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Page 1 WASTE TO ENERGY Page 2 WASTE TO ENERGY INTRODUCTION Urban India currently produces around 1.5 lakh tonnes of municipal solid waste (MSW) every day. Of this, only about 25% is processed, i.e, recycled, composted or converted into biogas or electricity. The remainder finds its way into dump sites or is burned in open areas. Because of increasing population and affluence, MSW generation is estimated to reach a staggering 4.5 lakh tonnes per day by 2030. Page 3 WASTE TO ENERGY INTRODUCTION Urban India currently produces around 1.5 lakh tonnes of municipal solid waste (MSW) every day. Of this, only about 25% is processed, i.e, recycled, composted or converted into biogas or electricity. The remainder finds its way into dump sites or is burned in open areas. Because of increasing population and affluence, MSW generation is estimated to reach a staggering 4.5 lakh tonnes per day by 2030. INTRODUCTION A waste-to-energy - or energy-from-waste - plant converts municipal and industrial solid waste into electricity and/or heat for industrial processing and for district heating systems – an ecologically sound, cost-effective means of energy recovery. The energy plant works by burning waste at high temperatures and using the heat to make steam. The steam then drives a turbine that creates electricity. Page 4 WASTE TO ENERGY INTRODUCTION Urban India currently produces around 1.5 lakh tonnes of municipal solid waste (MSW) every day. Of this, only about 25% is processed, i.e, recycled, composted or converted into biogas or electricity. The remainder finds its way into dump sites or is burned in open areas. Because of increasing population and affluence, MSW generation is estimated to reach a staggering 4.5 lakh tonnes per day by 2030. INTRODUCTION A waste-to-energy - or energy-from-waste - plant converts municipal and industrial solid waste into electricity and/or heat for industrial processing and for district heating systems – an ecologically sound, cost-effective means of energy recovery. The energy plant works by burning waste at high temperatures and using the heat to make steam. The steam then drives a turbine that creates electricity. INTRODUCTION The logic put forth to support this technology is that instead of spending time and resources in segregating waste, the best way is to collect unsegregated waste and process them in WTE plants using incineration, pyrolysis, etc to produce electricity or oil. Page 5 WASTE TO ENERGY INTRODUCTION Urban India currently produces around 1.5 lakh tonnes of municipal solid waste (MSW) every day. Of this, only about 25% is processed, i.e, recycled, composted or converted into biogas or electricity. The remainder finds its way into dump sites or is burned in open areas. Because of increasing population and affluence, MSW generation is estimated to reach a staggering 4.5 lakh tonnes per day by 2030. INTRODUCTION A waste-to-energy - or energy-from-waste - plant converts municipal and industrial solid waste into electricity and/or heat for industrial processing and for district heating systems – an ecologically sound, cost-effective means of energy recovery. The energy plant works by burning waste at high temperatures and using the heat to make steam. The steam then drives a turbine that creates electricity. INTRODUCTION The logic put forth to support this technology is that instead of spending time and resources in segregating waste, the best way is to collect unsegregated waste and process them in WTE plants using incineration, pyrolysis, etc to produce electricity or oil. TECHNIQUES Incineration uses MSW as a fuel, burning it with high volumes of air to form carbon dioxide and heat to make steam, which is then used to generate electricity. Biomethanation is a process by which organic material is microbiologically converted under anaerobic conditions to biogas. It involves fermenting bacteria, organic acid oxidizing bacteria, and methanogenic archaea.Read More
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