Bibliographic citations
Torres, L., (2014). Mejoramiento de la eficiencia del diseño de Sistema de Riego reduciendo el Consumo de energía Eléctrica Total diario del Sistema de bombeo [Universidad Nacional de Trujillo]. https://hdl.handle.net/20.500.14414/22058
Torres, L., Mejoramiento de la eficiencia del diseño de Sistema de Riego reduciendo el Consumo de energía Eléctrica Total diario del Sistema de bombeo []. PE: Universidad Nacional de Trujillo; 2014. https://hdl.handle.net/20.500.14414/22058
@misc{renati/881465,
title = "Mejoramiento de la eficiencia del diseño de Sistema de Riego reduciendo el Consumo de energía Eléctrica Total diario del Sistema de bombeo",
author = "Torres Asmad, Levi Caleb",
publisher = "Universidad Nacional de Trujillo",
year = "2014"
}
ABSTRACT Pretending to reduce Energy Consumption in Irrigation System, the idea to Modify a design for greater efficiency; This is in Efficient Water Resources Aquifer ). This pumping tests were conducted to obtain a new job flow, but to get a new flow pump flow rate and dripper irrigation shifts are also modified. It was then necessary wetting bulb test in which it was observed that the moisture produced by the new flow dropper is in the allowable range. The pumping test was observed Abatement and Recovery, two tests performed with different pumping rates ; 8.18LPS and 11.0LPS , obtaining satisfactory data , since the dynamic level not surpassed the permissible level . Operating times were determined before and after changing the design of the irrigation system , just as the Electric Power Phase motor using Direct Method and Theory ( Indirect) was obtained before and after modifying the design . With them Energy Consumption was obtained , concluding that modifying the design the irrigation system using the new flow pumping Watering is more efficient ( reduction times of Total Watering daily) and Saving Energy Cost is considerable. The difference of Total Energy Consumption by Indirect or Theoretical method is 5.8KW while the Total Energy Consumption by the Direct method is 8.74KW .
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