Co-composting of green waste and biogas waste: physical, chemical parameters and quality of ripe compound

被引：1

作者：

Bortoloti M.A. ^{[1
]}

Challiol A.Z. ^{[1
]}

Sicchieri I.M.B. ^{[1
]}

Kuroda E.K. ^{[1
]}

Fernandes F. ^{[1
]}

机构：

[1] Department of Civil Engineering, Center for Technology and Urbanism, State University of Londrina, Celso Garcia Cid Highway (PR-445), Km 380, Paraná, Londrina

来源：

Environmental Science and Pollution Research | 2024年 / 31卷 / 23期

关键词：

Fertilizer; Lignin; Nutrients; Phytotoxicity; Stabilization; Structuring substrate;

D O I：

10.1007/s11356-024-33539-9

中图分类号：

学科分类号：

摘要：

The impact of adding biogas waste (BW) to green waste (GW) composting to increase nitrogen supplementation and improve mature compost quality was investigated. Conducted over 90 days using static windrows, the experiment compared treatments with GW alone (T1) and GW supplemented with BW (T2 and T3). The results showed that the addition of BW increased temperatures, improved the C/N ratio, and expedited the stabilization process compared to T1. Furthermore, the addition of BW led to significant degradation of hemicellulose (up to 39.98%) and cellulose (up to 27.63%) compared to GW alone. Analysis of Fourier-transform infrared (FTIR) spectra revealed the presence of aromatic, phenolic, aliphatic, and polysaccharide structures in the compost, with BW supplementation enhancing these characteristics. Importantly, the germination index (GI) assessment indicated that the compounds produced were not toxic and instead exhibited stimulatory effects on seed germination. Overall, the findings suggest that supplementing GW composting with BW can enhance the quality and efficacy of the composting process, resulting in compost with desirable properties for agricultural use. © The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature 2024.

引用

页码：34258 / 34270

页数：12

共 52 条

[41]

Vig A.P., Singh J., Wani S.H., Dhaliwal S.S., Vermicomposting of tannery sludge mixed with cattle dung into valuable manure using earthworm Eisenia fetida (Savigny), Biores Technol, 102, 17, pp. 7941-7945, (2011)

[42]

Wang Q., Awasthi M.K., Ren X., Zhao J., Li R., Wang Z., Chen H., Wang M., Zhang Z., Comparison of biochar, zeolite and their mixture amendment for aiding organic matter transformation and nitrogen conservation during pig manure composting, Biores Technol, 245, pp. 300-308, (2017)

[43]

Wu X., Amanze C., Wang J., Yu Z., Shen L., Wu X., Zeng W., Isolation and characterization of a novel thermotolerant alkali lignin-degrading bacterium Aneurinibacillus sp. LD3 and its application in food waste composting, Chemosphere, 307, 3, (2022)

[44]

Xu M., Sun H., Yang M., Xie D., Sun X., Meng J., Wu C., Biodrying of biogas residue through a thermophilic bacterial agent inoculation: insights into dewatering contribution and microbial mechanism, Biores Technol, 355, (2022)

[45]

Yang W.Q., Zhuo Q., Chen Q., Chen Z., Effect of iron nanoparticles on passivation of cadmium in the pig manure aerobic composting process, Sci Total Environ, 690, pp. 900-910, (2019)

[46]

Yu Z., Liu X., Zhao M., Zhao W., Liu J., Tang J., Liaoc H., Chenc Z., Zhou S., Hyperthermophilic composting accelerates the humification process of sewage sludge: molecular characterization of dissolved organic matter using EEM–PARAFAC and two-dimensional correlation spectroscopy, Biores Technol, 274, pp. 198-206, (2019)

[47]

Zeng G., Huang D., Huang G., Hu T., Jiang X., Feng C., Chen Y., Tang L., Liu H., Composting of lead-contaminated solid waste with inocula of white-rot fungus, Biores Technol, 98, pp. 320-326, (2017)

[48]

Zhang L., Sun X., Tian Y., Gong X., Effects of brown sugar and calcium superphosphate on the secondary fermentation of green waste, Biores Technol, 131, pp. 68-75, (2013)

[49]

Zhang T., Li H., Yan T., Shaheen S.M., Niu Y., Xie S., Zhang Y.Y., Abdelrahman H., Ali E.F., Bolan N.S., Rinklebe J., Organic matter stabilization and phosphorus activation during vegetable waste composting: multivariate and multiscale investigation, Sci Total Environ, 891, (2023)

[50]

Zhong B., An X., An W., Xiao X., Li H., Xia X., Zhang Q., Effect of bioaugmentation on lignocellulose degradation and antibiotic resistance genes removal during biogas residues composting, Biores Technol, 340, (2021)

← 1 2 3 4 5 6 →