Exploratory study of oil palm frond chips drying process

2011 IEEE Symposium on Business, Engineering and Industrial Applications (ISBEIA) Pub Date : 2011-12-01 DOI:10.1109/ISBEIA.2011.6088809

N. Saadon, Z. Omar, Noriah Yusof, S. H. A. Muhamad

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引用次数: 1

Abstract

The multi-used fiber has turned oil palm fronds as the raw material which has a high potential as commercial products and renewable energy at present and future time. Since this valuable raw material is easily found scattering abundantly throughout the whole year in Malaysia, it needs to be preserved through a drying process. Therefore, more drying methods need to be experimented so that more choices are available. This study has chosen fluidized bed dryer due to its advantages. Since there are many factors which affect the drying process in this dryer, this study was aimed to investigate one of the effects, which is the hot air temperature. Different hot air temperatures of 60, 70 and 90°C were selected in identifying their effects on the drying process of oil palm fronds chips in the chosen dryer. 200 g of OPF chips at 10 cm bed height were put in the fluidized bed column. Later, hot air, at a fixed velocity of 1.45 m/s (1.2umf), was allowed to flow continuously for 60 min in the column. The findings show that the higher the hot air temperature, the shorter the drying time. Thus, this resulted in a higher drying rate.

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油棕叶屑干燥工艺的探索性研究

该多功能纤维以油棕叶为原料，在当前和未来具有很高的商业化产品和可再生能源潜力。由于这种珍贵的原料在马来西亚一年四季都很容易被发现，因此需要通过干燥过程来保存。因此，需要试验更多的干燥方法，以提供更多的选择。考虑到流化床干燥机的优点，本研究选择了流化床干燥机。由于影响该干燥机干燥过程的因素很多，因此本研究旨在研究其中一个影响因素，即热风温度。选择不同的热风温度为60、70和90℃，以确定其对所选烘干机中油棕叶片干燥过程的影响。将200 g床高为10 cm的OPF芯片放入流化床柱中。然后，让热空气以1.45 m/s (1.2umf)的固定速度在塔中连续流动60 min。结果表明，热风温度越高，干燥时间越短。因此，这导致了更高的干燥速率。

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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2011 IEEE Symposium on Business, Engineering and Industrial Applications (ISBEIA)

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