Mathematical modeling to size anaerobic stabilization ponds intended for slaughterhouse wastewater treatment – the role of temperature and hydraulic retention time†

IF 3.5 4区 环境科学与生态学 Q3 ENGINEERING, ENVIRONMENTAL
P. E. S. Soldera, R. F. Dantas and E. Fagnani
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引用次数: 0

Abstract

Slaughterhouse wastewater treatment is mainly performed using anaerobic stabilization pond systems. Despite some mathematical models for facultative ponds provided in the literature, no guidelines or mathematical equations exist to specifically size anaerobic ponds for this particular type of wastewater. In most cases, empirical knowledge or domestic wastewater treatment criteria are adapted for this purpose. This study proposes a mathematical model based on Bartha and Pramer's classical respirometry adapted to anaerobic conditions. Raw slaughterhouse wastewater was analyzed for biochemical oxygen demand (BOD) removal under steady-state conditions at varying temperatures and contact times. Results showed compatibility between the experimental conditions and data from anaerobic pond systems in operation, enabling the development of a mathematical model capable of correlating hydraulic retention time for BOD removal as a function of temperature. The model was validated using literature and field data, with a standard deviation of up to 7%, and can be used to design anaerobic stabilization pond systems over a wide temperature range (from 10 °C to 35 °C).

Abstract Image

通过数学建模确定用于屠宰场废水处理的厌氧稳定池的大小--温度和水力停留时间的作用†。
屠宰场废水处理主要采用厌氧稳定池系统。尽管文献中提供了一些关于厌氧池的数学模型,但并不存在专门针对这种特殊类型废水的厌氧池大小的指导原则或数学公式。在大多数情况下,都是根据经验知识或生活废水处理标准进行调整。本研究以 Bartha 和 Pramer 的经典呼吸测量法为基础,提出了一个适用于厌氧条件的数学模型。在不同温度和接触时间的稳态条件下,对屠宰场废水的生化需氧量(BOD)去除率进行了分析。结果表明,实验条件与厌氧池塘系统的运行数据相匹配,从而建立了一个数学模型,能够将去除生化需氧量的水力停留时间与温度的函数联系起来。该模型利用文献和现场数据进行了验证,标准偏差不超过 7%,可用于设计温度范围较广(从 10 °C 到 35 °C)的厌氧稳定塘系统。
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来源期刊
Environmental Science: Water Research & Technology
Environmental Science: Water Research & Technology ENGINEERING, ENVIRONMENTALENVIRONMENTAL SC-ENVIRONMENTAL SCIENCES
CiteScore
8.60
自引率
4.00%
发文量
206
期刊介绍: Environmental Science: Water Research & Technology seeks to showcase high quality research about fundamental science, innovative technologies, and management practices that promote sustainable water.
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