Modeling and Optimal Planning of an Energy–Water–Carbon Nexus System for Sustainable Development of Local Communities

Mehrjerdi, Hasan; Aljabery, Ahmed A. M.

doi:10.1002/adsu.202100024

Cited by 18 publications

(2 citation statements)

References 26 publications

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“…Income Generation: The COVID-19-related restrictions have created adversities for daily-wage earners. While many countries have already launched initial recovery measures, a certain Reduce air pollution Ev-2 [28,29,32,33] Protect and conserve biodiversity Ev-3 [34][35][36] Public health Improve water quality Ph-1 [37][38][39] Sustainable waste management Ph-2 [9,[40][41][42] Safe sanitation Ph-3 [14,43,44] Energy…”

Section: Economicmentioning

confidence: 99%

Smarter and Greener Cities After COVID‐19: An Integrated Decision‐Making Framework to Prioritize Investment Alternatives

Cheng

Shah

2022

Advanced Sustainable Systems

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Locking down cities to curb the transmission of coronavirus brought the global economy to a grinding halt. Cities are like engines of growth; when they stop, so does the growth. Therefore, it becomes paramount to build cities that continue to function and do not collapse amidst any crisis. Since economic recovery is underway, this paper examines priority areas for investment to expedite recovery and build back stronger cities. These areas are evaluated based on their contribution to revitalizing public health, economic, social, energy, and environmental sectors. For the analysis, analytical network process (ANP) and fuzzy‐VIKOR are applied. ANP obtains the relative importance of sectors and their respective critical factors after solving a complex relationship among them. The economic sector has the highest weight of 25.8% among the five sectors, while job creation has the highest weight of 10.3% among the fifteen factors. Fuzzy‐VIKOR is used to evaluate different areas and it is found that renewable energy has a greater contribution to the sustainable recovery of major sectors and the long‐term aim of building inclusive green and resilient cities. These insights shall contribute to the conversations already ongoing among city governments, urban planners, civil society organizations, and city dwellers seeking practical solutions to unprecedented challenges posed by the pandemic.

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Section: Economicmentioning

confidence: 99%

Smarter and Greener Cities After COVID‐19: An Integrated Decision‐Making Framework to Prioritize Investment Alternatives

Cheng

Shah

2022

Advanced Sustainable Systems

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“…This matter conflicts with SDG 7 and SDG 13, which necessitate access to clean and affordable energy and environmental protection. Recently, renewable energy resources have been proposed and studied for use as the main power supply for desalination (Mehrjerdi & Aljabery, 2021). The application of renewable resources for water desalination will yield the eco‐friendly water access goal in compliance with SDG 7 and SDG 13 (Eltawil et al, 2009; Stuart, 2006).…”

Section: Introductionmentioning

confidence: 99%

Tri‐objective optimization of a synergistic wind‐photovoltaic plant for water desalination addressing sustainable development goals

Saboori

Mehrjerdi

2022

Sustainable Development

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The sixth goal of the Sustainable Development Goals (SDGs) announced by the United Nations addresses water and sanitation; its first target is providing safe and affordable drinking water. Water desalination is introduced as a viable alternative considering the present situation of the water resources and their consumption and pollution. However, desalination processes' high energy intensity conflicts with energy and climate-related SDGs. Correspondingly, the first target of SGD 6 can be translated to an affordable, eco-friendly, and reliable water desalination. However, these objectives are conflicting considering the current status of desalination.Accordingly, this article proposes a novel multi-objective model by quantifying the interweaved sustainable development goals for water desalination. To this end, a tri-objective mixed-integer linear model is developed to compromise the abovementioned goals, that is, water production cost, supply reliability, and carbon emission. The proposed water desalination system is fed by a combined wind-photovoltaic-diesel system, employs power and water storage, and seeks a trade-off solution based on the planner's preferences. The model is flexible in terms of the degree of achievement of each goal. A detailed analysis is performed, enabling the decisionmaker to comprehend the goals interlinkage based on the degree of achievements and deterioration concerning the other goals.

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A Water-Energy-Carbon Nexus Approach for the Optimal Design and Configuration of Green Roofs and Photovoltaic Systems

Peña-Muñoz,

Arreola-Villa,

Estrada-Baltazar

et al. 2024

Process Integr Optim Sustain

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Modeling and Optimal Planning of an Energy–Water–Carbon Nexus System for Sustainable Development of Local Communities

Cited by 18 publications

References 26 publications

Smarter and Greener Cities After COVID‐19: An Integrated Decision‐Making Framework to Prioritize Investment Alternatives

Smarter and Greener Cities After COVID‐19: An Integrated Decision‐Making Framework to Prioritize Investment Alternatives

Tri‐objective optimization of a synergistic wind‐photovoltaic plant for water desalination addressing sustainable development goals

A Water-Energy-Carbon Nexus Approach for the Optimal Design and Configuration of Green Roofs and Photovoltaic Systems

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