PICKERING EMULSION TECHNOLOGY IN FABRICATE CELLULOSE FOAM FROM OIL PALM EMPTY FRUIT BUNCH WASTE

Jurnal Sains Materi Indonesia Pub Date : 2021-08-16 DOI:10.17146/jsmi.2021.22.3.6255

P. Amanda, S. Nabila, I. Ismadi, D. Purnomo, N. Masruchin

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引用次数: 1

Abstract

PICKERING EMULSION TECHNOLOGY IN FABRICATE CELLULOSE FOAM FROM OILPALM EMPTY FRUIT BUNCH WASTE. Cellulose from the oil palm empty fruit bunch (OPEFB) waste can make a porous material. This study aims to make cellulose foam with Pickering emulsion technology used cellulose nanofiber as a Pickering agent. The mechanism of Pickering emulsion is learned from foamability and stability of foam in the presence of various concentrations of surfactant. The result showed that using Pickering emulsion technology only needed surfactant with a small concentration to improve foamability and stability. The addition of CNF indeed improved the stability and foamability with the Pickering effect. The stability test shows that the foam stabilized with CNF appeared to be relatively stable. In contrast to the CNF free system, the foams were collapse in three days tested. Structures of foam was characterized using an optical microscope and showed that the foam was composed into two- or three dimensional microstructures formed by gas bubble of wet foam in random orientations. This process generated the lightweight Cellulose foam from OPEFB waste, with a density of 0.07 g/cm3. Using Pickering emulsion technology to make cellulose foam can be one way to overcome OPEFB waste and this foam is potential for various applications.

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油棕空果串废制备纤维素泡沫的酸洗乳化工艺研究

油棕果串废制备纤维素泡沫的酸洗乳化工艺研究。油棕空果串(OPEFB)废料中的纤维素可以制成多孔材料。以纤维素纳米纤维为酸洗剂，采用酸洗乳液法制备纤维素泡沫。通过不同浓度表面活性剂对泡沫的起泡性和稳定性的影响，研究了酸洗乳的形成机理。结果表明，采用皮克林乳状液工艺，只需要少量的表面活性剂，就能提高起泡性和稳定性。CNF的加入确实改善了皮克林效应的稳定性和泡沫性。稳定性试验表明，CNF稳定后的泡沫表现出相对的稳定性。与无CNF系统相比，泡沫在测试的三天内就崩溃了。利用光学显微镜对泡沫结构进行了表征，结果表明，泡沫由湿泡沫的气泡在随机方向上形成二维或三维微观结构。该工艺从OPEFB废料中产生轻质纤维素泡沫，密度为0.07 g/cm3。利用皮克林乳液技术制备纤维素泡沫是克服OPEFB废料的一种方法，该泡沫具有广泛的应用前景。

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Jurnal Sains Materi Indonesia

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