Design of Sprinkling Irrigation System with Wind Pumping in the Garlic Cultivation

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Published: May 13, 2021
Keywords:
Renewable Energy, irrigation, pipe flow, design load

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Néstor Méndez-Jurjo
Universidad de Ciego de Ávila
Oscar Brown-Manrique
Universidad de Ciego de Ávila
Jorge Rodríguez-Cabrera
Empresa Agropecuaria Arnaldo Ramírez
Pablo Antonio Junco-Davis
Universidad de Ciego de Ávila
Gustavo Humberto Arencibia-Zuñíga
Universidad de Ciego de Ávila

Abstract

The research was developed in "La Cuchilla" farm, located in Sabicú Community, Primero de Enero Municipality, Ciego de Ávila Province, with the objective of determining the design parameters of sprinkling irrigation system with wind pumping in the garlic cultivation. The results demonstrated that the sprinkling irrigation system with wind pumping works with flow average of 0,25 L∙s-1, emitter pressure of 6,00 m, average intensity of 6,25 mm∙h-1 and irrigation time of 2,68 hours to contribute the quantity of water demanded by the cultivation. The agronomic parameters of the system are: net irrigation depth of 11,75 mm, gross irrigation depth of 16,78 mm, average irrigation interval of nine days and total gross water necessities for the cultivation of garlic of 3606,02 m3∙ha-1. The average hydromodule is of 3,04 L∙s-1 ha-1 and the pipe flow of 1,02 m3∙h-1, which allows selecting a diameter of 50 mm. The irrigation volume required is of 3,42 m3 (3420 L) that is guaranteed with the placement of a tank of water storage of 5000 L to a height of 6,00 m in correspondence with the topographical difference and the design load that is of 6,08 m that is the required for the good operation of the system.

Article Details

How to Cite
Méndez-Jurjo, N., Brown-Manrique, O., Rodríguez-Cabrera, J., Junco-Davis, P. A., & Arencibia-Zuñíga, G. H. (2021). Design of Sprinkling Irrigation System with Wind Pumping in the Garlic Cultivation. Revista Ciencias Técnicas Agropecuarias, 30(2). Retrieved from https://revistas.unah.edu.cu/index.php/rcta/article/view/1406
Issue
Vol. 30 No. 2 (2021): April-May-June
Section
Original Articles

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