Physio-chemical and Thermal Characterization of Demineralized Poultry Litter using Mechanical Sizing Fractioning, Acid Solvents, and Deionized Water

Journal of Chemistry and Environment Pub Date : 2023-11-13 DOI:10.56946/jce.v2i2.153

Kevin Nyoni, Leungo Kelebopile

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Abstract

Poultry litter is an organic waste composed of manure, feathers, and bedding, containing both organic and inorganic elements. Inorganic elements corrode and agglomerate the reactors when poultry litter is thermally converted to biochar, bio-oil or combusted. Demineralizing poultry litter through mechanical size fractioning, acid solvent, and deionized water can decrease the inorganic elements' composition. This study investigates to identify the effects of different demineralization methods on the physio-chemical and thermal characteristics of poultry litter. Statistical analysis (p-value of 0.001) showed that the pretreatment methods reduced the inorganic elements. Mechanically fractioned poultry litter with particle sizes of 1.19-2.36mm and 2.37-5.00mm showed a low inorganic element composition of 7.85% and 9.19% when demineralized. The acid solvent and PL:DI treatments varied their extraction effectiveness depending on the type of inorganic element removed, ranging from 9.65-11.73% of the total inorganic element composition. PL:AcOH treatment had the lowest ash content at 6.89% from 12.33%. Mechanical size fractioned samples had the lowest moisture content, ranging from 2.53% to 4.65%. All the samples had high fixed carbon content except for PL:<1.18mm sample. Volatile matter for PL: AcOH, PL: DI, and PL:2.37-5.00mm samples were higher than the UT: PL and other treated samples. The treated samples noted a low C, high O, S, N, H/C, and O/C and comparable H content with UT: PL sample. Removal of inorganic elements increased the sample's high heating value, with the PL:2.37-5.00mm sample having the highest at 17.60 MJ Kg-1. The FTIR spectra of the demineralized sample revealed a reduction in the transmittance band, indicating the decomposition of the cellulose and hemicellulose structures. TGA-DTG supported the findings by noting a shift in temperature increase with peak temperatures higher than UT: PL sample samples. The degradation occurred at temperatures up to 380°C, noting the degradation of the cellulose and hemicellulose structure of the demineralized poultry litter.

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用机械施胶分馏、酸性溶剂和去离子水对脱盐家禽垃圾进行理化和热表征

家禽垃圾是一种有机废物，由粪便，羽毛和床上用品组成，含有有机和无机元素。当家禽垃圾被热转化为生物炭、生物油或燃烧时，无机元素会腐蚀和凝聚反应器。通过机械粒度分选、酸性溶剂和去离子水对禽肉垃圾进行脱矿处理，可以降低禽肉垃圾中无机元素的组成。本研究旨在探讨不同脱矿方式对家禽窝产仔理化和热特性的影响。统计分析(p值为0.001)表明预处理方法减少了无机元素。机械分拣粒度为1.19 ~ 2.36mm和2.37 ~ 5.00mm的鸡粪，脱矿后的无机元素含量较低，分别为7.85%和9.19%。酸性溶剂和PL:DI处理的提取效果随无机元素去除类型的不同而变化，占总无机元素组成的比例在9.65 ~ 11.73%之间。PL:AcOH处理的灰分最低，从12.33%降至6.89%。机械粒度分馏样品的含水率最低，为2.53% ~ 4.65%。除了PL:<1.18mm样品外，所有样品的固定碳含量都很高。PL: AcOH、PL: DI和PL:2.37 ~ 5.00mm样品的挥发物含量高于UT: PL和其他处理样品。处理后的样品具有低C、高O、S、N、H/C和O/C, H含量与UT: PL样品相当。无机元素的去除增加了样品的高热值，其中PL:2.37-5.00mm样品的最高热值为17.60 MJ Kg-1。脱矿后的FTIR光谱显示纤维素和半纤维素结构被分解，透光带减小。TGA-DTG通过注意到温度升高的变化，峰值温度高于UT: PL样品样品，支持了这一发现。降解发生在高达380°C的温度下，注意到脱矿家禽垃圾的纤维素和半纤维素结构的降解。

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Journal of Chemistry and Environment Chemistry and Environmental Sciences-

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期刊介绍： Journal of Chemistry and Environment (ISSN: 2959-0132) is a peer-reviewed, open-access international journal that publishes original research and reviews in the fields of chemistry and protecting our environment for the future in an ongoing way. Our central goal is to provide a hub for researchers working across all subjects to present their discoveries, and to be a forum for the discussion of the important issues in the field. All scales of studies and analysis, from impactful fundamental advances in chemistry to interdisciplinary research across physical chemistry, organic chemistry, inorganic chemistry, biochemistry, chemical engineering, and environmental chemistry disciplines are welcomed. All manuscripts must be prepared in English and are subject to a rigorous and fair peer-review process. Accepted papers will appear online within 3 weeks followed by printed hard copies. Note: There are no Article Publication Charges. (100% waived). Welcome to submit your Mini reviews, full reviews, and research articles. Journal of Chemistry and Environment aims to publish high-quality research in the following areas: (Topics include, but are not limited to, the following) • Physical, organic, inorganic & analytical chemistry • Biochemistry & medicinal chemistry • Environmental chemistry & environmental impacts of energy technologies • Chemical physics, material & computational chemistry • Catalysis, electrocatalysis & photocatalysis • Energy, fuel cells & batteries Journal of Chemistry and Environment publishes: • Full papers • Reviews • Minireviews