"A Quantitative Assessment Framework for Water, Energy and Food Nexus"
written by Ali Karnib,
published by Computational Water, Energy, and Environmental Engineering, Vol.6 No.1, 2017
has been cited by the following article(s):
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[2] Water-Energy-Food nexus evaluation with a social network group decision making approach based on hesitant fuzzy preference relations
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[3] Development of an input-output model for food-energy-water nexus in the pacific northwest, USA
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[4] Using Bayesian networks to evaluate how agricultural water distribution systems handle the water-food-energy nexus
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[5] A review of the water-related energy consumption of the food system in nexus studies
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[6] Technology-oriented approach to quantitative assessment of water–energy–food nexus
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[7] Food Waste through the Food-Water-Energy Nexus Lenses
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[8] A review of the water–energy–food nexus measurement and management approach
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[9] From a few security indices to the FEW Security Index: Consistency in global food, energy and water security assessment
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[10] Analyzing FEW Nexus Modeling Tools for Water Resources Decision-Making and Management Applications
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[11] Coupling and Coordination Degrees of the Core Water–Energy–Food Nexus in China
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[12] Activating the Food-Water-Energy Nexus
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[13] Modelling nutrient flows in a simplified local food-energy-water system
Resources, Conservation and Recycling, 2018
[14] Bridging Science and Policy in Water-Energy-Food Nexus: Using the Q-Nexus Model for Informing Policy Making
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[15] Community viewpoints about water crisis, conservation and recycling: a case study in Tehran
Environment, Development and Sustainability, 2018
[16] Water energy nexus in city and hinterlands: Multi-regional physical input-output analysis for Hong Kong and South China
Applied Energy, 2018
[17] Conceptualizing the Urban Nexus Framework for a Circular Economy: Linking Energy, Water, Food, and Waste (EWFW) in Southeast-Asian cities
Urban Energy Transition (Second Edition), 2018
[18] Water, energy and food nexus: The Q-Nexus model
2017
[19] Understanding water-energy-food and ecosystem interactions using the nexus simulation tool NexSym
Applied Energy, 2017
[20] Quantitative nexus approach to analyze the interlinkages across the sustainable development goals
2017
[21] Vulnerability of groundwater to pollution using three different models inHalabja Saidsadiq basin, Iraq
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[22] Mapping the direct and indirect interlinkages across the sustainable development goals: A qualitative nexus approach
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[23] Implementing the Urban Nexus approach for improved resource-efficiency of developing cities in Southeast-Asia
City, Culture and Society, 2017
[24] A Quantitative Nexus Approach to Analyze the Interlinkages across the Sustainable Development Goals
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