Bibliographic citations
Gonzalez, J., Outten, A. (2024). Diseño y modelamiento de un sistema de riego por goteo con fines de producción y optimización de un campo de vids en el fundo Carmin, San Jose de los Molinos, Ica [Trabajo de Suficiencia Profesional, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/674549
Gonzalez, J., Outten, A. Diseño y modelamiento de un sistema de riego por goteo con fines de producción y optimización de un campo de vids en el fundo Carmin, San Jose de los Molinos, Ica [Trabajo de Suficiencia Profesional]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2024. http://hdl.handle.net/10757/674549
@misc{renati/419272,
title = "Diseño y modelamiento de un sistema de riego por goteo con fines de producción y optimización de un campo de vids en el fundo Carmin, San Jose de los Molinos, Ica",
author = "Outten Arones, Andrea",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2024"
}
The vital renewable resource for humanity is water, used for human consumption, businesses, livestock, agriculture, etc. Over time we seek to optimize this resource. In this professional proficiency work (TSP) you will have a focus on the area of agriculture, specifically in the fields of grape crops, seeking to improve the production and optimization of water resources. The evaluation is the “Fundo Carmin”, belonging to the company Santiago Queirolo S.A.C located in the department of Ica. This fund has 57 hectares of vines. The current irrigation system is the drip irrigation system, however, it has deficiencies, which is why this system must be improved so that irrigation is efficient. Where the pressures, the flow uniformity coefficient, design and modeling of the drip irrigation system were obtained, to achieve the redistribution of new irrigation shifts related to the texture of the soil. The data will be entered into the IRRICAD software, which carries out the modeling and design of the hydraulic network of the irrigation system, related to the flow speed and pressure loss in the pipes. This benefits the optimization of the crop, the saving of resources and fertilizers, an improvement of 62.5% in water consumption is shown, and a 30% improvement in the production of the fund due to the implementation of the drip irrigation system. economical. As a result, improvements are presented in the water yield per plant and time, in turn, the hydraulic automation is calculated taking into account the route of the tubes and the opening of the valves taking into account the topographical unevenness and shorter length
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