从以Tapioka壁为粘结剂的新加坡壁到转鼓造粒机的粒度分布

Eksergi Pub Date : 2023-07-03 DOI:10.31315/e.v20i2.9170
D. Handayani, W. B. Sediawan, Daniel Timotius, Mitha Puspitasari
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引用次数: 0

摘要

颗粒化是一种单颗粒附着的过程,具有特定的机理,形成更大、更紧密的颗粒,称为颗粒。造粒应用已被应用于许多行业,如制药和农业。关于造粒的研究一直在进行,以获得各种情况的预测模型。该模型仅适用于本研究中使用的特定材料,有望用于优化工业中造粒机的性能。本研究旨在通过改变转筒造粒机中作为粘合剂的木薯淀粉的质量,建立木薯粉粒度分布的动力学模型及其与造粒时间的关系。将2克木薯粉和木薯淀粉在转鼓造粒机中混合,然后在造粒过程中喷水。造粒的持续时间为5、10、15、20和25分钟。本研究中使用的粘合剂的质量变化为1、1、5和2克。将颗粒在80°C的烘箱中干燥至30分钟,然后通过具有不同网目尺寸的各种筛网层对颗粒进行筛选。研究结果表明,粘结剂质量的变化不会影响颗粒的分层率,粘结剂质量增加会降低出生率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Distribusi Ukuran Granul dari Tepung Singkong dengan Tepung Tapioka sebagai Pengikat pada Rotary Drum Granulator
Granulation is a process of monoparticle attachment with a particular mechanism to form a bigger and compact particle which is called granule. Granulation application has been used on many industries like pharmacy and agriculture industries. Research about granulation has been done continuously to get predictive models for various cases. The model which is only applicable to the specific material used in this research is expected to be useful to optimize the perfomances of the granulator in the industries. This research aims to develop the kinetics model of granule size distribution of cassava flour and its connection to granulation time by varying the mass of tapioca starch as the binder in rotary drum granulator. 2 grams of Cassava flour and tapioca starch were mixed in the rotary drum granulator and then water was sprayed during the granulation process. The duration of granulation were 5, 10, 15, 20, and 25 minutes. The variations of mass of the binder used in this research were 1, 1,5, and 2 gram. The granules were dried in the oven at 80°C until 30 minutes, and afterwards the granules were screened through various screen layers with different mesh size. The results of this research show that binder mass variations do not influence the layering rate of granule, and the increase of binder mass will decrease the birth rate.
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