Anaerobic Co-digestion of Expired Dairy Products and Synthetic Domestic Wastewater: Effect on Methane Potential in Batch Reactors

IF 3.1 3区工程技术 Q3 ENERGY & FUELS

BioEnergy Research Pub Date : 2024-06-22 DOI:10.1007/s12155-024-10778-9

Danieli Fernanda Canaver Marin, Caroline Varella Rodrigues, Romário Pereira de Carvalho Júnior, Sandra Imaculada Maintinguer

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Abstract

Substantial amounts of expired dairy products (EDP) are generated due to their high perishability. These wastes are rich in organic matter, and their landfill disposal negatively impacts the environment. An alternative to reducing and recovering this waste would be to use it as a substrate in anaerobic digestion (AD) to produce biogas. This study investigated methane (CH₄) production using different concentrations of EDP co-digested with synthetic domestic wastewater (SDW). Five anaerobic batch reactors (1000 mL) were assembled with different concentrations of EDP in SDW (500 mL working volume), namely (1) 0%, (2) 5.0%, (3) 7.5%, (4) 10.0%, and (5) 15.0% (v/v). COD removals were 81%, 84%, 80%, 89%, and 14% for assays 1 to 5, respectively. The cumulative CH₄ productions were (mL/L) 717, 3354, 5327, 6584, and 1156 for assays 1 to 5, respectively. Assay 5 (15% EDP) was inhibited by volatile fatty acid (VFA) accumulation. However, assays 2, 3, and 4 (with 5.0–10.0% EDP) showed high CH₄ yields (mLCH₄/gVS_add) of 319, 333, and 317, respectively, demonstrating the feasibility of anaerobic co-digestion of EDP with SDW. In assays 3 and 4, a similar archaeal community structure was observed, dominated by the genera Methanosaeta, Methanolinea, Methanoregula, and Methanobacterium. In assay 2, the archaeal community demonstrated lower dominance due to insufficient substrate adaptation. This study confirms the viability of using EDP in AD systems to generate CH₄, suggesting future sustainable applications for this residue.

Graphical Abstract

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过期乳制品和合成生活废水的厌氧协同消化：对间歇式反应器中甲烷潜力的影响

由于过期乳制品极易变质，因此会产生大量过期乳制品（EDP）。这些废物富含有机物，填埋处理会对环境造成负面影响。减少和回收这些废物的另一种方法是将其用作厌氧消化（AD）的基质，以产生沼气。本研究调查了使用不同浓度的 EDP 与合成生活废水（SDW）共同消化产生甲烷（CH4）的情况。在 SDW（500 mL 工作容积）中加入不同浓度的 EDP 后，组装了五个厌氧间歇反应器（1000 mL），分别为 (1) 0%、(2) 5.0%、(3) 7.5%、(4) 10.0% 和 (5) 15.0%（v/v）。检测 1 至 5 的 COD 去除率分别为 81%、84%、80%、89% 和 14%。化验 1 至 5 的累积 CH4 产量分别为（毫升/升）717、3354、5327、6584 和 1156。试验 5（15% EDP）受到挥发性脂肪酸（VFA）积累的抑制。然而，试验 2、3 和 4（EDP 含量为 5.0-10.0%）的 CH4 产率（mLCH4/gVSadd）分别高达 319、333 和 317，证明了厌氧协同消化 EDP 和 SDW 的可行性。在试验 3 和试验 4 中，观察到了类似的古菌群落结构，主要是 Methanosaeta、Methanolinea、Methanoregula 和 Methanobacterium 属。在试验 2 中，由于对底物的适应性不足，古菌群落的优势度较低。这项研究证实了在厌氧消化（AD）系统中使用 EDP 生成 CH4 的可行性，为这种残留物未来的可持续应用提供了建议。

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来源期刊

BioEnergy Research ENERGY & FUELS-ENVIRONMENTAL SCIENCES

CiteScore

6.70

自引率

8.30%

发文量

174

审稿时长

3 months

期刊介绍： BioEnergy Research fills a void in the rapidly growing area of feedstock biology research related to biomass, biofuels, and bioenergy. The journal publishes a wide range of articles, including peer-reviewed scientific research, reviews, perspectives and commentary, industry news, and government policy updates. Its coverage brings together a uniquely broad combination of disciplines with a common focus on feedstock biology and science, related to biomass, biofeedstock, and bioenergy production.