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From on-farm solid-set sprinkler irrigation design to collective irrigation network design in windy areas
Authors:N. Zapata,E. Playá  n,A. Martí  nez-Cob,I. Sá  nchez,J.M. Faci,S. Lecina
Affiliation:1. Department of Soils and Irrigation, Centro de Investigación y Tecnología Agroalimentaria (CITA-DGA), Diputación General de Aragón, Apdo. 727, 50080 Zaragoza, Spain;2. Department of Genetics and Plant Production, Estación Experimental de Aula Dei (EEAD), CSIC, Apdo. 202, 50080 Zaragoza, Spain;3. Ager-Ingenieros, Ingeniería Rural y Civil S.L. C/Mayor 53, 2°B, 50001 Zaragoza, Spain
Abstract:In this paper, a contribution to the design of collective pressurised irrigation networks in solid-set sprinkler-irrigated windy areas is presented. The methodology is based on guaranteeing minimum on-farm performance, using a historical hourly wind speed database and a ballistic solid-set irrigation simulation model. The proposed method was applied to the Montesnegros Irrigation District (central Ebro basin, Spain). The district irrigates an area of 3493 ha using an on-demand schedule. The average wind speed in the area is 2.8 m s−1. An analysis of district water records showed that farmers often reduce water demand when the wind speed is high, but their irrigation decision making is limited by the capacity of the irrigation network and by the unpredictable character of local winds. Simulations were performed for 11 irrigation seasons, 2 triangular sprinkler spacings (18 m × 18 m and 18 m × 15 m), and 2 sprinkler models. The percentage of monthly suitable time for irrigation was determined for four management strategies. The first one was based on a wind speed threshold (3 m s−1), while the other three were based on three levels (standard, relaxed and restrictive) of two irrigation performance parameters: the Christiansen Uniformity Coefficient (CU) and the Wind Drift and Evaporation Losses (WDEL). The standard strategy classified the time as suitable for irrigation when CU ≥ 84% and WDEL ≤ 20%. The thresholds limits of the irrigation parameters for the relaxed strategy were CU ≥ 80% and WDEL ≤ 25%. Finally, the restrictive strategy used thresholds of CU ≥ 90% and WDEL ≤ 15%. The suitable time for the first strategy (56%) was always lower than for the standard and the relaxed strategies (with respective average values of 75 and 86%), and higher than for the restrictive strategy (30%). In order to design the collective network, the hydrant operating time was equalled to the suitable time for irrigation. The differences in the cost of the collective network plus the on-farm equipment were particularly relevant between the restrictive strategy and the other three. Differences in suitable operating time were clear between sprinkler spacings, and less evident between sprinkler models. The application of the proposed methodology may be limited by the availability of historical wind speed records and CU estimates for different combinations of sprinkler models, sprinkler spacings and wind speed.
Keywords:Sprinkler irrigation performance   Collective irrigation network   Desing   Sprinkler irrigation simulation models   Solid-set sprinkler irrigation   Wind effects on sprinkler irrigation systems
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