Sistema de regadío automático para mejorar la eficiencia de riego de la florícola Pinango en el cantón Cayambe.

Sistema de regadío automático para mejorar la eficiencia de riego de la florícola Pinango en el cantón Cayambe.

Nowadays, companies dedicated to the production of flowers such as the Pinango flower plantation are important in society and in the global context. These plantations not only represent a significant source of employment, but most of them are also engaged in export, which boosts the country's e...

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Αποθηκεύτηκε σε:
Λεπτομέρειες βιβλιογραφικής εγγραφής
Κύριος συγγραφέας: Landeta Ulcuango, Luis Cristóbal (author)
Μορφή: bachelorThesis
Γλώσσα:spa
Έκδοση: 2023
Θέματα:
CONTROLADOR DE RIEGO
SENSOR DE PH
SENSOR DE CONDUCTIVIDAD ELÉCTRICA Y FERTIIRRIGACIÓN
ELECTRICIDAD
Διαθέσιμο Online:http://repositorio.utc.edu.ec/handle/27000/11420
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Περιγραφή
Περίληψη:Nowadays, companies dedicated to the production of flowers such as the Pinango flower plantation are important in society and in the global context. These plantations not only represent a significant source of employment, but most of them are also engaged in export, which boosts the country's economy. However, the current climatic situation and the scarcity of water resources raise concerns about productivity, as water is a key resource for these crops. The main objective of this project is to implement a fertigation controller that takes advantage of the control of electrical conductivity (EC) and hydrogen potential (pH) in order to improve irrigation efficiency in the Pinango flower farm. The aim is to optimise the use of water resources, reduce soil contamination and reduce production costs, especially in terms of fertiliser inputs. To validate the effectiveness of the controller, an experimental method approach was used, while the descriptive method was employed to collect, tabulate and analyse the data. With the implementation of the controller on the SIEMENS LOGO brand, an improvement in time efficiency was achieved, generating significant savings in several areas of the irrigation process. The results showed a 15% saving in water consumption, a 25% reduction in fertiliser costs, a 75% reduction in labour and a 15% reduction in electricity consumption. These results support the effectiveness and feasibility of the controller as a successful strategy to improve efficiency and reduce costs associated with irrigation.

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