2014
DOI: 10.12722/0101-756x.v29n01a03
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Coeficiente De Variação De Fabricação Em Gotejador Autocompensante Utilizando Água Salina

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“…It was observed that, for pressure of 60 kPa, when the salinity level in the irrigation water increased, the flow variation coefficient also increased; however, for pressures of 100 and 160 kPa, when water with electrical conductivity greater than 0.6 d Sm -1 was applied, there was a decrease in FVC. This result was also observed by Lima et al (2014), who studied the manufacturing and flow variation coefficients in self-compensating emitter using saline water. Whereas the flow cross sections are usually of small diameter, manufacture must be accurate, uniform and constantly monitored because small variations in pressure can cause large differences in flow rate (FRIZZONE et al, 1998).…”
Section: Resultssupporting
confidence: 76%
“…It was observed that, for pressure of 60 kPa, when the salinity level in the irrigation water increased, the flow variation coefficient also increased; however, for pressures of 100 and 160 kPa, when water with electrical conductivity greater than 0.6 d Sm -1 was applied, there was a decrease in FVC. This result was also observed by Lima et al (2014), who studied the manufacturing and flow variation coefficients in self-compensating emitter using saline water. Whereas the flow cross sections are usually of small diameter, manufacture must be accurate, uniform and constantly monitored because small variations in pressure can cause large differences in flow rate (FRIZZONE et al, 1998).…”
Section: Resultssupporting
confidence: 76%