A multiobjective optimization framework for sustainable design of municipal solid waste processing pathways to energy and materials

Summary A large quantity of municipal solid waste (MSW) is generated worldwide, and its effective management is a major problem in urban areas or particularly the areas where waste is dumped. Numerous technological alternatives are available for waste treatment, each with different costs and environ...

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Published inInternational journal of energy research Vol. 44; no. 2; pp. 771 - 783
Main Authors Rizwan, Muhammad, Saif, Yousef, Almansoori, Ali, Elkamel, Ali
Format Journal Article
LanguageEnglish
Published Bognor Regis John Wiley & Sons, Inc 01.02.2020
Subjects
Design optimization
Ecological footprint
Economic analysis
Economic benefits
Economics
Emissions control
Energy management
environmental analysis
Environmental aspects
Environmental impact
Environmental management
Environmental objective
Frameworks
Greenhouse effect
Greenhouse gases
multiobjective optimization
Multiple objective analysis
Municipal solid waste
Municipal waste management
Nonlinear programming
Optimization
Solid waste management
Superstructures
Sustainability
Sustainability management
Sustainable design
sustainable management
Sustainable waste management
Urban areas
Waste disposal
Waste management
Waste management industry
Waste treatment
Online AccessGet full text
ISSN0363-907X
1099-114X
DOI10.1002/er.4884

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Abstract Summary A large quantity of municipal solid waste (MSW) is generated worldwide, and its effective management is a major problem in urban areas or particularly the areas where waste is dumped. Numerous technological alternatives are available for waste treatment, each with different costs and environmental footprints. For sustainable waste management, both economic and environmental aspects should be considered. Therefore, this study addresses the systematic design of processing routes for the sustainable management and utilization of MSW under economic and environmental criteria. To address this, a generic superstructure‐based multiobjective optimization framework is developed. MSW superstructure composes of the potential processing routes for the waste management where MSW can be utilized for energy generation and other valuable waste‐based products. On the basis of superstructure, we develop a multiobjective mixed‐integer nonlinear programming (MINLP) model that simultaneously maximizes the net profit and minimizes the greenhouse gas (GHG) emissions. The developed optimization model is coded and solved in GAMS to determine the optimal most promising routes for the sustainable processing of MSW. A case of the Emirate of Abu Dhabi is employed to test the applicability of the developed framework. The optimization results emphasize that pathway 2 shows a decent trade‐off between economic and environmental objectives, whereas the two most environmentally sustainable processing pathways have the potential to reduce GHG emissions by 58% and 80%, compared with business as usual (BAU) scenario, and also possess potential economic benefits. The insights gained from this analysis guide the municipality planners to devise a promising and sustainable waste management strategy. A generic multiobjective optimization framework is developed by integrating techno‐economic analysis with life cycle assessment (LCA), for the sustainable design of MSW processing pathways to energy and useful products. The developed optimization model identifies the optimal or promising processing routes for the sustainable management and utilization of MSW under both economic and environmental criteria. The multiobjective optimization framework is generic in formulation and, therefore, can be implemented to any municipality subject to availability of the required data.
AbstractList Summary A large quantity of municipal solid waste (MSW) is generated worldwide, and its effective management is a major problem in urban areas or particularly the areas where waste is dumped. Numerous technological alternatives are available for waste treatment, each with different costs and environmental footprints. For sustainable waste management, both economic and environmental aspects should be considered. Therefore, this study addresses the systematic design of processing routes for the sustainable management and utilization of MSW under economic and environmental criteria. To address this, a generic superstructure‐based multiobjective optimization framework is developed. MSW superstructure composes of the potential processing routes for the waste management where MSW can be utilized for energy generation and other valuable waste‐based products. On the basis of superstructure, we develop a multiobjective mixed‐integer nonlinear programming (MINLP) model that simultaneously maximizes the net profit and minimizes the greenhouse gas (GHG) emissions. The developed optimization model is coded and solved in GAMS to determine the optimal most promising routes for the sustainable processing of MSW. A case of the Emirate of Abu Dhabi is employed to test the applicability of the developed framework. The optimization results emphasize that pathway 2 shows a decent trade‐off between economic and environmental objectives, whereas the two most environmentally sustainable processing pathways have the potential to reduce GHG emissions by 58% and 80%, compared with business as usual (BAU) scenario, and also possess potential economic benefits. The insights gained from this analysis guide the municipality planners to devise a promising and sustainable waste management strategy. A generic multiobjective optimization framework is developed by integrating techno‐economic analysis with life cycle assessment (LCA), for the sustainable design of MSW processing pathways to energy and useful products. The developed optimization model identifies the optimal or promising processing routes for the sustainable management and utilization of MSW under both economic and environmental criteria. The multiobjective optimization framework is generic in formulation and, therefore, can be implemented to any municipality subject to availability of the required data.
A large quantity of municipal solid waste (MSW) is generated worldwide, and its effective management is a major problem in urban areas or particularly the areas where waste is dumped. Numerous technological alternatives are available for waste treatment, each with different costs and environmental footprints. For sustainable waste management, both economic and environmental aspects should be considered. Therefore, this study addresses the systematic design of processing routes for the sustainable management and utilization of MSW under economic and environmental criteria. To address this, a generic superstructure‐based multiobjective optimization framework is developed. MSW superstructure composes of the potential processing routes for the waste management where MSW can be utilized for energy generation and other valuable waste‐based products. On the basis of superstructure, we develop a multiobjective mixed‐integer nonlinear programming (MINLP) model that simultaneously maximizes the net profit and minimizes the greenhouse gas (GHG) emissions. The developed optimization model is coded and solved in GAMS to determine the optimal most promising routes for the sustainable processing of MSW. A case of the Emirate of Abu Dhabi is employed to test the applicability of the developed framework. The optimization results emphasize that pathway 2 shows a decent trade‐off between economic and environmental objectives, whereas the two most environmentally sustainable processing pathways have the potential to reduce GHG emissions by 58% and 80%, compared with business as usual (BAU) scenario, and also possess potential economic benefits. The insights gained from this analysis guide the municipality planners to devise a promising and sustainable waste management strategy.
Author Rizwan, Muhammad
Elkamel, Ali
Saif, Yousef
Almansoori, Ali
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Snippet Summary A large quantity of municipal solid waste (MSW) is generated worldwide, and its effective management is a major problem in urban areas or particularly...
A large quantity of municipal solid waste (MSW) is generated worldwide, and its effective management is a major problem in urban areas or particularly the...
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SubjectTerms Design optimization
Ecological footprint
Economic analysis
Economic benefits
Economics
Emissions control
Energy management
environmental analysis
Environmental aspects
Environmental impact
Environmental management
Environmental objective
Frameworks
Greenhouse effect
Greenhouse gases
multiobjective optimization
Multiple objective analysis
Municipal solid waste
Municipal waste management
Nonlinear programming
Optimization
Solid waste management
Superstructures
Sustainability
Sustainability management
Sustainable design
sustainable management
Sustainable waste management
Urban areas
Waste disposal
Waste management
Waste management industry
Waste treatment
Title A multiobjective optimization framework for sustainable design of municipal solid waste processing pathways to energy and materials
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fer.4884
https://www.proquest.com/docview/2344101909
Volume 44
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