) from 2006. Apart from batteries, most other mercury containing items are likely to be found on a circuit board. Thus removing the circuit board would result in removal of most mercury containing competent such as switches.
Increasing numbers of non-CRT flat panel screens (such as liquid crystal display (LCD), laptop and desk top monitors and plasma screens) are entering the waste stream and requiring specialist treatment. In 2010, an estimated 9 million flat screens were likely to have been sold. Whilst evidence suggests that since the mid-2009 there is a switch to LED backlit screens this is relatively slow and the use of backlights containing mercury will continue. It is considered that there will over 145,000 tonnes of flat panel displays in the waste stream by 2016/17. One of the main issues surrounding the treatment and recovery of flat panels at end of life is the presence of mercury containing fluorescent backlights required in particular to illuminate the LCD, laptop and desk top monitor screens from behind (NB: plasma screens do not present the same hazard). Manufacturers declare an average of 3.5mg of mercury per backlight and the average 37” television can have up to 18 lamps but research suggests this value is often higher. The current main option for treatment is manual disassembly to remove the mercury containing backlights for specialist treatment and the separation of the remaining material streams. This has high labour costs and potential health and safety implications. For further information see WRAP report on flat panel display recycling technologies link to external website.
Toner cartridges, liquid and paste, as well as colour toner – commonly found in printers, fax machines and photocopiers. These should be removed whole and intact so as to prevent the dispersal of toner and then stored in suitable labelled containers.
Asbestos waste and components which contain asbestos – asbestos has been used in older appliances such as electric coffee pots, toasters and irons. Asbestos was also a component of some electric heaters and other items that benefited from the heat resistant properties of the material. Modern appliances are not permitted to contain asbestos; however, operators of treatment facilities need to be vigilant for items which might contain asbestos. Appliances that are over 20 years old might contain asbestos and therefore should be examined carefully and treated accordingly. Detailed risk assessment, training and safe systems of work will be required for handling products likely to contain asbestos. Work should be organised so that materials likely to contain asbestos are identified and work not initiated without adequate controls being taken in accordance with Control of Asbestos at Work Regulations 2006.
Lead and other substances including phosphorous pentachloride in CRTs – lead and other substances hazardous to health such as phosphorous pentacholoride can be liberated during the processing of the glass to remove the fluorescent coating.
Components containing refractory ceramic fibres (RCFs) – mainly used in furnace/heater/kiln linings. Respirable RCFs are classified as category 2 carcinogen. Although RCFs may be used in both domestic appliances and building heating appliances, the insulation material used in domestic electrical appliances are more likely to contain components based on mineral wools rather than RCFs. Appliances which might contain RCFs must be examined to determine if they contain RCFs and appropriate controls put in place before they are removed (see further guidance on RCFs).
Components containing radioactive substances – can be found in a variety of equipment in many commercial settings (e.g. fill level detectors, static eliminators, radium luminised dials, old trim phones) as well as smoke detectors.
Other hazards associated with WEEE recycling
Machinery safety – some WEEE recycling plants use a wide variety of machinery/equipment as materials are treated including crushing, grinding, conveying, baling, compacting and palletising machines.
MSDs – from manual handling – some WEEE items, white goods (fridges/freezers) in particular, can be heavy, but even some TVs can weigh in excess of 25kg.
WRULDS – from repetitive movements to remove wiring looms for example
Cuts and abrasion risks etc – from use of such items as knives used to remove antibreak coatings on florescent lamps, sharp edges on items as they are being dismantled, or if broken.
Stacking of items of WEEE – white goods (stability of stacks e.g. no more than three times the height of the minimum base dimension as a rule of thumb)
Electrical safety – in particular if any element of refurbishment is being carried out consider electrical testing issues.
Fire and explosion risks – e.g. hydrocarbons and ammonia in fridges and freezers; polystyrene (e.g. polystyrene can be found in fridges/freezers as an insulator and is commonly used packaging material. The pentane within the polystyrene is flammable); batteries (removed batteries from WEEE products should be stored in appropriately labelled containers having due regard to the potential fire risk they can present).