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Waste managers are modern day alchemists! But, their work and the industry don't get deserved attention from the wider community! A...
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Original post on WTERT's blog can be accessed here . This is my first (re)post about waste management in India after starting be Waste ...
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As much as I am a fan of fundamental research, which is defined as "gathering knowledge for knowledge's sake", I would like t...
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Contents 1 The Hierarchy 2. Material Recovery: Recycling 3. Material Recovery: Aerobic Composting 1. The Hierarchy The Hierarchy of S...
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CONTENTS: 1. Per Capita Waste Generation 2. Quantity of Waste Generated 1. Per Capita Waste Generation Waste generation rate in Indi...
Waste-pickers can be seen at work in the landfills of almost all cities in India. They earn around Rs. 100 – 200 per day ($ 2 – 4) in cities like Mumbai and Delhi; their earnings are much lesser in other parts of the country. Waste-pickers work on tons of heaps of solid waste dumped by trucks every day before the heaps are aligned. The depth of these heaps before aligning (not compaction) can be assumed to be a little less than the average landfill depth of 6 - 10 m [9] [10], to be around 4 – 5 m. They work by foraging the top layers of these heaps of solid waste for paper, plastics, glass and metal. In most parts of the country, the waste which lies deeper in the bed is left untouched as waste-pickers leave after earning enough for the day, thus leaving huge amounts of recyclable waste to be landfilled. Sight of large amounts of paper and plastics in the decomposed material being mined in landfills is common (no experiments were done to analyze this claim). Informal rag-picking thus does not serve the entire cause of sustainable waste management. Open burning practiced by waste pickers to recover recyclable materials like metals leads to burning of rags, textiles, wood, decomposable matter, leather and rubber.
The Dharavi Project in the slums of Mumbai identified waste-pickers, educated them and employed them to achieve a high percentage of recycling of about 80% of dry waste
Waste to Energy Incineration is a proven mixed waste handling technology world over but with lesser success in countries like the US when compared to Europe and Japan due to different reasons, the most prevalent one being cheaper landfilling in the US due to larger land availability. But in the case of New York, New York pays just $60 per ton as a tipping fee for each of several million tons of trash it generates that are thermally treated at a WTE plant in Newark, NJ, while paying over $100 per ton to haul waste to remote landfills in South Carolina, Ohio, and elsewhere 14. The probability of WTE becoming economically cheaper than landfilling in India is less because of loosely implemented regulations. However, with an increasing middle class and increase in public health awareness, Waste to Energy will become an important part of Integrated Solid Waste Management in India as there always exists a fraction which can neither be composted nor recycled.
The greatest drawback for WTE in India is its bad track record.
A conveyor belt for feeding the RDF to boiler
Developed nations in Europe and elsewhere are way ahead in developing sustainable solutions to manage their wastes. These countries are using available resources in the best possible manner to handle wastes. Another developed country, US is following up. It is now time for India and other nations of the developing world to act responsibly towards global waste management. Of course, methods of implementing the solutions in these parts of the world will be different from those in the developed world. This is because the resource availability is different in high income and lower income nations and so are the composition of wastes. The methods however are not going to be very different as all nations are dealing with similar waste materials as a result of globalization.
At this point, India has a great need for sustainable solid waste management and is still experimenting with various options for urban wastes.
Glossary
CH4 Methane
CO2 Carbon Dioxide
GOI Government of India
INR Indian Rupee
JnNURM Jawaharlal Nehru National Urban Renewal Mission
LFG Landfill Gas
MBT Mechanical Biological Treatment
MSW Municipal Solid Waste
NEERI National Environmental Engineering Research Institute
RDF Refuse Derived Fuel
SLF Sanitary Landfill
SWM Solid Waste Management
USD United States Dollar
WPs Waste Pickers
WTE Waste-to-Energy
WTERT Waste-to-Energy Research and Technology Council