The Effect of Hydrochloric Acid Solution and Glycerol on The Mechanical, Hydrate Properties and Degradation Rate of Biofilm from Ripe Banana Peels

Jurnal Rekayasa Proses Pub Date : 2021-12-30 DOI:10.22146/jrekpros.69435

P. Ramadhany, Justin Kenny Hardono, Maria Gabriela Kristanti

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Abstract

Banana peel is a biomass waste that has not been utilised optimally, despite its high starch content. Moreover, starch has potential as a raw material for biofilm or edible film production. This research focused on using the starch content from the mature banana peel to create a biofilm. Starch was extracted from the banana peel; then, it was hydrolyzed with a variation of hydrochloric acid solution (HCl) of 0.5 M (0, 2, 4 %-v/v Starch). Glycerol (0, 20, 40 %-w/w starch) was used as a plasticizer. It was found that the formulation of 4%-v/v HCl solution and glycerol 20%-w/w resulted in the highest biofilm’s tensile strength of 4.18 MPa. However, the elongation break percentage achieved the best result at 20,2% when the formulation of 0%-v/v HCl solution and 40%-w/w glycerol was applied. Increasing HCl solution and glycerol was proven to improve the biofilm’s solubility in the water, where 47.9% solubility was attained in the formulation of 40%-w/w glycerol and 4%-v/v HCl solution. The degradation rate of biofilm in the soil was measured using zero- and first-order kinetic rates. The zero-order resulted in the best model with a half-life time (t1/2) between 73 to 108 days.

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盐酸溶液和甘油对成熟香蕉皮生物膜力学、水合性能和降解速率的影响

香蕉皮是一种生物质废物，尽管其淀粉含量很高，但尚未得到最佳利用。此外，淀粉具有作为生物膜或食用膜生产原料的潜力。这项研究的重点是利用成熟香蕉皮中的淀粉含量来制造生物膜。从香蕉皮中提取淀粉；然后，用0.5M的盐酸溶液（HCl）（0，2，4%-v/v淀粉）进行水解。甘油（0，20，40%-w/w淀粉）被用作增塑剂。研究发现，4%-v/v的HCl溶液和20%-w/w的甘油的配方产生了4.18MPa的最高生物膜拉伸强度。然而，当使用0%-v/v HCl溶液和40%-w/w甘油的配方时，伸长率在20.2%时达到最佳结果。增加HCl溶液和甘油被证明可以提高生物膜在水中的溶解度，其中在40%-w/w甘油和4%-v/v HCl溶液的配方中获得47.9%的溶解度。使用零级和一级动力学速率测量土壤中生物膜的降解速率。零阶导致半衰期（t1/2）在73至108天之间的最佳模型。

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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Jurnal Rekayasa Proses

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16 weeks