INFLUENCE OF SUBCRITICAL WATER PRETREATMENT TEMPERATURE ON PINEAPPLE WASTE BIOGAS EFFICIENCY: EXPERIMENTAL AND KINETIC STUDY

Journal of Engineering and Sustainable Development Pub Date : 2024-03-01 DOI:10.31272/jeasd.28.2.1

A. F. Aili Hamzah, M. H. Hamzah, H. Che Man, N. S. Jamali, S. I. Siajam

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Abstract

Anaerobic digestion of pineapple waste appears to be an effective method for non-renewable energy substitution through biogas production. The potential power generation from the exploitation of pineapple waste as fuel is estimated to be roughly 20.8 MW. Nevertheless, the intricate composition of pineapple waste, characterized by the complex arrangement of its structure, poses a significant challenge in attaining a substantial amount of biogas production. This study pretreated pineapple waste with subcritical water to increase biogas production. Two temperature settings (120⁰C and 200⁰C) were used for pretreatment. Combined pre-treatment at low temperatures and short time (120⁰C, 5 minutes, 10 water to solid ratio) resulted in 31.6% higher biogas production than untreated. However, pretreatment at high temperatures and longer reaction time (200⁰C,25 min) reduced the biogas production by 9% as compared to untreated. Using the Modified Gompertz kinetic model, pretreatment improved the lag phase and increased biogas production to 14.41 mL/day. The lignocellulosic composition of pre-treated pineapple waste decreased, while process parameters such as total ammonia nitrogen removal and pH improved after the pretreatment. Subcritical water pretreatment, particularly when conducted at high temperatures, did not yield any enhancements in the anaerobic digestion of pineapple waste. As a result, it is not advisable to employ this method for these purposes.

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亚临界水预处理温度对菠萝废料沼气效率的影响：实验和动力学研究

菠萝废料的厌氧消化似乎是通过生产沼气替代不可再生能源的有效方法。利用菠萝废料作为燃料的潜在发电量估计约为 20.8 兆瓦。然而，菠萝废料成分复杂，结构排列错综复杂，这对获得大量沼气产量构成了巨大挑战。本研究采用亚临界水对菠萝废料进行预处理，以提高沼气产量。预处理采用了两种温度设置（120⁰C 和 200⁰C）。在低温和短时间内（120⁰C，5 分钟，10 水固比）进行联合预处理，沼气产量比未经处理的高出 31.6%。然而，高温预处理和较长的反应时间（200⁰C，25 分钟）使沼气产量比未经处理的减少了 9%。利用修正的贡培兹动力学模型，预处理改善了滞后期，并将沼气产量提高到 14.41 毫升/天。预处理后，菠萝废料中的木质纤维素成分减少，而总氨氮去除率和 pH 值等工艺参数有所改善。亚临界水预处理，特别是在高温下进行的亚临界水预处理，并没有提高菠萝废料的厌氧消化率。因此，不宜采用这种方法。

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