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Journal of Geoscience and Environment Protection

Journal of Geoscience and Environment Protection

Journal of Geoscience and Environment Protection

ISSN Print: 2327-4336
ISSN Online: 2327-4344
www.scirp.org/journal/gep
E-mail: gep@scirp.org
"Water-Energy-Food Nexus: A Coupled Simulation and Optimization Framework"
written by Ali Karnib,
published by Journal of Geoscience and Environment Protection, Vol.5 No.4, 2017
has been cited by the following article(s):
  • Google Scholar
  • CrossRef
[1] Collaborative management of water‐energy‐food‐ecosystems nexus in Central Asia under uncertainty
Water Resources …, 2024
[2] Analysis of Pros and Cons in Using the Water–Energy–Food Nexus Approach to Assess Resource Security: A Review
Sustainability, 2024
[3] Trustworthy and Causal Artificial Intelligence in Environmental Decision Making
2024
[4] Optimization of economic return from water using water-energy-food nexus approach: A case of Karnafuli Basin, Bangladesh
Energy Nexus, 2023
[5] Process systems engineering tools for the water–energy–food nexus: challenges and opportunities
Márquez, JM Ponce-Ortega - Current Opinion in Chemical …, 2023
[6] Water, Energy, and Environment NEXUS Assessment in Combined Thermal-Solar Power Plant (Case Study: Zarand Power Plant)
Iranian Energy …, 2022
[7] Input-Output Multiobjective Optimization Approach for Food-Energy-Water Nexus.
ICINCO, 2022
[8] Quantifying and analysing water trade-offs in the water-energy-food nexus: The case of Ghana
Water-Energy …, 2022
[9] The Contribution of Input-Output Multi-Objective Optimization Model of Sustainable Consumption and Production in Food-Energy-Water Nexus
2022
[10] Assessment of the water-energy-food nexus under spatial and social complexities: A case study of Guangdong-Hong Kong-Macao
Journal of …, 2021
[11] Evaluation of water-energy-food nexus in agricultural products of Dehgolan County
Environmental …, 2021
[12] A trustworthy human–machine framework for collective decision making in food–energy–water management: The role of trust sensitivity
2021
[13] Water-Energy Nexus-Based Economic Optimization of Water Supply Projects
2021
[14] Energy, Water, Food Nexus Decision-Making for Sustainable Food Security
2021
[15] Optimization-Based Systems Modeling for the Food-Energy-Water Nexus
2021
[16] Strategic decision-support modeling for robust management of the food–energy–water nexus under uncertainty
2021
[17] Towards supporting cohesive decision making across water, energy and food through understanding challenges in Malawi
2020
[18] Sustainable food security decision-making: an agent-based modelling approach.
2020
[19] Technology-oriented approach to quantitative assessment of water–energy–food nexus
2020
[20] Application of water-energy-food nexus approach for designating optimal agricultural management pattern at a watershed scale
2020
[21] Optimal design of the water-energy-food nexus for rural communities
2020
[22] Security Interactions of Food, Water, and Energy Systems: A Stochastic Modeling
2020
[23] A Multiobjective Optimisation Approach for Sustainable Resource Consumption and Production in Food-Energy-Water Nexus
2019
[24] Stochastic multi-objective modeling for optimization of water-food-energy nexus of irrigated agriculture
2019
[25] Optimization of agricultural water–food–energy nexus in a random environment: an integrated modelling approach
Stochastic Environmental Research and Risk Assessment, 2019
[26] Sustainable energy, water and food nexus systems: A focused review of decision-making tools for efficient resource management and governance
2019
[27] A review of the water–energy–food nexus measurement and management approach
International Journal of Energy and Water Resources, 2019
[28] Sustainable Decision-Making for Efficient Resource Management: A Food Security Case Study
2019
[29] Quantifying and evaluating the impacts of cooperation in transboundary river basins on the Water-Energy-Food nexus: The Blue Nile Basin
Science of The Total Environment, 2018
[30] Bridging Science and Policy in Water-Energy-Food Nexus: Using the Q-Nexus Model for Informing Policy Making
Water Resources Management, 2018
[31] Integrated techno-economic optimization for the design and operations of energy, water and food nexus systems constrained as non-cooperative games
Computer Aided Chemical Engineering, 2018
[32] Vulnerability of groundwater to pollution using three different models inHalabja Saidsadiq basin, Iraq
2017
[33] Mapping the direct and indirect interlinkages across the sustainable development goals: A qualitative nexus approach
2017
[34] Water, energy and food nexus: The Q-Nexus model
2017
[35] A Quantitative Nexus Approach to Analyze the Interlinkages across the Sustainable Development Goals
2017
[36] Quantitative nexus approach to analyze the interlinkages across the sustainable development goals
2017
[37] Charalampos Avraam, Ying Zhang, Sriram Sankaranarayanan, Benjamin Zaitchik, Emma Moynihan, Prathibha
[38] A hybrid decision-making framework for optimal resource allocation in the Food-Energy-Water NEXUS
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