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Waste-to-energy technology aligns with global zero waste targets<br>Offers a solution for non-recyclable materials while producing clean energy<br>A critical pillar of sustainable waste management strategies<br>Combined with recycling and reduction efforts, it leads to greener cities<br>
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Introduction • Growing urban waste and limited landfill space demand new solutions • Waste-to-energy technology converts non-recyclable waste into electricity or heat • Supports cities and industries in minimizing landfill dependency • Plays a vital role in circular economy and zero waste strategies
How Waste-to-Energy Technology Works • Waste incineration, gasification, or pyrolysis generate usable energy • Energy is fed into local grids, reducing fossil fuel dependence • Reduces methane emissions from decomposing organic waste • Residual ash is minimized and can be reused in construction
Global Adoption and Benefits • Adopted in EU, Japan, and North America as part of climate action • Creates jobs and energy revenue from waste management operations • Reduces volume of municipal solid waste by up to 90% • Helps meet climate goals while managing urban waste responsibly
conclusion • Waste-to-energy technology aligns with global zero waste targets • Offers a solution for non-recyclable materials while producing clean energy • A critical pillar of sustainable waste management strategies • Combined with recycling and reduction efforts, it leads to greener cities
