用多元线性回归预测污水COD和BOD参数

Samir Sadik Shaikh, Rekha Shahapurkar
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引用次数: 1

摘要

此外,再利用可以是一个令人难以置信的方法来获得非消耗性水。由于中水含有分解的污染物,所以不能直接利用。因此,在利用水之前决定水的性质是至关重要的。身体估算需要5天才能完成,而COD估算只需要几个小时。并非只需要改进评价水质的模型;然而,一种更加协调的方法正变得越来越普遍。这些模型中的大多数都需要广泛的信息,而这些信息并不是在每种情况下都能立即获得,这使得它成为一项昂贵而乏味的活动。由于纳入水质边界的估算中存在BOD和COD等不同问题,本研究的主要目的是寻找预测复杂水质结果的最佳多元直接复发模型。代码是用Python编写的多变量信息源,并创建了一个线性回归模型。预估的COD与预估的COD图表表明,注意到的和预期的质量实际上是相同的。r²值为0.9973。扩展BOD的情节作为COD的一个元素同样被记住的结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Predicting COD and BOD Parameters of Greywater Using Multivariate Linear Regression
Greywater reuse furthermore, reusing can be an incredible method to get non-consumable water. Since it contains broke down pollutions, greywater can’t be utilized straightforwardly. As an outcome, it is critical to decide the nature of water prior to utilizing it. Body estimations require five days to finish, while COD estimations require only a couple of hours. Not exclusively improve models for evaluating water quality are required; however, a more coordinated methodology is additionally getting more normal. Most of these models require a wide scope of information that isn’t in every case promptly available, making it a costly and tedious activity. Because of different issues in the enlistment with estimation included in water quality boundaries like BOD as well as COD, the principal objective of this investigation is to track down the best multivariate direct relapse models for foreseeing complex water quality outcomes. The code was written in Python for multi-variable information sources, and a Linear Regression Model was created. The projected COD versus estimated COD chart shows that the noticed and expected qualities are practically the same. The R-squared worth was 0.9973. A plot of extended BOD as an element of COD is likewise remembered for the outcome.
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