高粱与湿臂藻人工湿地模型处理人工奶牛废水的能力比较

IF 0.8 Q3 MULTIDISCIPLINARY SCIENCES

Malaysian Journal of Fundamental and Applied Sciences Pub Date : 2023-10-31 DOI:10.37231/myjas.2023.8.2.371

Nur Akma Fakhira Roslan, Mohd Zuhairi Zakaria, Mohd Saiful Samsudin, Ku Mohd Kalkausar Ku Yusof, Azman Azid

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引用次数: 0

摘要

除肉类生产外，养牛业还产生大量废物，包括垫料、废水、动物粪便和与饲料有关的损失。如果管理不当，这些副产品会对环境产生不利影响。人工湿地(CWs)为可持续的废水处理提供了一种经济、环保的解决方案。化粪池由于其广泛的根系和过滤基质，可以有效地去除废水中的悬浮颗粒、有机物、重金属和病原体，从而减少污染。本研究旨在评估牛废水中存在的污染物，并评价高粱和湿润臂藻对人工湿地中污染物的净化效果。种植湿芽孢杆菌的化粪池对营养性污染物的去除率高于使用湿芽孢杆菌的化粪池。经过一周的处理，以湿芽孢杆菌为基础的化粪池对总氮的去除率为94.07%，对磷酸盐(po_4³⁻)的去除率为91.58%。人工湿地在去除大肠杆菌和志贺氏菌等生物污染物方面也被证明是有效的。本研究强调，含有湿性芽孢杆菌的CW模型优于S. nutans模型，大肠杆菌去除率达到100%，志贺氏菌去除率达到97.37%。综上所述，奶牛废水中含有营养物质和生物污染物，使用特定植物种类的人工湿地可以有效地减轻这两种污染物。值得注意的是，湿芽孢杆菌在去除污染物的能力上超过了芽孢杆菌。

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Comparing The Ability to Treat Artificial Cow Wastewater by Constructed Wetland Model Using Sorghastrum nutans and Brachiaria humidicola

In addition to meat production, the cattle industry generates significant waste, including bedding materials, wastewater, animal manure, and losses related to feed. If not managed correctly, these byproducts can have adverse environmental impacts. Constructed wetlands (CWs) offer a cost-effective and eco-friendly solution for sustainable wastewater treatment. By virtue of their extensive root systems and filtration matrices, CWs effectively reduce pollution by eliminating suspended particles, organic matter, heavy metals, and pathogens from wastewater. This research aims to assess pollutants present in cattle wastewater and evaluate the efficacy of Sorghastrum nutans and Brachiaria humidicola in purifying contaminants within constructed wetlands (CWs). CWs planted with B. humidicola exhibited higher removal rates for nutrient pollutants compared to CWs utilizing S. nutans. After a week of treatment, B. humidicola-based CWs demonstrated removal percentages of 94.07% for total nitrogen and 91.58% for phosphate (PO₄³⁻). Constructed wetlands also prove effective in eliminating biological contaminants like Escherichia coli and Shigella sp. This study highlights that the CW model incorporating B. humidicola outperforms the S. nutans model, achieving 100% removal of E. coli and 97.37% removal of Shigella sp. In conclusion, cow wastewater contains nutrient and biological pollutants, both effectively mitigated by CWs using selected plant species. Notably, B. humidicola surpasses S. nutans in its capacity for pollutant removal.

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来源期刊

Malaysian Journal of Fundamental and Applied Sciences MULTIDISCIPLINARY SCIENCES-

CiteScore

1.40

自引率

0.00%

发文量