Synergistic effect of biological pre-treatment on co digestion of rice straw and sewage sludge: Process optimization and microbial interactions

IF 3.4 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
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Abstract

The increasing demand for renewable energy sources has prompted a search for innovative and efficient approaches for biogas production. This study investigates the potential of achieving sustainable biogas production through a synergistic combination of biological pre-treatment and co-digestion of rice straw (RS) and sewage sludge (SS). The goal is to enhance the overall methane yield, mitigate substrate limitations, and optimize the biogas production process. In this study, rice straw and sewage sludge were anaerobically co-digested in ratios of 100:0, 70:30, 50:50, 30:70, and 30:70. It was observed that the co-digestion ratio of 70:30 is optimal to achieve maximum methane yield of 0.3 L CH4/(g VS added). Biological pre-treatment with five different organisms Sphingobium sp., Paenibacillus sp., Microbacterium sp., Pseudomonas sp., and Stenotrophomonas sp. was also examined for RS and co-digested with SS at the optimized ratio to improve the degradability of RS. This pre-treatment strategy is anticipated to enhance the accessibility of microorganisms to substrates and accelerate the rates of hydrolysis. The biological pre-treatment resulted in a 20–23% improvement in methane yield compared to untreated substrates. Metagenomic studies revealed the dominance of Bacteroidetes, Firmicutes, and Proteobacteria, which are capable of utilizing lignocellulosic biomass and ultimately converting it to methane. The acetoclastic methanogensis is the major methane generating pathway which is supported by the complete dominance of genus Methanosaeta.

Abstract Image

生物预处理对稻草和污水污泥协同消化的协同效应:工艺优化与微生物相互作用
对可再生能源日益增长的需求促使人们寻求创新、高效的沼气生产方法。本研究通过对稻草(RS)和污水污泥(SS)进行生物预处理和协同消化的协同组合,探讨了实现可持续沼气生产的潜力。目的是提高整体甲烷产量,缓解基质限制,优化沼气生产过程。在这项研究中,稻草和污水污泥按照 100:0、70:30、50:50、30:70 和 30:70 的比例进行厌氧共同消化。结果表明,70:30 的共消化比例最适合达到 0.3 升 CH4/(g VS 添加量)的最大甲烷产量。此外,还研究了用五种不同的生物对 RS 进行生物预处理的方法,即鞘状芽孢杆菌(Sphingobium sp.)、担子菌(Paenibacillus sp.)、微杆菌(Microbacterium sp.)、假单胞菌(Pseudomonas sp.)和臭单胞菌(Stenotrophomonas sp.),并以最佳比例与 SS 共同消化,以提高 RS 的降解性。预计这种预处理策略可提高微生物对底物的可及性,并加快水解速度。与未经处理的底物相比,生物预处理使甲烷产量提高了 20-23%。元基因组研究显示,类杆菌、固形菌和变形菌占主导地位,它们能够利用木质纤维素生物质,并最终将其转化为甲烷。乙酰甲烷菌是产生甲烷的主要途径,这一点得到了 Methanosaeta 属完全占优势的支持。
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来源期刊
Biocatalysis and agricultural biotechnology
Biocatalysis and agricultural biotechnology Agricultural and Biological Sciences-Agronomy and Crop Science
CiteScore
7.70
自引率
2.50%
发文量
308
审稿时长
48 days
期刊介绍: Biocatalysis and Agricultural Biotechnology is the official journal of the International Society of Biocatalysis and Agricultural Biotechnology (ISBAB). The journal publishes high quality articles especially in the science and technology of biocatalysis, bioprocesses, agricultural biotechnology, biomedical biotechnology, and, if appropriate, from other related areas of biotechnology. The journal will publish peer-reviewed basic and applied research papers, authoritative reviews, and feature articles. The scope of the journal encompasses the research, industrial, and commercial aspects of biotechnology, including the areas of: biocatalysis; bioprocesses; food and agriculture; genetic engineering; molecular biology; healthcare and pharmaceuticals; biofuels; genomics; nanotechnology; environment and biodiversity; and bioremediation.
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