An optimal resource recovery of biogas, water regeneration, and reuse network integrating domestic and industrial sources

The concept of circular economy has received much attention due to growing global concern on resource depletion and environmental protection. There are studies to minimize freshwater reduction via mathematical modelling methods. However, study to explore possibilities of combining both domestic and...

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Published inJournal of cleaner production Vol. 286; p. 125372
Main Authors Misrol, Mohd Arif, Wan Alwi, Sharifah Rafidah, Lim, Jeng Shiun, Manan, Zainuddin Abd
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.03.2021
Subjects
Biogas
case studies
chemical oxygen demand
circular economy
environmental protection
freshwater
Industrial symbiosis
industrial wastewater
market prices
mass
mathematical models
mixers
nanofiltration
nitrogen
Optimization
phosphorus
Resource recovery
supply
total dissolved solids
total suspended solids
Water integration
Water network
water utilities
Resource recovery
Biogas
Water network
Water integration
Optimization
Industrial symbiosis
Online AccessGet full text
ISSN0959-6526
1879-1786
DOI10.1016/j.jclepro.2020.125372

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Abstract The concept of circular economy has received much attention due to growing global concern on resource depletion and environmental protection. There are studies to minimize freshwater reduction via mathematical modelling methods. However, study to explore possibilities of combining both domestic and industrial wastewater regeneration, reuse, and resource recovery in a centralized facility is yet to be made. This study develops a non-linear programming (NLP) model that could optimize water regeneration and reuse network, as well as biogas generation from the selected wastewater streams. The main objective is to maximize profit from the network established. A superstructure that consists of sources, regeneration units, outsourced water, freshwater, mixers-demands, and biogas systems is developed. The sources are from domestic and industrial wastewaters. A combination of the sources, regenerated sources, outsource water, and freshwater is performed in the mixers, subject to the demands’ flowrate and contaminant properties, namely Chemical Oxygen Demand (COD), Total Dissolved Solids (TDS), Total Suspended Solid (TSS), Nitrogen (N), and Phosphorus (P). The formulations also incorporate the techno-economic elements such as mass balance and equipment cost. The processing fee and selling price items are also introduced in the model to ensure that the participants (the sources providers, the centralized water utility facility provider, and the demands) obtain benefits from the integration works. The case study results show that the reused water can be mixed with the freshwater for the boiler feed water and cooling water application with a total supply of 656 m3/h. Connection cost and nanofiltration (NF) cost contribute in a relatively large portion of the annual cost. The selling price of the supplied water is the most important factor that determines the overall systems’ economics compared to other items. The annual profit obtained is USD 1,015,784 and the payback period obtained is 3.13 years. Total freshwater consumption is reduced by 34%. This model provides insights on how both domestic and industrial wastewaters can be symbiotically integrated in a centralized facility. [Display omitted] •A mathematical model to optimize biogas and water network is developed.•The main sources consist of domestic and industrial wastewaters.•The model considers techno-economic items, including the demand’s water quality.•34% of freshwater reduction plus revenue generation from the recovered resources.•The result provides insights on how the sources can be symbiotically integrated.
AbstractList The concept of circular economy has received much attention due to growing global concern on resource depletion and environmental protection. There are studies to minimize freshwater reduction via mathematical modelling methods. However, study to explore possibilities of combining both domestic and industrial wastewater regeneration, reuse, and resource recovery in a centralized facility is yet to be made. This study develops a non-linear programming (NLP) model that could optimize water regeneration and reuse network, as well as biogas generation from the selected wastewater streams. The main objective is to maximize profit from the network established. A superstructure that consists of sources, regeneration units, outsourced water, freshwater, mixers-demands, and biogas systems is developed. The sources are from domestic and industrial wastewaters. A combination of the sources, regenerated sources, outsource water, and freshwater is performed in the mixers, subject to the demands’ flowrate and contaminant properties, namely Chemical Oxygen Demand (COD), Total Dissolved Solids (TDS), Total Suspended Solid (TSS), Nitrogen (N), and Phosphorus (P). The formulations also incorporate the techno-economic elements such as mass balance and equipment cost. The processing fee and selling price items are also introduced in the model to ensure that the participants (the sources providers, the centralized water utility facility provider, and the demands) obtain benefits from the integration works. The case study results show that the reused water can be mixed with the freshwater for the boiler feed water and cooling water application with a total supply of 656 m³/h. Connection cost and nanofiltration (NF) cost contribute in a relatively large portion of the annual cost. The selling price of the supplied water is the most important factor that determines the overall systems’ economics compared to other items. The annual profit obtained is USD 1,015,784 and the payback period obtained is 3.13 years. Total freshwater consumption is reduced by 34%. This model provides insights on how both domestic and industrial wastewaters can be symbiotically integrated in a centralized facility.
The concept of circular economy has received much attention due to growing global concern on resource depletion and environmental protection. There are studies to minimize freshwater reduction via mathematical modelling methods. However, study to explore possibilities of combining both domestic and industrial wastewater regeneration, reuse, and resource recovery in a centralized facility is yet to be made. This study develops a non-linear programming (NLP) model that could optimize water regeneration and reuse network, as well as biogas generation from the selected wastewater streams. The main objective is to maximize profit from the network established. A superstructure that consists of sources, regeneration units, outsourced water, freshwater, mixers-demands, and biogas systems is developed. The sources are from domestic and industrial wastewaters. A combination of the sources, regenerated sources, outsource water, and freshwater is performed in the mixers, subject to the demands’ flowrate and contaminant properties, namely Chemical Oxygen Demand (COD), Total Dissolved Solids (TDS), Total Suspended Solid (TSS), Nitrogen (N), and Phosphorus (P). The formulations also incorporate the techno-economic elements such as mass balance and equipment cost. The processing fee and selling price items are also introduced in the model to ensure that the participants (the sources providers, the centralized water utility facility provider, and the demands) obtain benefits from the integration works. The case study results show that the reused water can be mixed with the freshwater for the boiler feed water and cooling water application with a total supply of 656 m3/h. Connection cost and nanofiltration (NF) cost contribute in a relatively large portion of the annual cost. The selling price of the supplied water is the most important factor that determines the overall systems’ economics compared to other items. The annual profit obtained is USD 1,015,784 and the payback period obtained is 3.13 years. Total freshwater consumption is reduced by 34%. This model provides insights on how both domestic and industrial wastewaters can be symbiotically integrated in a centralized facility. [Display omitted] •A mathematical model to optimize biogas and water network is developed.•The main sources consist of domestic and industrial wastewaters.•The model considers techno-economic items, including the demand’s water quality.•34% of freshwater reduction plus revenue generation from the recovered resources.•The result provides insights on how the sources can be symbiotically integrated.
ArticleNumber 125372
Author Misrol, Mohd Arif
Manan, Zainuddin Abd
Lim, Jeng Shiun
Wan Alwi, Sharifah Rafidah
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Keywords Resource recovery
Biogas
Water network
Water integration
Optimization
Industrial symbiosis
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Snippet The concept of circular economy has received much attention due to growing global concern on resource depletion and environmental protection. There are studies...
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SubjectTerms Biogas
case studies
chemical oxygen demand
circular economy
environmental protection
freshwater
Industrial symbiosis
industrial wastewater
market prices
mass
mathematical models
mixers
nanofiltration
nitrogen
Optimization
phosphorus
Resource recovery
supply
total dissolved solids
total suspended solids
Water integration
Water network
water utilities
Title An optimal resource recovery of biogas, water regeneration, and reuse network integrating domestic and industrial sources
URI https://dx.doi.org/10.1016/j.jclepro.2020.125372
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