Studies on engineering properties of multiplier onion

Agricultural Engineering Today Pub Date : 2021-03-31 DOI:10.52151/aet2021451.1529

B. B. Devojee, A. Carolin Rathinakumari, A. Dave, S. Kumaran

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引用次数: 1

Abstract

The knowledge of physical and mechanical properties of onion bulb is important for successful design of any planter. Multiplier onion is propagated through bulbs and bulbs are planted manually. Manual planting of onion bulb is highly labour intensive (80-100 man-days ha-1) due to the close plant geometry (plant to plant and row to row spacing is 10 × 15 cm) among the vegetable crops. Engineering properties of multiplier onion were determined in order to design and develop a tractor operated raised bed onion bulb planter. In multiplier onion each onion comprises of 4-5 bulbs. These bulbs were cleaned, separated into single bulbs and divided in to 9 categories manually based on their individual weight viz., <2g, 2-3 g, 3-4 g, 4-5 g, 5-6 g, 6-7 g, 7-8 g, 8-9 g, >9 g. The onion bulb had a moisture content of 80.62±0.87 %. It was observed that the properties varied for different sizes of onion grades and the grades had highly significant effect on most of the properties. The linear dimensions of onion bulbs viz., length, width, thickness for nine grades ranged from 21.21±2.60 to 32.31±3.30 mm, 13.54±1.77 to 30.95±2.91 mm and 10.91±1.40 to 22.63±2.15 mm. The geometric mean diameter, sphericity, shape index and projected area all ranged from 28.22±2.04 to 14.54±0.96 mm, 0.87±0.06 to 0.69±0.08, 1.78±0.32 to 1.22±0.14 and 5.50±0.51 to 1.55±0.30 cm2, respectively. The one hundred onion bulb weight, bulk density, true density were in the range of 1185±19.59 to 121.6±6.30 g, 793.20± 9.45 to 480.19±13.13 kg.m-3, 1086± 205.22 to 1013.6±348.85 kg.m-3, respectively. The angle of repose decreased with increase in size of onion bulbs. The interaction between sphericity, shape index and angle of repose indicated that as the size of the onion size increase angle of repose decreased.

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倍增器洋葱的工程性能研究

了解洋葱鳞茎的物理和机械特性对任何种植装置的成功设计都是重要的。倍增器洋葱是通过鳞茎繁殖的，鳞茎是人工种植的。人工种植洋葱鳞茎是高度劳动密集型的(80-100人-日/日)，因为蔬菜作物的植株几何形状相近(株与株之间，行与行间距为10 × 15厘米)。为了设计和研制拖拉机操作的架式洋葱鳞茎种植机，测定了倍增器洋葱的工程性能。在倍增洋葱中，每个洋葱由4-5个鳞茎组成。这些灯泡被清洗干净，分成单个灯泡，并根据每个灯泡的重量(9克)手工分为9个类别。洋葱鳞茎含水量为80.62±0.87%。结果表明，不同大小的洋葱品级的性能各不相同，品级对大部分性能有极显著的影响。洋葱鳞茎的线性尺寸(即长、宽、厚)为21.21±2.60 ~ 32.31±3.30 mm、13.54±1.77 ~ 30.95±2.91 mm和10.91±1.40 ~ 22.63±2.15 mm。几何平均直径、球度、形状指数和投影面积分别为28.22±2.04 ~ 14.54±0.96 mm、0.87±0.06 ~ 0.69±0.08、1.78±0.32 ~ 1.22±0.14和5.50±0.51 ~ 1.55±0.30 cm2。百洋葱鳞茎重、容重、真密度分别为1185±19.59 ~ 121.6±6.30 g、793.20±9.45 ~ 480.19±13.13 kg。M-3, 1086±205.22至1013.6±348.85公斤。分别m3。休止角随鳞茎大小的增大而减小。球度、形状指数和休止角的相互作用表明，随着洋葱尺寸的增大，休止角减小。

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Agricultural Engineering Today

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