Water and energy management in an automated irrigation district

•Irrigation modernization has greatly changed the land structure in the District.•Irrigation modernization has improved the irrigation efficiency.•Irrigation modernization has reduced the irrigation labor cost and increased the energy cost.•Availability of real-time irrigation consumption data provi...

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Bibliographic Details
Published in:Agricultural water management 2014-08, Vol.142, p.66-76
Main Authors: Stambouli, T., Faci, J.M., Zapata, N.
Format: Article
Language:English
Subjects:
Agricultural and forest climatology and meteorology. Irrigation. Drainage
Agronomy. Soil science and plant productions
Biological and medical sciences
Delivery contracts
Electricity
Energy efficiency
Fundamental and applied biological sciences. Psychology
General agronomy. Plant production
Irrigation
Irrigation water use efficiency
Modernization
Remote control systems
Scheduling
Tariffs
Telemetry
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Summary:•Irrigation modernization has greatly changed the land structure in the District.•Irrigation modernization has improved the irrigation efficiency.•Irrigation modernization has reduced the irrigation labor cost and increased the energy cost.•Availability of real-time irrigation consumption data provided by remote control.•Analyses of remote control data to optimize water and energy use efficiency. An important modernization process providing pressurized irrigation systems to the traditional surface irrigation districts has taken place in Spain over the last 20 years However, an adverse consequence of modernization is the important increase in the energy cost in the modernized irrigation districts, which is aggravated by the current high energy prices. The Almudévar irrigation district (AID), a traditional surface irrigation district, was transformed into a pressurized sprinkler irrigation system in late 2010. The irrigation network was equipped with a high-level telemetry and remote control system that reaches the hydraulic valves of the irrigated blocks into which the plots are divided. Therefore, the telemetry system enables the centralized management of the irrigation scheduling from the district office. The district is divided into four independent networks with their own reservoirs and electric pump stations. A comparison of the land structure, crop patterns and irrigation management between the modernized AID in 2011 and the pre-modernization AID in 2006-2008 was performed. The temporal evolution of the irrigation water and energy demands in the 2011 irrigation season was analyzed with the available telemetry data from 2011. An irrigation performance index (SIPI) of the monthly and seasonal frequencies was computed for the main crops of the AID. Most irrigation events were performed during the low electricity tariff periods (P6 electric tariff) due to the centralized irrigation scheduling. Meteorological constraints had a low incidence in irrigation scheduling. Generally, a slight decrease in total irrigation deliveries was observed before and after medium-to-large precipitation events, but no changes in irrigation deliveries was observed with increases in wind speed. The exploitation of telemetry data in the AID has been an important tool to optimize the contracted electricity power in each tariff period and in decreasing the electric bill of the AID. This type of telemetry data analysis, similar to the analysis performed in the modernized AID in 201
ISSN:0378-3774
1873-2283
DOI:10.1016/j.agwat.2014.05.001