Abstract
Minimizing energy expenditure is one of the main purposes of the managers of pressurized irrigation systems. From the energy consumption standpoint, they can reduce energy consumption by supplying a constant flow into the system (a scheme different from urban water pressurized networks in which water demands depend on users). Managers can keep energy demands (opening and closing valves) while meeting pressure restrictions. We developed a computer application in MATLAB containing a genetic algorithm to find the best moment to open and to close valves to minimize an objective function which measures the differences between the objective and the real injected flows. We tested this program in the pressurized irrigation network of the San Vicente Campus, University of Alicante (Southeast Spain) and we calculated the water and energy balance (from the later and present irrigation network) and the carbon credits not emitted to the atmosphere.
Subject
Water Science and Technology,Aquatic Science,Geography, Planning and Development,Biochemistry
Reference50 articles.
1. World Energy Outlook 2019,2019
2. Water use in electricity generation for water-energy nexus analyses: The European case
3. Long-term water demand for electricity, industry and households
4. Water Energy Nexus,2017
5. A Clean Planet for All A European Strategic Long-Term Vision for a Prosperous, Modern, Competitive and Climate Neutral Economy—Transport Aspects,2018
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