ACID WASH INFLUENCES ON PHYSICOCHEMICAL CHARACTERISTICS OF BAMBOO LEAVES ASH

IF 0.6 Q3 ENGINEERING, MULTIDISCIPLINARY Jurnal Teknologi-Sciences & Engineering Pub Date : 2023-08-21 DOI:10.11113/jurnalteknologi.v85.18082
S. Steven, Yusrin Ramli, Davin Pratama, Pandit Hernowo, Pasymi Pasymi, E. Restiawaty, Y. Bindar
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引用次数: 3

Abstract

Silica production from sandstone requires tremendous fossil resources that threaten our environment. Hence, greener resources from biomass should be utilized. One of them is from bamboo leaves which contain rich silica in ash. Even so, acid wash should be applied to achieve higher silica purity. This work aims to investigate the acid wash influences on the physicochemical characteristics of bamboo leaves ash (BLA). The treatment used 1 mol/L HCl under 1-h, 2-h, and no acid wash as a control. The BLA crystallography indicates a fully amorphous phase of silica. Interestingly, 1-h acid wash precisely reduces the silica purity from 95.35% to 94.74%, but it then increases to 96.06% under 2-h acid wash. It is also notified that the longer acid wash duration could alleviate leaves’ mechanical strength. After calcination, consequently, a smaller average particle size of BLA was nominated under 2-h acid wash (6.32 mm). It was then followed by 1-h acid wash (21.32 mm) and no acid wash (149.44 mm). The 2-h acid wash is concluded able to intensify silica purity as well as reduce the particle size of BLA. Finally, acid wash treatment becomes important to facilitate further BLA extraction in order to achieve high purity of silica.
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酸洗对竹叶灰理化特性的影响
从砂岩中生产二氧化硅需要大量的化石资源,这对我们的环境构成了威胁。因此,应该利用生物质中的绿色资源。其中一种来自竹叶,竹叶中的灰中含有丰富的二氧化硅。即便如此,也应采用酸洗以获得更高的二氧化硅纯度。研究了酸洗对竹叶灰理化特性的影响。1 mol/L HCl处理1 h, 2 h,不进行酸洗作为对照。BLA晶体学显示为完全无定形的二氧化硅相。有趣的是,1小时的酸洗精确地将二氧化硅纯度从95.35%降低到94.74%,但在2小时的酸洗下,二氧化硅纯度又上升到96.06%。同时指出,较长的酸洗时间可能会降低叶片的机械强度。因此,煅烧后的BLA在酸洗2 h下的平均粒径较小(6.32 mm)。然后进行1 h酸洗(21.32 mm)和不酸洗(149.44 mm)。结果表明,2 h酸洗可以提高二氧化硅纯度,减小BLA的粒径。最后,酸洗处理对于进一步提取BLA以获得高纯度二氧化硅非常重要。
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来源期刊
Jurnal Teknologi-Sciences & Engineering
Jurnal Teknologi-Sciences & Engineering ENGINEERING, MULTIDISCIPLINARY-
CiteScore
1.30
自引率
0.00%
发文量
96
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