Low energy consumption seasonal calendar for sectoring operation in pressurized irrigation networks

Pressurized irrigation networks and organized on-demand are usually constrained by the high amounts of energy required for their operation. In this line, sectoring, where farmers are organized in turns, is one of the most efficient measures to reduce their energy consumption. In this work, a methodo...

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Veröffentlicht in:	Irrigation science 2011-03, Vol.29 (2), p.157-169
Hauptverfasser:	Carrillo Cobo, M. T, Rodríguez Díaz, J. A, Montesinos, P, López Luque, R, Camacho Poyato, E
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Schlagworte:	Agricultural production Agriculture Algorithms Aquatic Pollution Biomedical and Life Sciences Climate Change Energy conservation Energy consumption Energy efficiency Environment Hydrants Irrigation Irrigation districts Life Sciences Original Paper Pumping stations Sustainable Development Waste Water Technology Water Industry/Water Technologies Water Management Water Pollution Control
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container_title	Irrigation science
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creator	Carrillo Cobo, M. T Rodríguez Díaz, J. A Montesinos, P López Luque, R Camacho Poyato, E
description	Pressurized irrigation networks and organized on-demand are usually constrained by the high amounts of energy required for their operation. In this line, sectoring, where farmers are organized in turns, is one of the most efficient measures to reduce their energy consumption. In this work, a methodology for optimal sectoring is developed. Initially it groups similar hydrants in homogeneous groups according to the distance to the pumping station and their elevation, using cluster analysis techniques and certain dimensionless coordinates. Second, an algorithm based on the EPANET engine is implemented to search for the best monthly sectoring strategy that accomplish supplying the actual irrigation demand under minimum energy consumption conditions. This methodology is applied to two Spanish irrigation districts (Fuente Palmera and El Villar). Results showed that organizing the networks in sectors, annual energy savings of 8 and 5% were achieved for Fuente Palmera and El Villar when the theoretic irrigation needs were considered. However, these savings rose up to 27 and 9%, respectively when the local practices, deficit irrigation, were taken into account. Thus, they confirm that water and energy efficiency cannot be optimized independently and need to be considered together.
doi_str_mv	10.1007/s00271-010-0228-2
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Initially it groups similar hydrants in homogeneous groups according to the distance to the pumping station and their elevation, using cluster analysis techniques and certain dimensionless coordinates. Second, an algorithm based on the EPANET engine is implemented to search for the best monthly sectoring strategy that accomplish supplying the actual irrigation demand under minimum energy consumption conditions. This methodology is applied to two Spanish irrigation districts (Fuente Palmera and El Villar). Results showed that organizing the networks in sectors, annual energy savings of 8 and 5% were achieved for Fuente Palmera and El Villar when the theoretic irrigation needs were considered. However, these savings rose up to 27 and 9%, respectively when the local practices, deficit irrigation, were taken into account. 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subjects	Agricultural production Agriculture Algorithms Aquatic Pollution Biomedical and Life Sciences Climate Change Energy conservation Energy consumption Energy efficiency Environment Hydrants Irrigation Irrigation districts Life Sciences Original Paper Pumping stations Sustainable Development Waste Water Technology Water Industry/Water Technologies Water Management Water Pollution Control
title	Low energy consumption seasonal calendar for sectoring operation in pressurized irrigation networks
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