Evaluating Uniformity of Center Pivot Irrigation Systems in Western Oklahoma

IF 0.8 4区 农林科学 Q4 AGRICULTURAL ENGINEERING Applied Engineering in Agriculture Pub Date : 2022-01-01 DOI:10.13031/aea.14626
D. Handa, Blessing Masasi, S. Frazier, S. Taghvaeian, J. Warren, D. Moriasi
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Abstract

Highlights63% of the 24 center pivots tested in western Oklahoma had acceptable uniformity.On average, 7% of pumped water was lost before reaching the soil surface.Irrigation nonuniformity can have major, yet variable effects on water fluxes.Abstract. Nonuniform application of water through center pivots can lead to under- or over-irrigation at parts of the field, which can lead to water stress and yield reductions or loss of limited water resources and leaching of applied chemicals, respectively. In this study, irrigation uniformity tests were performed to determine the application uniformity and conveyance efficiency of 24 center pivots in western Oklahoma. The average coefficient of uniformity and low quarter distribution uniformity of the tested systems were 78% and 69%, respectively. These values indicate an overall borderline acceptable application uniformity. The average water conveyance efficiency was 93%, indicating that 7% of pumped water was lost before reaching the soil surface. Measured ratios of collected water in each collector to the average collected water for corresponding center pivots were used to simulate the effects of observed nonuniformity on water fluxes for a 10-year period. Under-irrigation (e.g., caused by clogged nozzles) led to considerable reduction in crop transpiration at the simulation location in the Panhandle, while the decreasing effects were more notable for deep percolation for the location in west-central Oklahoma. Over-irrigation (e.g., caused by leaks or missing nozzles) resulted in substantially larger deep percolations at both locations. Keywords: Catch-can, Conveyance efficiency, Water fluxes.
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评价俄克拉何马州西部中心枢纽灌溉系统的均匀性
在俄克拉何马州西部测试的24个中心支点中,63%的支点具有可接受的一致性。平均有7%的抽水在到达土壤表面之前就流失了。灌溉不均匀性会对水通量产生重大而多变的影响。通过中心枢纽的不均匀施水可能导致部分农田灌溉不足或过度,这可能分别导致水分压力和产量降低或有限水资源的损失和施用化学品的浸出。在本研究中,进行了灌溉均匀性试验,以确定俄克拉何马州西部24个中心支点的施用均匀性和输送效率。测试系统的平均均匀系数和低四分之一分布均匀度分别为78%和69%。这些值表明总体上可以接受的应用程序一致性。平均输水效率为93%,即在到达土壤表面之前有7%的抽水流失。每个集热器中收集的水与相应中心支点的平均收集的水的测量比率用于模拟观察到的不均匀性对10年期间水通量的影响。灌溉不足(如喷嘴堵塞)导致Panhandle模拟地点的作物蒸腾显著减少,而俄克拉何马州中西部模拟地点的深层渗流减少效果更为显著。过度灌溉(例如,由于泄漏或缺少喷嘴)导致两个位置的深层渗漏大大增加。关键词:集水罐,输送效率,水通量。
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来源期刊
Applied Engineering in Agriculture
Applied Engineering in Agriculture 农林科学-农业工程
CiteScore
1.80
自引率
11.10%
发文量
69
审稿时长
6 months
期刊介绍: This peer-reviewed journal publishes applications of engineering and technology research that address agricultural, food, and biological systems problems. Submissions must include results of practical experiences, tests, or trials presented in a manner and style that will allow easy adaptation by others; results of reviews or studies of installations or applications with substantially new or significant information not readily available in other refereed publications; or a description of successful methods of techniques of education, outreach, or technology transfer.
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