Recycling Quick Read Aluminum producers and recyclers in the aluminum industry work with individuals, communities and businesses to enable both curbside and industrial recycling programs. UBC used beverage container recycling is the most readily recognized of the recycling programs.
An Essay On The E-Waste Article shared by Life, nowadays has become so fast and luxurious that we can not imagine it without the sophisticated electrical and electronic items.
This coupled with changing life styles with more disposable income in littering the urban scope with the digital detritus of the digital age called E-waste. E-waste is a generic term encompassing various forms of electrical and electronic equipment that may be old, might have reached end-of-life and most importantly cease to be of any value to their present owners and it has been identified as one of the fastest growing waste steams.
Other sources of a waste are consumer and lighting equipment, electrical and electronics tools, sophisticated toys, sports equipment, medical devices, monitoring and control instruments etc.
The residues of digital life are too many. Though disposed electronics are classified as waste, they are significant secondary resources due to their suitability for direct reuse, refurbishment and recycling. E-waste does not create visible mountains like municipal Recycling facts essay, nevertheless it is a very complex, non-biodegradable and toxic waste.
Electronic and electrical appliances consist of thousands of different parts made of hundreds of different substances including plastics, metals, glass as well as organic and inorganic compounds. Compounds such as brominates flame retardants, metals like lead, mercury, cadmium and chromium compounds found in these appliances are highly dangerous persistent organic pollutants that pose health and environment risks.
They bio-accumulate through the food-chain and the hazards are more acute in the event of incorrect disposal and inappropriate recycling techniques. Landfills used for waste disposal are prone to leaking and also lead to leaching of heavy metals and other toxins into the soil which may contaminate not only the soil but also the water table.
Mercury, cadmium and lead are among the most toxic lactates, e. Landfills are also prone to uncontrolled fires which can release toxic fumes. Disposal through incineration is also dangerous as the residual ash contains toxic metals.
Incorrect recycling process such as open air incineration, acid bath leaching are commonly used for recovery of precious metals from the e-waste. Irreparable damage is done to the environment during these processes when compared to the short term monetary gains.
The matters are not helped further by the fact that public at large remains unaware of their own toxic footprints and as part of its life-style replaces functional electronic gadgets with the latest model with impunity.
This lack of awareness is further aggravated by the lack of proper recycling facilities for e-waste in India. The e-waste recycled by the formal recyclers is done following environmentally sound practices which ensures that damage is minimized to the environment.
They also adopt processes so that the work force is not exposed to toxic and hazardous substances released while recycling the waste.
But they cannot match either the reach or the network of the informal recyclers used for sourcing of old electrical and electronics items from businesses as well as individual households. The final step after collection, segregation and dismantling is recycling.
Most of the processes used by the informal recyclers are manual using simple tools like hammers, screw drivers etc. Furthermore, these activities are carried out without wearing any protective wear like masks, gloves etc.
In the absence of suitable processes and protective measures, recycling e-waste results in toxic emission to the air, water, soil and poses a serious environmental and health hazard.
Thus, the challenges are multifold — environment and health related, lack of awareness amongst carious stakeholders including public at large, investment required for setting up of state of the art waste management facilities, monitoring and reporting of the e-waste generated setting up of centralized management reporting by item and most importantly reconciling technological development with sustainable development.
To tackle the problem of e-waste measures like sensitization of various stakeholders followed by putting in place the system to manage environmentally sound disposal of e-waste should be taken.Essay about recycling waste facts Essay and letter writing by lg alexander pdf versions hacking analysis essay essay about importance of physical education key geography coursework.
Find this Pin and more on Recycling Facts by Waste Connections of Memphis in Tennessee. About Martie Lownsberry. Martie Lownsberry lives in the United States, in the Northern lower peninsula of Michigan on a 7 ½ wooded lot just outside of a small town with the love of her life Vito, their two dogs, a number of Chinchillas, and at times some of their grown children.
- The Need for Recycling This essay has problems with the format People Need to Recycle In the United Sates, where the population is inflated every year. The amount of space for landfills decreases every day. Recycling 50 percent of the solid waste stream by the year (a difficult if not impossible proposition), for example, would still leave 95 million tons of garbage to be disposed of annually.
Plastic recycling industry's problems costing councils up to £, a year. Published: 20 Oct Plastic recycling industry's problems costing councils up to £, a year. Click to start our Recycling QUIZ: Why, how and what to recycle is a part of BSB's online Conservation education program.
A lot of schools are using our information but recycling facts .