Chemical pretreatment of lignocellulosic wastes for cellulase production by Aspergillus niger FNU 6018

PROCEEDINGS OF THE 2ND INTERNATIONAL CONFERENCE ON BIOSCIENCES AND MEDICAL ENGINEERING (ICBME2019): Towards innovative research and cross-disciplinary collaborations Pub Date : 2019-09-06 DOI:10.1063/1.5125544

I. Gunam, N. S. Antara, A. Anggreni, Y. Setiyo, I. P. Wiguna, I. Wijaya, I. Putra

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引用次数: 6

Abstract

The objective of the research was to find out a source of lignocelluloses that could be converted to simple sugars especially glucose as a raw material in bioethanol production. The bioethanol production is an inefficient process, particularly the delignification process. Some solid wastes such as bagasse, corn straw, paddy straw, and sawdust were used as raw materials of lignocelluloses resource. The raw material was dried, ground into small particles, and delignified by using sodium hydroxide (NaOH), ammonia (NH3), and Hydrogen Peroxide (H2O2) in different concentration and soaking time. Two kinds of cellulose resources were chosen based on the value of its potency with the best chemical treatment for delignification. These selected cellulose and chemical used for delignification process were then used as substrate of cellulase enzyme production by Aspergillus niger FNU 6018. Results of the research showed that NaOH was the most effective chemical substance used in delignification process. This solvent also could increase the water retention value (WRV) of the lignocelluloses. Bagasse and corn straw were the potential agriculture waste to be used as raw material in bioethanol production. After delignification process, this raw material contained cellulose, lignin, and WRV of 69.46%, 8.79%, and 8.42, respectively. The FP-ase activity (bagasse as substrate) and CMC-ase activity (corn straw as substrate) of the crude enzyme was 0.0226 U and was 0.0606 U, respectively.The objective of the research was to find out a source of lignocelluloses that could be converted to simple sugars especially glucose as a raw material in bioethanol production. The bioethanol production is an inefficient process, particularly the delignification process. Some solid wastes such as bagasse, corn straw, paddy straw, and sawdust were used as raw materials of lignocelluloses resource. The raw material was dried, ground into small particles, and delignified by using sodium hydroxide (NaOH), ammonia (NH3), and Hydrogen Peroxide (H2O2) in different concentration and soaking time. Two kinds of cellulose resources were chosen based on the value of its potency with the best chemical treatment for delignification. These selected cellulose and chemical used for delignification process were then used as substrate of cellulase enzyme production by Aspergillus niger FNU 6018. Results of the research showed that NaOH was the most effective chemical substance used in delignification process. This solvent ...

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黑曲霉FNU 6018生产纤维素酶的木质纤维素废弃物化学预处理研究

这项研究的目的是找到一种可以转化为单糖的木质纤维素的来源，特别是作为生物乙醇生产原料的葡萄糖。生物乙醇的生产是一个低效的过程，特别是脱木质素过程。以甘蔗渣、玉米秸秆、稻谷秸秆、锯末等固体废弃物为原料制备木质纤维素资源。采用不同浓度、不同浸泡时间的氢氧化钠(NaOH)、氨(NH3)和过氧化氢(H2O2)对原料进行干燥、磨碎、脱木素处理。根据纤维素的效力价值，选择了两种纤维素资源，并对其进行了最佳的脱木质素化学处理。然后将这些选择的纤维素和用于脱木质素过程的化学物质作为黑曲霉FNU 6018生产纤维素酶的底物。研究结果表明，NaOH是脱木质素过程中最有效的化学物质。该溶剂还可以提高木质纤维素的保水值(WRV)。甘蔗渣和玉米秸秆是有潜力作为生物乙醇生产原料的农业废弃物。经脱木质素处理后，该原料的纤维素、木质素和WRV含量分别为69.46%、8.79%和8.42%。粗酶的fp酶活性(甘蔗渣为底物)和cmc酶活性(玉米秸秆为底物)分别为0.0226 U和0.0606 U。这项研究的目的是找到一种可以转化为单糖的木质纤维素的来源，特别是作为生物乙醇生产原料的葡萄糖。生物乙醇的生产是一个低效的过程，特别是脱木质素过程。以甘蔗渣、玉米秸秆、稻谷秸秆、锯末等固体废弃物为原料制备木质纤维素资源。采用不同浓度、不同浸泡时间的氢氧化钠(NaOH)、氨(NH3)和过氧化氢(H2O2)对原料进行干燥、磨碎、脱木素处理。根据纤维素的效力价值，选择了两种纤维素资源，并对其进行了最佳的脱木质素化学处理。然后将这些选择的纤维素和用于脱木质素过程的化学物质作为黑曲霉FNU 6018生产纤维素酶的底物。研究结果表明，NaOH是脱木质素过程中最有效的化学物质。这种溶剂…

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PROCEEDINGS OF THE 2ND INTERNATIONAL CONFERENCE ON BIOSCIENCES AND MEDICAL ENGINEERING (ICBME2019): Towards innovative research and cross-disciplinary collaborations

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