WETTING-DRYING CYCLES WITH WASTEWATER AFTER FREEZING-THAWING OF CLAY SOIL CONTAINING SEWAGE SLUDGE IMPROVE HYDRAULIC PROPERTIES

IF 0.9 4区环境科学与生态学 Q4 ENVIRONMENTAL SCIENCES Environmental Engineering and Management Journal Pub Date : 2022-01-01 DOI:10.30638/eemj.2022.130

U. Sahin, A. N. A. D. Badaou, Mehmet Altun, A. Demir, F. M. Kiziloglu

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引用次数: 1

Abstract

Practical solutions are needed to alleviate possible negative effects of freezing-thawing events on the physical and hydraulic properties of clay soils which are more common with the effect of global warming in medium and high altitudes with cool climates. The deteriorated physical and hydraulic properties can be shortly improved with integrated management of solid and liquid wastes applied as an organic resource. A study was simulated under controlled conditions and conducted with 3 sewage sludge doses (D0: 0 Mg ha -1 , D1: 50 Mg ha -1 , D2: 100 Mg ha -1 ), 2 freezing-thawing cycles (FT1: 5 times, FT2: 10 times), 2 water types (FW: freshwater, RWW: recycled wastewater) and 2 wetting-drying cycles (WD1: 4 days, WD2: 8 days) with three replicates. FT2 affected soil properties negatively, while the D2 increased organic matter 32.3%, porosity 8.2%, wet aggregate stability 10.8%, field capacity 16.2%, and hydraulic conductivity 24.7% compared to D0, and a decreased bulk density of 9.0%. RWW contributed to soil organic matter by 6.5% and total porosity by 2.1%. Moreover, WD2 increased organic matter 1.7%, total porosity 4.3%, macro-porosity 8.7% and hydraulic conductivity 17.1%, and decreased bulk density 4.6%. Correlogram analysis indicated the significant relationships between parameters. It was concluded that the high dose application of sewage sludge aiming waste disposal can be a practical way to improve clay soil with increased wetting-drying cycles of wastewater under freezing-thawing conditions.

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含污泥粘土在冻融后与废水进行干湿循环，可改善其水力性能

冻融事件对粘土的物理和水力特性可能产生的负面影响，在全球变暖的影响下在寒冷气候的中、高海拔地区更为常见，需要切实可行的解决方案来缓解这种负面影响。通过将固体和液体废物作为有机资源进行综合管理，可以很快改善其恶化的物理和水力性能。本研究采用3种污泥剂量(D0: 0 Mg ha -1, D1: 50 Mg ha -1, D2: 100 Mg ha -1)， 2个冻融循环(FT1: 5次，FT2: 10次)，2种水类型(FW:淡水，RWW:再生废水)和2个干湿循环(WD1: 4天，WD2: 8天)，3个重复进行模拟研究。与D0相比，FT2对土壤性质有负面影响，而D2比D0增加了32.3%的有机质、8.2%的孔隙度、10.8%的湿团聚体稳定性、16.2%的田间容量和24.7%的水力导电性，降低了9.0%的容重。RWW对土壤有机质和总孔隙度的贡献率分别为6.5%和2.1%。WD2使有机质增加1.7%，总孔隙度增加4.3%，宏观孔隙度增加8.7%，水导率增加17.1%，容重降低4.6%。相关图分析表明各参数之间存在显著的相关关系。结果表明，在冻融条件下，提高污水干湿循环次数，高剂量应用污水污泥处理是改善粘土土的可行方法。

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来源期刊

Environmental Engineering and Management Journal 环境科学-环境科学

CiteScore

1.60

自引率

36.40%

发文量

审稿时长

8.6 months

期刊介绍： Environmental Engineering and Management Journal is an international journal that publishes reviewed original research papers of both experimental and theoretical nature in the following areas: environmental impact assessment; environmental integrated management; risk assessment and management; environmental chemistry; environmental protection technologies (water, air, soil); pollution reduction at source and waste minimization; chemical and biological process engineering; cleaner production, products and services; sensors in environment control; sources of radiation and protection technologies; waste valorization technologies and management; environmental biotechnology; energy and environment; modelling, simulation and optimization for environmental protection; technologies for drinking and industrial water; life cycle assessments of products; environmental strategies and policies; cost-profitt analysis in environmental protection; eco-industry and environmental market; environmental education and sustainable development. Environmental Engineering and Management Journal will publish: original communications describing important new discoveries or further developments in the above-mentioned topics; reviews, mainly of new rapidly developing areas of environmental protection; special themed issues on relevant topics; advertising.