Approximation of the Pressure-discharge Curve in Inline Drip Irrigation System

Journal of Scientific Research and Reports Pub Date : 2024-07-15 DOI:10.9734/jsrr/2024/v30i82222

Kunapara A. N., Subbaiah R., Patel G. R.

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Abstract

The efficiency of drip irrigation systems depends directly on the uniformity of water discharge from emission devices. Ideally, all emitters should discharge equal amounts of water, but variations occur due to hydraulic and manufacturing factors. This study established the pressure-discharge relationship curve and determined emitter flow variation caused by the hydraulic and the manufacturer’s coefficients of variation for 2 and 4 lph inline emitters. The power exponent and constant of the pressure-discharge curve were determined by measuring the emitter flow rates at operating pressures ranging from 0.2 to 3.0 kg/cm². The emitter flow rates of 100 emitters were measured at an operating pressure of 1.0 kg/cm² to determine the manufacturing coefficient (Vm) and emitter flow variation (qvar(m)). The discharge exponent was found to be 0.46 for both emitter flow rates, with proportionality constants of 0.692 for 2 lph and 1.387 for 4 lph emitters respectively. The results showed a strong correlation between pressure and flow rate, with RMSE values of 0.51 and 0.34 lph, and coefficients of determination of 0.988 and 0.991 for 2 and 4 lph emitters, respectively. High manufacturing precision was indicated by low Vm values of 0.0491 for 2 lph and 0.055 for 4 lph emitters, while qvar(m) values were 0.261 for 2 lph and 0.283 for 4 lph emitters. Total coefficient of variation (Vq) values were 0.1 for 2 lph and 0.14 for 4 lph emitters, with total emitter flow variations (qvar) of 0.29 for 2 lph and 0.39 for 4 lph emitters. The study established the pressure-discharge curve for inline drip irrigation systems, emphasizing the critical relationship between pressure and flow rate. The derived chart from pressure discharge relationship is a valuable tool for estimating emitter flow variation due to hydraulic variation within the same subunit. Precise manufacturing and effective management of hydraulic variations are essential for ensuring uniform water distribution, optimizing drip irrigation systems, and ultimately enhancing crop yield and resource utilization.

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内联滴灌系统压力-排量曲线的近似值

滴灌系统的效率直接取决于排放装置出水的均匀性。理想情况下，所有发射器的出水量应该相等，但由于水力和制造因素，会出现差异。本研究建立了压力-排量关系曲线，并确定了 2 和 4 升/小时直排式喷头的水力和制造商变化系数引起的喷头流量变化。通过测量工作压力为 0.2 至 3.0 千克/平方厘米时的喷射器流量，确定了压力-排放曲线的功率指数和常数。在 1.0 kg/cm² 的工作压力下测量了 100 个发射器的发射流量，以确定制造系数 (Vm) 和发射流量变化 (qvar(m))。结果发现，两种喷射器流量的排放指数均为 0.46，2 升/小时和 4 升/小时喷射器的比例常数分别为 0.692 和 1.387。结果表明，压力和流量之间具有很强的相关性，2 长时和 4 长时喷射器的均方根误差值分别为 0.51 和 0.34 长时，确定系数分别为 0.988 和 0.991。2 长舌发射器的 Vm 值为 0.0491，4 长舌发射器的 Vm 值为 0.055，而 2 长舌发射器的 qvar(m) 值为 0.261，4 长舌发射器的 qvar(m) 值为 0.283。总变异系数 (Vq) 值为 0.1（2 长喷嘴）和 0.14（4 长喷嘴），总喷射器流量变异 (qvar) 值为 0.29（2 长喷嘴）和 0.39（4 长喷嘴）。该研究建立了管道滴灌系统的压力-排量曲线，强调了压力与流量之间的重要关系。根据压力-排量关系推导出的图表是一种宝贵的工具，可用于估算同一子单元内因水力变化而导致的喷头流量变化。精确制造和有效管理水力变化对确保均匀配水、优化滴灌系统以及最终提高作物产量和资源利用率至关重要。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Scientific Research and Reports

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