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Introduction

The production of electrical and electronic equipment (EEE) is one of the fastest-growing global manufacturing activities. Rapid economic growth, coupled with urbanization and growing demand for consumer goods, has increased both the consumption and the production of EEE. The Indian information technology (IT) industry has been one of the major drivers of change in the economy in the last decade and has contributed significantly to the digital revolution being experienced by the world. New electronic gadgets and appliances have infiltrated every aspect of our daily lives, providing our society with more comfort, health and security and with easy information acquisition and exchange. The knowledge society, however, is creating its own toxic footprints.

E-waste broadly covers waste from all electronic and electrical appliances and comprises items such as computers, mobile phones, digital music recorders/players, refrigerators, washing machines, televisions (TVs) and many other household consumer items.

The increasing ‘market penetration’ in the developing countries, ‘replacement market’ in the developed countries and ‘high obsolescence rate’ make e-waste one of the fastest waste streams. This new kind of waste is posing a serious challenge in disposal and recycling to both developed and developing countries. While having some of the world's most advanced high-tech software and hardware developing facilities, India's recycling sector can be called medieval. All this has made e-waste management an issue of environment and health concern. The magnitude of the problem

In India, about 1.2 million tonnes of e-waste is generated every year, as per a study conducted by the Central Pollution Control Board (CPCB). Of the total e-waste generated in the country, western India accounts for the largest population at 35%, while the southern, northern and eastern regions account for 30, 21 and 14%, respectively. The top states in order of highest contribution to waste electrical and electronic equipment (WEEE) include Maharashtra, Andhra Pradesh, Tamil Nadu, Uttar Pradesh, West Bengal, Delhi, Karnataka, Gujarat, Madhya Pradesh, and Punjab. The city-wise ranking of the largest WEEE generators is Mumbai, Delhi, Bengaluru, Chennai, Kolkatta, Ahmedabad, Hyderabad, Pune, Surat and Nagpur.

While northern India is not a leading generator, it happens to be the leading processing center of e-waste in the country. Over 1 million poor people in India are involved in manual recycling operations. Most of the people working in this recycling sector are the urban poor with very low literacy levels and hence very little awareness regarding the hazards of e-waste toxins. There is a sizeable number of women and children who are engaged in these activities and they are more vulnerable to the hazards of this waste.

The main sources of computer usage and thereby e-waste generations are the business sector (government departments, public or private sector, multinational corporation offices, etc.), accounting for 78% of the total installed PCs today. Other sources are individual households (22%), foreign embassies, PC manufacturing units, PC retailers, secondary markets of old PCs and imported electronic scrap of other countries.

The following three categories of WEEE account for almost 90% of the generation

Large household appliances: 42%



Information and communications technology equipment: 33.9 %



Consumer electronics: 13.7%. What is e-waste?

Electronic waste or e-waste is the term used to describe old, end-of-life electronic appliances such as computers, laptops, TVs, DVD players, mobile phones, mp3 players, etc., which have been disposed of by their original users.

E-waste has been categorized into three main categories, i.e., Large Household Appliances, IT and Telecom and Consumer Equipment. Refrigerator and washing machine represent large household appliances; PC, monitor, and laptop represent IT and Telecom, while TV represents Consumer Equipment.

Each of these e-waste items has been classified into 26 common components found in them. These components form the ‘building blocks’ of each item and therefore they are readily ‘identifiable’ and ‘removable.’ These components are metal, motor/ compressor, cooling, plastic, insulation, glass, LCD, rubber, wiring/electrical, concrete, transformer, magnetron, textile, circuit board, fluorescent lamp, incandescent lamp, heating element, thermostat, brominated flame retardant (BFR)-containing plastic, batteries, CFC/HCFC/HFC/HC, external electric cables, refractory ceramic fibers, radioactive substances and electrolyte capacitors (over L/D 25 mm).

The composition of WEEE/e-waste is very diverse and differs in products across different categories. It contains more than 1000 different substances, which fall under ‘hazardous’ and ‘non-hazardous’ categories. Broadly, it consists of ferrous and non-ferrous metals, plastics, glass, wood and plywood, printed circuit boards, concrete and ceramics, rubber and other items. Iron and steel constitute about 50% of the WEEE followed by plastics (21%), non-ferrous metals (13%) and other constituents. Non-ferrous metals consist of metals like copper, aluminum and precious metals, e.g. silver, gold, platinum, palladium, etc. The presence of elements like lead, mercury, arsenic, cadmium, selenium, and hexavalent chromium and flame retardants beyond threshold quantities in WEEE/e-waste classifies them as hazardous waste.

The electronic and electrical goods are largely classified under three major heads, as: ‘white goods,’ comprising of household appliances like air conditioners, dish washers, refrigerators, and washing machines; ‘brown goods,’ comprising of TVs, camcorders, cameras, etc.; ‘grey goods,’ like computers, printers, fax machines, scanners, etc. The grey goods are comparatively more complex to recycle due to their toxic composition. Health and environmental impact of e-waste

EEE is made of a multitude of components, some containing toxic substances that harm human health and the environment if not handled properly. Often, these hazards arise due to the improper recycling and disposal processes used. It can have serious repercussions for those in proximity to places where e-waste is recycled or burnt. Waste from white and brown goods is less toxic as compared with grey goods. A computer contains highly toxic chemicals like lead, cadmium, mercury, beryllium, BFR, polyvinyl chloride and phosphor compounds.

Environment and health hazards.

Lead exerts toxic effects on various systems in the body such as the central (organic affective syndrome) and peripheral nervous systems (motor neuropathy), the hemopoietic system (anemia), the genitourinary system (capable of causing damage to all parts of nephron) and the reproductive systems (male and female).

Mercury causes damage to the genitourinary system (tubular dysfunction), the central and peripheral nervous systems as well as the fetus. When inorganic mercury spreads out in the water, it is transformed into methylated mercury, which bio-accumulates in living organisms and concentrates through the food chain, particularly by fish.

Cadmium is a potentially long-term cumulative poison. Toxic cadmium compounds accumulate in the human body, especially in the kidneys. There is evidence of the role of cadmium and beryllium in carcinogenicity.

Polycyclic aromatic hydrocarbons (PAH) Affects lung, skin, and bladder. Epidemiological studies in the past on occupational exposure to PAH provide sufficient evidence of the role of PAH in the induction of skin and lung cancers. Existing legislation and policy related to e-waste

The E-waste (Management & Handling) Rules, 2016 have been notified on March 23, 2016. The new rules include Compact Fluorescent Lamp (CFL) and other mercury-containing lamps, as well as other such equipment. The Rules also brings the producers under Extended Producer Responsibility (EPR), along with targets

Organizations/networks working on e-waste issues in India

Knowledge bank for e-waste management in India The Asia Pro Eco program supported by the European Commission is dedicated to the environmental performance in Asian Economic sectors through the exchange of environmental policies, technologies, and practices and to promote sustainable investment and trade between the European Union Member States and South Asia, South-East Asia and China. The E-waste Guide, India An Initiative of the Indo–German-Swiss Partnership [Ministry of Environment and Forests, German Federal Ministry for Economic Cooperation and Development and Swiss State Secretariat for Economic Affairs] It is designed to serve as an information resource on e-waste as well as a common collaborative work platform for stakeholders. National Solid Waste Association of India (NSWAI) A leading professional non-profit organization in the field of solid-waste management, including toxic and hazardous waste and also biomedical waste in India. It was formed in 1996. Its objectives include the development of solid-waste management as a profession, research, and development, development of expertise, standards and goods practices with regards to solid-waste management. Some of the others include improvement in legislation and creating awareness and community involvement. Toxics Link A Delhi-based environment activist group with a mission of working for environmental justice and freedom from toxins. It is also actively involved in creating public awareness on environmental issues through publications, reports, articles, and environment news bulletins besides organizing various events.

Others are STEP Work web, WEEE Forum, Clean India, Indian Environmental Society, INDIA HABITAT CENTRE and Microbial Biotechnology Area of Tata Energy Research Institute.

Nowadays, the E-waste is increasing on a rapid rate as we're stepping in the new era of technology the risk of E-waste is also increasing and is a major issue for the climate change now let us see what is E-waste and how it can ruin or deplete our planet earth slowly and how our Government is fighting from it