Multi-stage optimization approach for sustainable municipal solid waste collection systems in urban areas of Asia’s newly industrialized countries

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Authors

  • Moni Mohan Mondal
  • Christopher Josef Speier
  • Dirk Weichgrebe

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Details

Original languageEnglish
Pages (from-to)536-553
Number of pages18
JournalEnvironmental management
Volume63
Issue number4
Early online date11 Dec 2018
Publication statusPublished - 1 Apr 2019

Abstract

A multi-stage optimization approach for sustainable collection system design for urban municipal solid waste is developed for megacities in Asia’s newly industrialized countries. The approach combines four methods—analysis of waste and area characteristics, data acquisition and evaluation by GIS, mathematical projection of existing and future collection systems, and identification of most suitable alternatives through comparative multi-criteria decision analysis (MCDA). The approach is applied in Bangalore, India with 1.66 million inhabitants and 46.7-km 2 area of investigation, and stratified based on population density. Two possible collection mechanisms (door-to-door (D2D) and community bin (CB)) are analyzed with a varied combination of collection coverage and waste segregation level. The study results confirm that both operational and investment expenses of the collection system decrease with an increasing rate of CB collection. Moreover, overall CO 2 emissions of waste collection from the entire area of investigation decrease from 5.2 to 3.1 tons per day if the present 100% D2D collection is replaced with 100% CB collection system. Also, the increase of segregation at source contributes to the reduction of operational expenses and CO 2 emissions; for example, a 20% increase of segregation level for D2D collection system leads to a 6% reduction of CO 2 emissions. Considering all decision parameters through MCDA, a collection system comprising only CB with one separate compartment for wet waste and another combined compartment for dry and mixed waste is determined to be the most favorable approach.

Keywords

    Multi-criteria decision analysis, Municipal solid waste, Newly industrialized countries, Waste collection

ASJC Scopus subject areas

Sustainable Development Goals

Cite this

Multi-stage optimization approach for sustainable municipal solid waste collection systems in urban areas of Asia’s newly industrialized countries. / Mondal, Moni Mohan; Speier, Christopher Josef; Weichgrebe, Dirk.
In: Environmental management, Vol. 63, No. 4, 01.04.2019, p. 536-553.

Research output: Contribution to journalArticleResearchpeer review

Mondal MM, Speier CJ, Weichgrebe D. Multi-stage optimization approach for sustainable municipal solid waste collection systems in urban areas of Asia’s newly industrialized countries. Environmental management. 2019 Apr 1;63(4):536-553. Epub 2018 Dec 11. doi: 10.1007/s00267-018-1130-6
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title = "Multi-stage optimization approach for sustainable municipal solid waste collection systems in urban areas of Asia{\textquoteright}s newly industrialized countries",
abstract = " A multi-stage optimization approach for sustainable collection system design for urban municipal solid waste is developed for megacities in Asia{\textquoteright}s newly industrialized countries. The approach combines four methods—analysis of waste and area characteristics, data acquisition and evaluation by GIS, mathematical projection of existing and future collection systems, and identification of most suitable alternatives through comparative multi-criteria decision analysis (MCDA). The approach is applied in Bangalore, India with 1.66 million inhabitants and 46.7-km 2 area of investigation, and stratified based on population density. Two possible collection mechanisms (door-to-door (D2D) and community bin (CB)) are analyzed with a varied combination of collection coverage and waste segregation level. The study results confirm that both operational and investment expenses of the collection system decrease with an increasing rate of CB collection. Moreover, overall CO 2 emissions of waste collection from the entire area of investigation decrease from 5.2 to 3.1 tons per day if the present 100% D2D collection is replaced with 100% CB collection system. Also, the increase of segregation at source contributes to the reduction of operational expenses and CO 2 emissions; for example, a 20% increase of segregation level for D2D collection system leads to a 6% reduction of CO 2 emissions. Considering all decision parameters through MCDA, a collection system comprising only CB with one separate compartment for wet waste and another combined compartment for dry and mixed waste is determined to be the most favorable approach. ",
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N1 - Funding information: The authors express their sincere gratitude to ELCITA and The Forward Foundation which supported this work and helped on ground in Bangalore as well as contributed with their experiences and knowledge to collect data. Grateful to the Mayor, Commissioner, officials, and all the workers of BBMP who helped in conducting this study successfully.

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