Biostabilization of fecal sludge and tannery liming sludge: A novel approach

IF 5.4 Q2 ENGINEERING, ENVIRONMENTAL
Md. Abul Hashem , Md. Enamul Hasan Zahin , Md. Anik Hasan , Mehedi Hasan , Tanvir Ahmed , Sk Shaker Ahamed , Md. Abu Hasan
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Abstract

Fecal sludge and tannery liming sludge management is essential for humans and the environment. The emitted amount of waste from two industries is reduced in composting leading to value-added products. This research focused on the effectiveness and feasibility of co-composting fecal sludge and hair-burning liming sludge from tannery. Fecal sludge was intermittently mixed with hair-burning liming sludge which also consisted of chicken manure and sawdust. Five piles (Pile 1, Pile 2, Pil3, Pile 4, and Pile 5) indicated respectively as P#1, P#2, P#3, P#4, and P#5, contained various ratios of composting materials were mixed, piled onto a horizontal bamboo frame, and observed for 120 days. To ensure a suitable oxygen supply, the composting piles were turned on in the thermophilic stage so that pathogens could not survive. The highest temperatures in the thermophilic stage were 39.0°C, 49.2°C, 55.7°C, 41.7°C, and 51.3°C. These referred to the respective piles P#1, P#2, P#3, P#4, and P#5. The Dewar stability index confirmed the stability of each composting pile, and the maximum degradation was found for P#3. The metals chromium (Cr), zinc (Zn), lead (Pb), iron (Fe), and nickel (Ni) in the final compost were found to be 38.1, 144.7, 15.1, 450.5, and 22.7 mg/kg, respectively. TCLP results reveal only an insignificant amount of metal leaching. Fecal coliform of the compost was below the standard level; Helminth eggs and Salmonella spp. were absent. SEM micrographs reflect the decomposition of composting materials. The maximum germination index and germination capacity of compost pile P#3 for compost-soil ratio 1:0 and 1:1 were 90%-92.8% and 100%, respectively. The present approach produced nutrient-enriched compost from fecal sludge and hair-burning liming sludge from a tannery emerges as a suitable solution for reducing solid wastes.

Abstract Image

粪便污泥和制革厂石灰污泥的生物稳定化:一种新方法
粪便污泥和制革厂石灰污泥管理对人类和环境至关重要。在堆肥过程中,这两个行业的废物排放量会减少,从而产生增值产品。这项研究的重点是对来自制革厂的粪便污泥和焚毛污泥进行联合堆肥的有效性和可行性。粪便污泥与焚毛污泥间歇性混合,焚毛污泥还包括鸡粪和锯屑。五堆(堆 1、堆 2、堆 3、堆 4 和堆 5)分别表示为 P#1、P#2、P#3、P#4 和 P#5,其中包含不同比例的堆肥材料,混合后堆放在水平竹架上,观察 120 天。为确保适当的氧气供应,堆肥在嗜热阶段被打开,使病原体无法存活。嗜热阶段的最高温度分别为 39.0°C、49.2°C、55.7°C、41.7°C 和 51.3°C。这分别指的是 P#1、P#2、P#3、P#4 和 P#5。杜瓦稳定性指数证实了每个堆肥堆的稳定性,其中 P#3 的降解程度最大。最终堆肥中金属铬(Cr)、锌(Zn)、铅(Pb)、铁(Fe)和镍(Ni)的含量分别为 38.1、144.7、15.1、450.5 和 22.7 毫克/千克。TCLP 结果显示,金属沥滤量很小。堆肥中的粪大肠菌群低于标准水平;不含螺旋虫卵和沙门氏菌。SEM 显微照片反映了堆肥材料的分解情况。堆肥与土壤比例为 1:0 和 1:1 时,堆肥 P#3 的最高发芽指数和发芽率分别为 90%-92.8% 和 100%。本方法利用制革厂的粪便污泥和焚烧毛发的石灰污泥制成营养丰富的堆肥,是减少固体废物的合适解决方案。
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来源期刊
Journal of hazardous materials advances
Journal of hazardous materials advances Environmental Engineering
CiteScore
4.80
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