RESUMO
The use of additives, generally called DRAs (Drag Reducing Additives), has been proposed to re-duce the energy consumption in pressurized pipes. Although many research works have been conducted to analyze the effect of these additives, less attention have been devoted to the application of coatings to the pipe wall. This paper demonstrates that the application of a hydrophobic coating to the pipe can lead to a head loss reduction for a transition flow regime with moderate Reynolds number values (Re). For this purpose, an experiment was conducted to compare the performance of both coated and uncoated pipes by measuring the head losses and assessing the Drag Reduction Percentage (%DR) and the pipe friction factor (f). This was done for two Polyvinylchloride (PVC) pipes with different nominal diameters (PVC90 and PVC63). In addition, the flow velocity distribution was also measured in all these tests. The %DR decreased as the Re values increased, with the reduction being notably less pronounced for higher Re values. This could be explained by the fact that a partial slip condition is induced by the hydrophobic product. Its effect is significant for a transition regime where the effect of viscosity is important, but it becomes negligible for increasing levels of turbulence. No significant differences were observed in the flow distribution between coated and uncoated pipes, which seems to indicate that the velocity change could be limited to the near-wall viscous sublayer. The results of this work open an important research line aimed at reducing energy costs and the carbon footprint in pipe fluid distribution systems.
RESUMO
ABSTRACT: The irrigation water consumption of a soilless cucumber crop under greenhouse conditions in a humid tropical climate has been evaluated in this paper in order to improve the irrigation water and fertilizers management in these specific conditions. For this purpose, a field experiment was conducted. Two trials were carried out during the years 2011 and 2014 in an experimental farm located in Vinces (Ecuador). In each trial, the complete growing cycle of a cucumber crop grown under a greenhouse was evaluated. Crop development was monitored and a good fit to a sigmoidal Gompertz type growth function was reported. The daily water uptake of the crop was measured and related to the most relevant indoor climate variables. Two different combination methods, namely the Penman-Monteith equation and the Baille equation, were applied. However, the results obtained with these combination methods were not satisfactory due to the poor correlation between the climatic variables, especially the incoming radiation, and the crop's water uptake (WU). On contrary, a good correlation was reported between the crop's water uptake and the leaf area index (LAI), especially in the initial crop stages. However, when the crop is fully developed, the WU stabilizes and becomes independent from the LAI. A preliminary model to simulate the water uptake of the crop was adjusted using the data obtained in the first experiment and then validated with the data of the second experiment.
RESUMO: Com o objetivo de melhorar a gestão da água de irrigação e fertilizantes em condições específicas, foi avaliado, neste trabalho, o consumo de água de irrigação de pepinos cultivados sem solo em casa de vegetação. Para avaliar este efeito, conduziu-se um experimento de campo. O trabalho de pesquisa foi composto de dois ensaios realizados durante os anos de 2011 e 2014 em Vinces (Equador), onde predomina o clima tropical. Em cada ensaio, avaliou-se o ciclo de crescimento completo da cultura do pepino cultivada em estufa.O desenvolvimento da cultura foi monitorado e um bom ajuste para a função de crescimento tipo sigmoidal Gompertz foi encontrado. A absorção de água diária da cultura foi medida e relacionada às variáveis climáticas mais relevantes. Com o objetivo de modelar o consumo de água das culturas, dois métodos de combinação diferentes, isto é, a equação de Penman-Monteith e a equação Baille, foram aplicadas. No entanto, os resultados obtidos com estes métodos de combinação não foram satisfatórios devido a fraca correlação entre as variáveis climáticas, especialmente, a radiação incidente e absorção de água pela cultura (WU). Por outro lado, foi encontrada uma boa correlação entre a captação de água da cultura e o índice de área foliar (LAI), especialmente, nos estágios iniciais da cultura. No entanto, quando a cultura está completamente desenvolvida, o WU estabiliza e torna-se independente do LAI. Um modelo preliminar para simular a absorção de água da cultura foi ajustado e utilizado e, os dados obtidos do primeiro experimento foram comparados com os dados do segundo.
