Enhanced Efficiency for Biogas Production from Distillery Wastewater as Mixed with Molasses and Glycerol Waste in the Anaerobic Co-Digestion

Q2 Pharmacology, Toxicology and Pharmaceutics

Science and Technology Indonesia Pub Date : 2024-01-22 DOI:10.26554/sti.2024.9.1.120-128

Kiattisak Rattanadilok Na Phuket, Tussanee Srimachai, Saowarod Luanunkarb, S. O-thong

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Abstract

This experiment was conducted to decide the impact of molasses and glycerol waste on upgraded methane production in anaerobicco-digestion with distillery wastewater. Co-substrates used for biogas production in the anaerobic co-fermentation process ofdistillery wastewater (DW) were molasses (ML) and glycerol waste (GW). The co-substrate concentration in all batch experimentsvaried between 1% and 5% (v/v). To study the efficiency of biogas production, the optimal ratio was chosen for operation in thePFR continuous reactor. Optimization results indicated that anaerobic co-digestion of DW with 5% GW and 1% ML could improvebiogas quality and quantity. HRT for 30 days allowed R2 (95% DW: 5% GW) to produce maximum methane production per 11 m3CH4/m3mixed wastewater, followed by R1 (99% DW: 1%). ML) 6 m3CH4/m3mixed wastewater and control (100% DW) could onlyproduce 2.7 m3CH4/m3mixed wastewater methane. As co-substrates, GW and ML can be balanced to coordinate the C/N ratio andpH of DW. In particular, the C/N ratio of the mixed sewage can be balanced, and the concentration of ammonia nitrogen within ananaerobic digestion tank can be diluted. Therefore, GW can be used as an optimal co-substrate as it improves the C/N ratio, dilutestoxic compounds within DW, and provides lower prices, thus increasing the potential for methanogenesis within DW affected toincrease biogas production.

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在厌氧协同消化过程中提高酒厂废水与糖蜜和甘油废料混合产生沼气的效率

本实验旨在确定糖蜜和甘油废料对酒厂废水厌氧协同发酵过程中甲烷产量升级的影响。在酒厂废水（DW）的厌氧协同发酵过程中，用于生产沼气的协同基质是糖蜜（ML）和甘油废料（GW）。所有批次实验中的共底物浓度都在 1%至 5%（v/v）之间。为了研究沼气生产的效率，选择了最佳比例，以便在 PFR 连续反应器中运行。优化结果表明，DW 与 5% GW 和 1% ML 的厌氧共同消化可以提高沼气的质量和数量。30 天的 HRT 使 R2（95% DW：5% GW）在每 11 m3CH4/m3 混合废水中产生最多甲烷，其次是 R1（99% DW：1% ML）6 m3CH4/m3 混合废水。ML）6 m3CH4/m3 混合废水和对照组（100% DW）只能产生 2.7 m3CH4/m3 混合废水甲烷。作为辅助底物，GW 和 ML 可以平衡 DW 的 C/N 比和 pH 值。特别是可以平衡混合污水的 C/N 比，稀释厌氧消化池内的氨氮浓度。因此，GW 可用作最佳的辅助底物，因为它能提高 C/N 比，稀释 DW 中的有毒化合物，并提供较低的价格，从而提高 DW 中甲烷生成的潜力，增加沼气产量。

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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