Kontrollierte Entleerung mit ganzflächigen Austrageinrichtungen

Q4 Agricultural and Biological Sciences

Landtechnik Pub Date : 2016-11-07 DOI:10.15150/LT.2016.3141

G. Franke, Fabian Weigler, J. Mellmann, P. Müller

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Abstract

While emptying complex bulk solids apparatuses and silos, the discharger at container bottom can significantly affect the energy demand of the process and the product quality. At practice, a variety of discharge devices has been developed which differ in the closing mechanism and the design of their fixed inserts. Experimental studies with wheat have shown that some whole-area dischargers cause a distinctive flow profile. Due to their design, these systems offer an unexploited potential to locally influence the bulk solids motion and to realize a controlled emptying. Based on a prototype, a new type of discharge device has been developed at the Leibniz Institute for Agricultural Engineering and Bioeconomy e.V. (ATB). First results show that fixed baffles at the walls lead to a decelerated emptying at the sides of the discharge device. On the other hand, a complete renunciation of these installations results in a significant acceleration in the same regions. In future, it is intended to locally control the bulk solids movement by using an optimized design of the fixed inserts of the closing mechanism. Furthermore, it is intended to investigate how the drying process in mixed-flow grain dryers can be influenced and homogenized by using the newly developed discharge device.

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在对复杂的散装固体设备和筒仓进行排空时，容器底部的排料机对工艺的能量需求和产品质量有很大的影响。在实践中，已经开发了各种各样的放电装置，这些装置在关闭机构和固定插入件的设计上有所不同。小麦的实验研究表明，一些全面积卸料器会产生独特的流动剖面。由于其设计，这些系统提供了未开发的潜力，可以局部影响大块固体运动并实现可控的排空。莱布尼茨农业工程与生物经济研究所(ATB)在原型的基础上，开发了一种新型的放电装置。初步结果表明，在排料装置的壁上设置固定挡板可使排料装置两侧的排空速度减慢。另一方面，完全放弃这些设施会导致同一地区的显著加速。在未来，它的目的是局部控制大块固体运动通过使用封闭机构的固定插入的优化设计。在此基础上，研究了新型出料装置对混流谷物干燥机干燥过程的影响及均质性。

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

Landtechnik Agricultural and Biological Sciences-Agronomy and Crop Science

CiteScore

1.10

自引率

0.00%

发文量

审稿时长

16 weeks