Characterization of municipal solid waste based on seasonal variations,source and socio-economic aspects  被引量：2

作　　者：Venkata Ravi Sankar Cheela Sudha Goel Michele John Brajesh Dubey 

机构地区：[1]Environmental Engineering and Management,Department of Civil Engineering,Indian Institute of Technology Kharagpur,Kharagpur,West Bengal 721302,India [2]Sustainable Engineering Group,Curtin University,Perth,WA 6102,Australia

出　　处：《Waste Disposal and Sustainable Energy》2021年第4期275-288,共14页废弃物处置与可持续能源（英文）

基　　金：The project was financially supported(Code:SRIC/TOUR/AIR/17-18/3)by the Sponsored Research and Industrial Consultancy(SRIC),IIT Kharagpur,India for performing the field studies at Visakhapatnam.

摘　　要：Municipal solid waste(MSW)generation and characterization are the basic inputs for waste handling and treatment systems design.In present research,we performed waste characterization investigations in Visakhapatnam(India),using a waste characterization methodology by integrating two standard sampling and characterization approaches.The characterization methodology was designed by combining seasonal variations,source,and socio-economic stratifications.Source-based sampling was performed at household(s),dumpster(s),transfer station,and landfill.Socio-economic-based sampling was performed based on the zone classification of the city.Three sampling campaigns were conducted to identify the waste composition based on seasonal variations.Studies aimed to perform stratified characterization of waste and assess chemical characteristics of the mixed waste fractions to evaluate waste-to-energy potential.Results indicate that the amount of MSW generated in the city is 1250±100 tons/day,with a generation rate of 0.65 kg/capita/day.Based on source stratification,organic matter(45.5%±6.5%)is a major component followed by inert waste.The paper,plastic,and textile components amount to 25%of overall waste.From seasonal studies,organic matter was higher in pre-monsoon(42%)compared to winter(39%).The moisture content of MSW varied between 30%and 35%and volatile solids between 39%and 43%.The calorific value was determined to be between 5680-7110 kJ/kg.Outlined the limitations and potential errors associated with sampling and waste characterization.Biochemical and thermal conversion treatment alternatives for processing,treatment,and handling were discussed.The findings of this research would assist regulatory bodies and city councils to formulate policy directives on waste sampling,characterization,segregation,education,and awareness campaigns.

关 键 词：Municipal solid waste Waste characterization Source segregation SOCIO-ECONOMIC Seasonal variation WASTE-TO-ENERGY 

分 类 号：X705[环境科学与工程—环境工程]