Characterizing and modeling hydrogen sulfide production in anaerobic digestion of livestock manure, agro-industrial wastes, and wastewater sludge

IF 5.9 3区 工程技术 Q1 AGRONOMY Global Change Biology Bioenergy Pub Date : 2023-08-26 DOI:10.1111/gcbb.13093
Sarah E. Daly, Ji-Qin Ni
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Abstract

Hydrogen sulfide (H2S) is the most undesirable inorganic gas in biogas from anaerobic digestion (AD). However, H2S production in AD is complex and understanding of its processes is still limited. This study performed six controlled batch anaerobic co-digestion experiments to investigate H2S production. Materials were obtained from four field anaerobic digester systems and co-digestion feedstocks from agroindustry. An additional precipitation experiment was conducted to further examine H2S production dynamics. Digesters containing highly soluble, carbohydrate-based wastes had a high H2S final specific production (FSP) value. Additionally, the FSP values were negatively correlated with the initial Fe(II):S ratios in the digester liquid of the batch tests. The precipitation experiment indicated that iron sulfide precipitation was preferred in the presence of an anaerobic community. The H2S production as a time series was successfully modeled using a generalized additive model (R2 > 0.82). This study revealed that sulfate, phosphorus, and iron concentrations are important predictors and potential inhibitors of H2S production in AD. Further examination of real-time H2S modeling in AD is warranted.

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牲畜粪便、农业工业废物和废水污泥厌氧消化过程中硫化氢产生的特征和建模
硫化氢(H2S)是厌氧消化(AD)沼气中最不理想的无机气体。然而,AD中的H2S生产是复杂的,对其过程的了解仍然有限。本研究进行了六个控制分批厌氧共消化实验,以研究H2S的产生。材料来自四个现场厌氧消化器系统和来自农业的共消化原料。进行了额外的沉淀实验,以进一步检查H2S的生产动态。含有高可溶性碳水化合物废物的消化酯具有较高的H2S最终比产量(FSP)值。此外,FSP值与分批试验消化液中的初始Fe(II):S比率呈负相关。沉淀实验表明,在厌氧群落存在的情况下,硫化铁沉淀是优选的。使用广义加性模型(R2 > 0.82)。本研究表明,硫酸盐、磷和铁浓度是AD中H2S产生的重要预测因素和潜在抑制剂。有必要对AD中的实时H2S建模进行进一步检查。
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来源期刊
Global Change Biology Bioenergy
Global Change Biology Bioenergy AGRONOMY-ENERGY & FUELS
CiteScore
10.30
自引率
7.10%
发文量
96
审稿时长
1.5 months
期刊介绍: GCB Bioenergy is an international journal publishing original research papers, review articles and commentaries that promote understanding of the interface between biological and environmental sciences and the production of fuels directly from plants, algae and waste. The scope of the journal extends to areas outside of biology to policy forum, socioeconomic analyses, technoeconomic analyses and systems analysis. Papers do not need a global change component for consideration for publication, it is viewed as implicit that most bioenergy will be beneficial in avoiding at least a part of the fossil fuel energy that would otherwise be used. Key areas covered by the journal: Bioenergy feedstock and bio-oil production: energy crops and algae their management,, genomics, genetic improvements, planting, harvesting, storage, transportation, integrated logistics, production modeling, composition and its modification, pests, diseases and weeds of feedstocks. Manuscripts concerning alternative energy based on biological mimicry are also encouraged (e.g. artificial photosynthesis). Biological Residues/Co-products: from agricultural production, forestry and plantations (stover, sugar, bio-plastics, etc.), algae processing industries, and municipal sources (MSW). Bioenergy and the Environment: ecosystem services, carbon mitigation, land use change, life cycle assessment, energy and greenhouse gas balances, water use, water quality, assessment of sustainability, and biodiversity issues. Bioenergy Socioeconomics: examining the economic viability or social acceptability of crops, crops systems and their processing, including genetically modified organisms [GMOs], health impacts of bioenergy systems. Bioenergy Policy: legislative developments affecting biofuels and bioenergy. Bioenergy Systems Analysis: examining biological developments in a whole systems context.
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