Manuel Morcillo, Miguel Ángel Moreno, Rocío Ballesteros, Rocío Arias, José Fernando Ortega
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引用次数: 0
Abstract
FERTI-DRIP tool was developed to support decision-making in the fertigation process. The model determines the distribution of fertilizers at the subunit level, along with emitter discharge. FERTI-DRIP enables users to optimize the design of the irrigation subunit and the type and discharge of the installed emitter. Additionally, it helps determine the injection, advance, and cleaning times of fertilizer. Despite all these capacities, FERTI-DRIP has not been validated in a real irrigation system. Thus, the objective of this work has been to develop and implement a methodology to evaluate the actual distribution of fertilizers in a commercial productive environment and to calibrate FERTI-DRIP for this purpose.
This methodology has been applied in a commercial farm of 9 ha of almond trees (Prunus dulcis var. avijor), which is equipped with a drip irrigation system, intensively analyzing a fertigation event under real operating conditions.
This study has enabled the validation of the FERTI-DRIP tool, developing a methodology for evaluating fertigation systems that characterizes the distribution of fertilizers and their dynamics during an irrigation event. With the validation of FERTI-DRIP, a real fertigation process has been simulated, achieving a maximum time lag of three minutes and differences in the amount of fertilizer applied by each emitter of <1 %. This enables decision-making regarding fertilizer application times. The model has accurately predicted the dose of fertilizer, the application and cleaning times at the dripper level, thereby improving application efficiencies and mitigating issues arising from salt accumulation in the subunit through proper time management.
FERTI-DRIP工具的开发是为了支持施肥过程中的决策。该模型确定了肥料在亚单位水平上的分布,以及发射器的排放量。FERTI-DRIP使用户能够优化灌溉子单元的设计以及安装的发射器的类型和排放。此外,它还有助于确定肥料的注射、提前和清洗时间。尽管有这些能力,FERTI-DRIP尚未在实际的灌溉系统中得到验证。因此,这项工作的目标是制定和实施一种方法,以评估商业生产环境中肥料的实际分配情况,并为此目的校准FERTI-DRIP。该方法已应用于一个9公顷杏树(Prunus dulcis var. avijor)的商业农场,该农场配备了滴灌系统,集中分析了实际操作条件下的施肥情况。这项研究验证了FERTI-DRIP工具,开发了一种评估施肥系统的方法,该方法表征了灌溉过程中肥料的分布及其动态。通过FERTI-DRIP的验证,模拟了一个真实的施肥过程,最大滞后时间为3分钟,每个发射器的施肥量差异为1%。这样就可以对施肥时间做出决策。该模型准确地预测了滴管水平的肥料剂量、施用和清洗时间,从而提高了施用效率,并通过适当的时间管理减轻了亚单元中盐积累的问题。
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