草与食物垃圾共消化产生沼气

农业化学和环境(英文) Pub Date : 2020-02-25 DOI:10.4236/jacen.2020.91003

Hamidatu S. Darimani, D. Pant

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引用次数: 4

摘要

加纳的草原管理已经变得非常糟糕，以至于大多数农村社区都会引发丛林大火，这给环境带来了很多挑战。草可以用来产生沼气。本研究调查了草和食物垃圾共消化对沼气产量的影响，并阐明了草的添加如何提高AD性能。然后在厌氧条件下评估与共基质食物垃圾（FW）混合的草（GR）用于生产沼气（甲烷）。建立了五个实验室规模的反应器，R1（100%FW，0%GR）、R2（75%FW，25%GR）、R3（50%FW，50%GR）、R4（25%FW，75%GR）和R5（0%FW，100%GR），其中草和食物垃圾的总固体浓度为8%。在35°C±2°C的室温下消化二十（20）天。R1、R2、R3、R4、R5的沼气产量分别为805、840、485、243和418 mL。食物垃圾只产生805毫升沼气，草只产生418毫升沼气。食物垃圾产生的沼气只比草多50%。然而，在75%FW、25%FW的共同消化中产生的沼气比仅食物垃圾多6%。

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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Biogas Production from Co-Digestion of Grass with Food Waste

Management of grasslands in Ghana has become so poor that most rural communities result in bushfires that cause a lot of environmental challenges. Grass could be used for biogas generation. This study investigated the effect of grass and food waste co-digestion on the biogas yield and clarified how the addition of grass enhances the AD performance. Grass (GR) mixed with the co-substrate food waste (FW) was then evaluated under anaerobic conditions for the production of biogas (methane). Five laboratory-scale reactors, R1 (100% FW, 0% GR), R2 (75% FW, 25% GR), R3 (50% FW, 50% GR), R4 (25% FW, 75% GR) and R5 (0% FW, 100% GR) were set up with different proportions of grass and food waste which had 8% total solid concentration. Digestion was carried out for twenty (20) days at room temperature, 35°C ± 2°C. The biogas yield in the R1, R2, R3, R4, R5 was 805, 840, 485, 243 and 418 mL respectively. Food waste only produced 805 mL and grass only produced 418 mL of biogas. Food waste only produced 50% more biogas than grass. However, co-digestion at 75% FW, 25% resulted in 6% more biogas than food waste only.

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来源期刊

农业化学和环境(英文)

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发文量

148