Study on Spectral Characteristics of Dissolved Organic Matter in Composting With Different Conditioners and Leached Dewatered Sludge
LU Ze1, 2, XI Bei-dou3, TAI De-zhi1, 2, LU Liang-quan1, 2, SUN Xiao-jie1, 2, ZHANG Jun1, 2, ZHANG Hua1, 2*
1. College of Environmental Science and Engineering, Guilin University of Technology, Guilin 541006, China
2. Collaborative Innovation Center for Water Pollution Control and Water Safety in Karst Area, Guilin University of Technology, Guilin 541006, China
3. State Key Laboratory of Environmental Criteria and Risk Assessment, Chinese Research Academy of Environmental Sciences, Beijing 100012, China
Abstract:Bioleach deep dehydrated sludge was used as the main material, four kinds of agricultural and forestry organic wastes were used as conditioners for mixed composting. Four treatment groups (T1: sludge+bagasse, T2: sludge+straw, T3: sludge+rice bran, T4: sludge+sawdust) were set for mixed composting. UV-vis spectroscopy (UV-Vis), Fourier transform infrared spectroscopy (FTIR), and three-dimensional fluorescence spectrum (3D-EEM) were used to study the structural characteristics and component content evolution of dissolved organic matter (DOM) in co-composting. The UV-vis results showed that the aromaticity and unsaturation of DOM increased in all treatment groups, and the T3 treatment group showed the largest increase. SUVA254 and SUVA280 of four composting treatment groups showed an increasing trend. The change range of the T3 treatment group was higher than the other three treatment groups, indicating that the degree of aromatization deepened, the molecular weight of DOM gradually increased. E253/E203 and E253/E220 increased significantly at the end of composting, indicating that the aliphatic chain on the benzene ring in DOM was oxidized, decomposed, and transformed into functional groups such as carboxyl group and carbonyl group. A226~400 increased with composting, whileE250/E365 decreased, indicating that the conjugation degree increased. FTIR results show that the content of polysaccharides and aliphatic substances decreased during composting, and unsaturated organic substances such as aromatic compounds increased. The transformation degree of the T4 treatment group was better than the other three treatment groups. Emission fluorescence spectra showed that the fluorescence peak position shifted from 334nm to around 422nm with composting, which indicated that the substances with low conjugation degree were continuously degraded, and aromatic groups were continuously condensed to form humic-like matters. In the synchronous fluorescence spectrum, with composting time, the fluorescence peak of protein-like substances changed from strong to weak, the fluorescence peak of humic-like matters changed from weak to strong, A250~308 decreased, A308~360 and A363~500 increased, which also indicated that protein-like substances were degrading, while humic acid-like substances and fulvic acid-like substances increased. Combined with the parallel factor (PARAFAC) model to analyze the three-dimensional fluorescence spectrum, DOM was divided into three components. According to the analysis and judgment of the excitation and emission wavelength positions, the three components are fulvic acid-like substances, humic acid-like substances and tryptophan-like substances. The percentage of C1 (fulvic acid-like substances) and C2 (humic acid-like substances) components showed an increasing trend, while the percentage of C3 (tryptophan-like substances) components showed a decreasing trend, indicating that protein-like substances decreased. At the same time, humic-like matters increased, and the humification degree of T3 and T4 treatment groups were good. Comprehensive analysis showed that rice bran and sawdust as conditioners had better compost maturity.
卢 泽,席北斗,台德志,陆良全,孙晓杰,张 军,张 华. 不同辅料与生物沥浸深度脱水污泥混合堆肥中溶解性有机质的光谱特征研究[J]. 光谱学与光谱分析, 2022, 42(07): 2120-2129.
LU Ze, XI Bei-dou, TAI De-zhi, LU Liang-quan, SUN Xiao-jie, ZHANG Jun, ZHANG Hua. Study on Spectral Characteristics of Dissolved Organic Matter in Composting With Different Conditioners and Leached Dewatered Sludge. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2022, 42(07): 2120-2129.
[1] Zhang D, Xu Z, Wang G, et al. Environmental Technology & Innovation, 2020, 20: 101117.
[2] Zhu Q, Li G, Jiang Z, et al. Bioresource Technology, 2020, 304: 123013.
[3] Zhang D, Luo W, Li Y, et al. Bioresource Technology, 2018, 250: 853.
[4] Xiao K, Abbt-Braun G, Horn H. Water Research, 2020, 187: 116441.
[5] Ren X, Wang Q, Li R, et al. Science of The Total Environment, 2020, 737: 139712.
[6] Gui X, Liu C, Li F, et al. Ecotoxicology and Environmental Safety, 2020, 197: 110597.
[7] Li H, Zhang T, Tsang D C W, et al. Chemosphere, 2020, 248: 125927.
[8] Wang Q, Awasthi M K, Zhao J, et al. Journal of Cleaner Production, 2018, 197: 472.
[9] DONG Li-chao, WANG Xiao-xia, MA Li-tong, et al(董利超, 王晓霞, 马力通, 等). Spectroscopy and Spectral Analysis(光谱学与光谱分析), 2019, 39(11): 3579.
[10] Abid W, Mahmoud I B, Masmoudi S, et al. Journal of Environmental Management, 2020, 264: 110492.
[11] Jiang Z, Lu Y, Xu J, et al. Bioresource Technology, 2019, 292: 121942.
[12] Yang Y, Du W, Cui Z, et al. Microchemical Journal, 2020, 158: 105226.
[13] Song C, Shan S, Yang C, et al. Science of The Total Environment, 2020, 720: 137423.
[14] Xie X, Gao X, Pan C, et al. Journal of Agricultural and Food Chemistry, 2019, 67(15): 4184.
[15] Guo X, Li C, Zhu Q, et al. Waste Management, 2018, 78: 301.