Power need of an implement for removing polymer residues from the soil surface in Kazakh horticulture

IF 2.4 4区 农林科学 Q2 AGRICULTURAL ENGINEERING
A. Niyazbayev, F. Garbati Pegna, K. Khazimov, E. Umbetov, K. Akhmetov, Zhadyra Sagyndykova, M. Khazimov
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引用次数: 0

Abstract

Polymeric materials are largely used in horticulture for mulching and irrigation, but their long degradation time causes various environmental and agronomic problems, hence should be removed at the end of the crop cycle. Among different mechanized techniques for collecting polymer residues from the field, the single-phase one is the most effective, since the plastic film and irrigation tape lifting, cleaning, and collection operations are done in a single pass, though, in most cases, the implements used in Kazakhstan still need an operator to manage the winding mechanism.  The authors, who developed a completely automatic plastic retriever, based on a hydraulic drive with a friction clutch for winding up the plastic materials, assessed the power need of the implement, in order to compare it with the power need of similar implements, where the winding mechanism is hand-operated and consequently power consumption is high, due to the need to stop and start the engine many times.  In this study the parameters of the hydraulic drive were determined by analytical calculation, starting from pressure and speed data measured on the hydraulic line and velocity and traction resistance of the implemented measured during the field tests. The maximum power need to drive the winding mechanisms resulted 1.86 kW at a forward speed of the unit of 1.8 m⋅s-1. Secondary the operation costs were broadly assessed, finding that they were about 43% less then when using man driven equipment. 
哈萨克园艺中去除土壤表面聚合物残留物的工具的动力需求
高分子材料在园艺中广泛用于覆盖和灌溉,但其降解时间长,造成各种环境和农艺问题,因此应在作物周期结束时去除。在不同的从田间收集聚合物残留物的机械化技术中,单相技术是最有效的,因为塑料薄膜和灌溉带的提升、清洁和收集操作是一次完成的,尽管在大多数情况下,哈萨克斯坦使用的工具仍然需要操作员来管理缠绕机构。作者开发了一种全自动塑料回收器,基于液压驱动和摩擦离合器,用于缠绕塑料材料,评估了该工具的功率需求,以便将其与类似工具的功率需求进行比较,其中缠绕机构是手动操作的,因此功率消耗高,因为需要多次停止和启动发动机。本研究从液压管路上测得的压力和速度数据以及现场试验中测得的执行器的速度和牵引阻力数据出发,通过解析计算确定了液压传动的参数。在单位为1.8 m·s-1的前进速度下,驱动绕组机构的最大功率为1.86 kW。其次,对操作成本进行了广泛评估,发现他们比使用人工驱动设备少43%左右。
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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来源期刊
Journal of Agricultural Engineering
Journal of Agricultural Engineering AGRICULTURAL ENGINEERING-
CiteScore
2.30
自引率
5.60%
发文量
40
审稿时长
10 weeks
期刊介绍: The Journal of Agricultural Engineering (JAE) is the official journal of the Italian Society of Agricultural Engineering supported by University of Bologna, Italy. The subject matter covers a complete and interdisciplinary range of research in engineering for agriculture and biosystems.
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