Production of Biogas and Compost from Fermented OPEFB used for Straw Mushroom Planting

International Journal of Environmental Engineering and Development Pub Date : 2023-05-30 DOI:10.37394/232033.2023.1.1

S. Sarono, Devy Cendikia, S. Astuti, S. Supriyanto

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Abstract

This research aims to determine the effect of adding various decomposers on making biogas and compost from Oil Palm Empty Fruit Bunches (OPEFB) used for straw mushroom production. Method The treatment comprised the addition of five different decomposers. The decomposers used were (1) Control (addition of water), (2) 1,150 grams of cow dung as manure, (3) Waste activated sludge (WAS) from palm oil mill effluent (POME) 700 grams, (4) Giving EM4 68 ml, (5) 2,720 ml of palm oil mill effluent (POME). The parameters observed include temperature, pH, C/N ratio, biogas volume, biogas composition (CH4, CO2, and N2), and compost composition. The results showed that the highest biogas production occurred with the addition of an f EM4 decomposer, and the methane gas content reached 51.2% at 30°C process conditions, pH 7, and C/N ratio of 26.63. The highest biogas production was obtained with the addition of an EM4 decomposer, followed by manure, POME, WAS, and controls. The compost composition closer to SNI requirements was achieved by adding a manure decomposer that produced a C content of 24.63%, N 1.29 %, P 1.57%, K 0.18%, and C/N ratio 20.

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草菇种植用发酵OPEFB生产沼气和堆肥

本研究旨在确定添加各种分解者对油棕空果串(OPEFB)用于草菇生产的沼气和堆肥的影响。方法采用添加5种不同分解剂的处理方法。使用的分解器是(1)控制(加水)，(2)1150克牛粪作为粪便，(3)棕榈油厂废水(POME)产生的废活性污泥(WAS) 700克，(4)给予EM4 68毫升，(5)2,720毫升棕榈油厂废水(POME)。观测的参数包括温度、pH、C/N比、沼气体积、沼气组成(CH4、CO2和N2)和堆肥组成。结果表明:在30℃、pH为7、C/N为26.63的工艺条件下，添加fem4分解器产气量最高，甲烷含量达到51.2%;在添加EM4分解器的情况下，沼气产量最高，其次是粪肥、POME、was和对照。通过添加C含量为24.63%、N含量为1.29%、P含量为1.57%、K含量为0.18%、C/N比为20的粪肥分解剂，堆肥组成更接近SNI要求。

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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International Journal of Environmental Engineering and Development

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