ANAEROBIC DIGESTION OF BREWER’S SPENT GRAIN WITH BIOCHAR – BIOGAS PRODUCTION KINETICS AND PROCESS EFFICIENCY

IF 1.2 Q4 ENGINEERING, ENVIRONMENTAL Detritus Pub Date : 2023-06-15 DOI:10.31025/2611-4135/2023.17277

Kacper Świechowski, Ewa Syguła, Waheed A. Rasaq, Alan Gasiński, Jacek Łyczko

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引用次数: 1

Abstract

Biochars made from brewer’s spent grain were added to the anaerobic digestion of brewer’s spent grain to enhance the methane fermentation process and improve biogas production. In research, the effect of biochars made at 300, 450, and 600 °C and doses of 1-8% added to anaerobic digestion was tested. The biochemical biogas potential tests in mesophilic conditions were performed. The tests took 28 days, the biogas yield for each reactor varied from 500-650 ml×gVS-1, and around 60% substrate degradation was obtained. For each test, the kinetics parameters using the first-order model were determined. The constant biogas production rate (k), and the biogas production rate (r) varied from 0.05-0.08 d−1, and 42-60 ml×(gVS×d)−1 respectively. Though the differences in biogas production turned out to be statistically insignificant (p<0.05) due to the high disappearance in obtained data and conflicting effects, the response surface area analysis showed that biochar made at 450 °C at the share of 1-4% could be used to maximize biogas production. Nevertheless, supplementation with biochar needs to be done carefully since in many cases, a reduction in biogas production was observed

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用生物炭厌氧消化啤酒废粮——产气动力学和工艺效率

将啤酒糟制成的生物炭添加到啤酒糟的厌氧消化中，以增强甲烷发酵过程，提高沼气产量。在研究中，测试了在300、450和600°C下制备的生物炭以及在厌氧消化中添加1-8%剂量的生物炭的效果。在中温条件下进行了生物化学沼气电位测试。试验历时28天，每个反应器的沼气产量在500-650ml×gVS-1之间，底物降解率约为60%。对于每个试验，使用一阶模型确定动力学参数。恒定产气量（k）和产气量（r）分别在0.05-0.08 d−1和42-60 ml×（gVS×d）−1之间变化。尽管由于所获得数据的高度消失和相互矛盾的影响，沼气产量的差异在统计学上不显著（p<0.05），但响应表面积分析表明，在450°C下以1-4%的份额生产的生物炭可用于最大限度地提高沼气产量。然而，补充生物炭需要小心，因为在许多情况下，观察到沼气产量减少

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