Bibliographic citations
Lujan, E., Tejada, J. (2022). Diseño y simulación hidráulica del canal de riesgo San Pedro Sector Jatanca, Distrito de San Pedro de Lloc, Provincia de Pacasmayo - La Libertad [Tesis, Universidad Privada Antenor Orrego - UPAO]. https://hdl.handle.net/20.500.12759/9837
Lujan, E., Tejada, J. Diseño y simulación hidráulica del canal de riesgo San Pedro Sector Jatanca, Distrito de San Pedro de Lloc, Provincia de Pacasmayo - La Libertad [Tesis]. PE: Universidad Privada Antenor Orrego - UPAO; 2022. https://hdl.handle.net/20.500.12759/9837
@misc{renati/380794,
title = "Diseño y simulación hidráulica del canal de riesgo San Pedro Sector Jatanca, Distrito de San Pedro de Lloc, Provincia de Pacasmayo - La Libertad",
author = "Tejada Vilchez, Jorge Junior",
publisher = "Universidad Privada Antenor Orrego - UPAO",
year = "2022"
}
This thesis was developed with the purpose of carrying out a hydraulic project to help canalize and take advantage of the water resource in a higher percentage. The channel chosen for this study was the San Pedro channel located in the Jatanca sector in the district of San Pedro de Lloc, in this channel we found deficiencies in its structure, this channel doesn’t have a lining to prevent water seepage during its route, since there is a loss of water contained in the channel, this deficiency generates a shortage of irrigation in some areas of the Jatanca sector. To start the project, we prepared the basic studies such as topography report and soil mechanics report. As for the topography report, we used our own resources such as total station and engineer's level to obtain a detailed topographic survey of the canal with an extension of 3.5 km, which later served us to carry out our new hydraulic design. The data obtained from the topographic survey was processed in Civil 3D 2020 software, resulting in the plan view and longitudinal profile drawings attached in the annexes. To obtain our flow rate, we used a gauging measurement method in the field, using a millimeter sight; we also determined the location of the demand channels or lateral intakes, taking into account the irrigation areas involved. During the preparation of the hydraulic design, we used the ““Manual of design criteria for hydraulic works for the formulation of multisectoral hydraulic projects and water reinforcement““ published by the National Water Authority (ANA), which includes the necessary requirements for the design, such as minimum radii, type of sections and minimum slopes according to the terrain orography. Finally, the hydraulic simulation was performed using HecRAS v6.1 software to verify the functionality and compliance with all the parameters established in the aforementioned standard.
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