在以秘鲁豚鼠粪便为原料的生物消化器中使用纳米结构磁铁矿（FeO）提高沼气产量。

Enhancement of biogas production using nanostructured magnetite (FeO) in a biodigester fed with Peruvian guinea pig manure.

作者信息

Flores Vargas Rosa, Gómez Hernández William Eduardo, Macazana López Karenina Ela, Luyo Caycho Clemente Alfredo, Muñoz Baca Yelstin Adrian, Tito Harry Anderson Rivera, Quintana Cáceda María Esther

机构信息

Center for the Development of Advanced Materials and Nanotechnology, National University of Engineering Av. Tupac Amaru 210 Lima 25 Peru

出版信息

RSC Adv. 2025 May 9;15(19):15375-15383. doi: 10.1039/d5ra00102a. eCollection 2025 May 6.

DOI:10.1039/d5ra00102a

PMID:40352389

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12063525/

Abstract

Magnetite nanoparticles were used to increase biogas production in a biodigester fed with Peruvian guinea pig () manure (PGPM). The nanoparticles were synthesized two different methods-coprecipitation and polyol-and thus showed different sizes of 410.7 nm and 34.03 nm, respectively. Likewise, various configurations were tested using three distinct FeO proportions, with each configuration tested in triplicate biodigesters. The coprecipitation trial with FeO was tested with an initial substrate of 5.57 g of chemical oxygen demand (COD) and 0.96 g of volatile solids (VSs) as inoculum. This ferrous additive led to a methane production increase of up to 9.61%, with a biodegradability of 57.91%. At the same time, the polyol trial with FeO was tested with an initial substrate of 34.47 g of COD and 0.80 g VS as inoculum, increasing methane production by up to 64.5% with a biodegradability of up to 8.56%. Moreover, the inhibitory effect of the synthesized FeO, which was inconsequential for bacterial growth, was analyzed. Therefore, these nanoparticles have been shown to support methanogenic bacteria in enhancing methane production.

摘要

磁铁矿纳米颗粒被用于提高以秘鲁豚鼠粪便（PGPM）为原料的生物消化器中的沼气产量。这些纳米颗粒通过两种不同方法合成——共沉淀法和多元醇法，因此尺寸分别为410.7纳米和34.03纳米。同样，使用三种不同的FeO比例测试了各种配置，每种配置在三个重复的生物消化器中进行测试。以5.57克化学需氧量（COD）和0.96克挥发性固体（VSs）作为接种物的初始底物，对含FeO的共沉淀试验进行了测试。这种亚铁添加剂使甲烷产量提高了9.61%，生物降解率达到57.91%。同时，以34.47克COD和0.80克VS作为接种物的初始底物，对含FeO的多元醇试验进行了测试，甲烷产量提高了64.5%，生物降解率高达8.56%。此外，还分析了合成的FeO对细菌生长无显著影响的抑制作用。因此，这些纳米颗粒已被证明有助于产甲烷菌提高甲烷产量。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6e2e/12063525/6a86d6c244c7/d5ra00102a-f1.jpg

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在以秘鲁豚鼠粪便为原料的生物消化器中使用纳米结构磁铁矿（FeO）提高沼气产量。

Enhancement of biogas production using nanostructured magnetite (FeO) in a biodigester fed with Peruvian guinea pig manure.

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