通过提高刈割农作物同时抛撒残茬的装置移动的可控性,实现农业向低排放和高能效经济的转型

Energies Pub Date : 2024-07-14 DOI:10.3390/en17143467
O. Orynycz, Volodymyr Nadykto, V. Kyurchev, K. Tucki, Ewa Kulesza
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摘要

收割谷物和饲料草时,通常采用两阶段法。这一过程使用拖曳式和悬挂式采集装置。前者是非对称的,在水平面内移动的稳定性往往存在问题。在实践中,带有前置集穗器的悬挂式收割装置正得到越来越广泛的使用。使用这种设备的缺点是,在通过刈割作物的垄间空隙后,土壤会裸露出来。随之而来的是水分的大量流失。为了消除这一缺点,我们提出了一种收集装置,由带有前部附件的拖拉机和安装在后部的圆盘耙组成。为了证明这种装置的方案和参数是合理的,我们建立了一个适当的数学模型。在本例中,该模型用于评估在拖拉机转向轮角度旋转形式的控制作用影响下,动态系统运动的可控性。数学建模的结果表明,以 0-1 s-1 的频率和接近 3 m∙s-1 的工作速度作用于拖拉机的驱动轮,可确保收割装置运动的可控性令人满意。在这种情况下,最好将拖拉机后轮胎的抗变形系数(因此也包括其中的气压)设为较小的值,而将前轮胎的抗变形系数设为较大的值。这不仅有助于提高收割装置的移动可控性,还能将其能耗平均降低 6.75%。此外,还考察了收割机排放的某些有害化学物质和微粒的放射率,具体取决于燃烧的燃料。此外,还揭示了收割机的使用对减少大气中有害化合物排放的影响。
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Transformation towards a Low-Emission and Energy-Efficient Economy Realized in Agriculture through the Increase in Controllability of the Movement of Units Mowing Crops while Simultaneously Discing Their Stubble
When harvesting cereals and fodder grasses, a two-phase method is often used. This process is carried out using trailed and suspended collecting units. The former are asymmetrical and often pose problems regarding the stability of their movement in the horizontal plane. In practice, suspended harvesting units with a front-mounted header are becoming more and more widely used. The disadvantage of their use is that the soil is exposed after passing through the space between the swaths of the mown crop. This is followed by an intense loss of moisture. In order to eliminate this shortcoming, a collecting unit was proposed, consisting of a tractor with a front attachment and a disc harrow mounted at the rear. An appropriate mathematical model was developed to justify the scheme and parameters of such a unit. In this case, this model is used to assess the controllability of the movement of the dynamic system under the influence of control action in the form of the angular rotation of the tractor’s steered wheels. As a result of mathematical modelling, it was found that satisfactory controllability of the movement of the harvesting units can be ensured by acting on the tractor’s driven wheels with a frequency of 0–1 s−1 and a working speed of close to 3 m∙s-1. In this case, it is desirable to set the deflection resistance coefficient of the rear tyres of the tractor (and therefore, the air pressure in them) to a smaller value, and that of the front tyres to a larger value. This helps both to improve the movement controllability of the harvesting unit and to reduce its energy consumption by an average of 6.75%. The emissivity of selected harmful chemicals and particulates emitted by the harvesting unit, depending on the fuel burned, was also examined. The way in which the use of the harvesting unit affects the reduction of emissions of harmful compounds into the atmosphere was also revealed.
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