Mathematical modeling and optimization of wastewater stabilization ponds using nonlinear programming

IF 0.6 Q3 ENGINEERING, MULTIDISCIPLINARY Mehran University Research Journal of Engineering and Technology Pub Date : 2023-01-01 DOI:10.22581/muet1982.2301.18
H. Q. Ali, Osman Üçüncü
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引用次数: 1

Abstract

This research work proposes a mathematical optimization model for constructing two ponds (1. Facultative pond and 2. Maturation pond) provided in series. The model uses concrete volume as its objective minimization function. There were two decision variables; the first was the detention time (DT) and the second in the list was the number of provided baffle walls (NBW) in both ponds. The constraint parameters include fecal coliforms and biochemical oxygen demand (BOD5). The model was applied with the help of an Add-Ins of MS Office: Excel solver. The generalized reduced gradient algorithm was utilized in the solver (GRG). Before applying the mathematical optimization model, ponds were designed with the conventional method and then using optimized values of the variables. A comparison of the findings reveals that a 13.79 percent reduction in the DT, an 11.55 percent reduction in the area, and a 7.19 percent reduction in the volume of concrete occurred. The reduction values mentioned above are significant since these systems' fundamental drawback is the area's requirement. In addition, sensitivity analyses of the objective function and the removal of pollutants are also provided. The model described above is sensitive to variations in the parameters. Both analyses demonstrated that the effluent characteristics comply with the class-B irrigation standards in Turkey. It is advised to do more optimization studies for WSPs with the help of other algorithms and tools available in the literature for distinct wastewater treatment plants.
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废水稳定池的非线性规划数学建模与优化
本研究工作提出了一个用于建造两个池塘的数学优化模型(1。兼性池和2。熟化池)。该模型使用混凝土体积作为其目标最小化函数。有两个决策变量;第一个是滞留时间(DT),列表中的第二个是两个池塘中提供的挡板墙(NBW)的数量。约束参数包括粪便大肠菌群和生化需氧量(BOD5)。该模型是在MS Office:Excel求解器的外接程序的帮助下应用的。求解器中采用了广义简化梯度算法。在应用数学优化模型之前,先用传统方法设计池塘,然后使用变量的优化值。对研究结果的比较表明,DT减少了13.79%,面积减少了11.55%,混凝土体积减少了7.19%。由于这些系统的根本缺点是该地区的需求,因此上述降低值是显著的。此外,还对目标函数和污染物去除进行了敏感性分析。上述模型对参数的变化是敏感的。两项分析都表明,出水特性符合土耳其的B类灌溉标准。建议在文献中针对不同废水处理厂的其他算法和工具的帮助下,对WSP进行更多的优化研究。
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自引率
0.00%
发文量
76
审稿时长
40 weeks
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