The informal sector in India processes more than 90% of e-waste, using rudimentary techniques and unskilled workers. In contravention of the E-waste (Management and Handling) Rules 2011, a large number of informal units are carrying out the processing of e-wastes in Delhi. This paper analyses...
The recent practices of e-waste management in India experience a number of drawbacks like the complexity in unhealthy conditions of familiar recycling, inadequate legislation, poor awareness, and disinclination on part of the corporate to address the critical issues. The consequences are that toxic mat...
Following 16 years, India's Government has redesigned the Solid Waste Management Rules to deal with an enormous waste stack. Regardless, its utilization remains far dependent on what was picked. In such a way, Environment Protection Act, 1986 (EPA), should be received and execute; the ...
Further, a matrix method has been utilised to complement the "wasteaware" benchmark indicators in evaluating the existing techniques. From the results, it was observed that the collection efficiency in the study area is good categorised as M/H, while transportation, disposal and recycling ...
In the wave of global e-waste migration, the problem of e-waste management in developing countries and underdeveloped areas has become the focus of academi... H Yang,S Zhang - 《Energy & Environment》 被引量: 0发表: 2024年 E-Waste: A Global Hazard and Management Techniques the description...
The waste management category is anticipated to witness growth at a CAGR of 5.4% from 2023 to 2030. In 2022, Asia Pacific held a substantial share of the global category, followed by North America and Europe
E-waste Management Market by Equipment [Small, Large, Temperature, Screen, IT], Method [Recycling, Dispose/Trash], Waste Source [Household, Industrial, Telecom, Medical, Consumer], Material [Metal (Ferrous, Non Ferrous), Plastic] - Forecast to 2025
Also, India’s National Solid Waste Policy (NSWP), enacted in 2010, and New Zealand’s Local Government Act Amendment No. 4, enacted in 1996, define a mandatory waste management hierarchy [16,27]. Although the waste hierarchy principle has been around for about 40 years, its link to the...
In addition, the various plastic waste management strategies and their environmental benefits have been discussed. It has been concluded that among the six plastic waste management techniques (landfills, recycling, pyrolysis, liquefaction, road construction and tar, and concrete production), road ...
Recycling and reusing are also becoming a widely followed waste management techniques in developed and developing nations [43]. Thermochemical processes for the treatment of waste, such as pyrolysis [44], gasification [45], etc., are being employed for the conversion of MSW to bio-oil, syngas ...