Water quality refers to the physical, chemical, and biological characteristics of water that determine its suitability for various uses, such as drinking, recreation, and ecosystem health. Monitoring and maintaining water quality is essential to ensure public health and maintain ecosystems. In wastewater management, compliance ensures that discharge limits are met, preventing environmental damage and protecting public health. Mathematical modeling uses mathematical equations and algorithms to represent and simulate real-world processes and phenomena. These models help to understand complex interactions, predict outcomes, and make informed decisions to improve water quality and operational efficiency. In this paper, the following wastewater parameters were analyzed using LCK cuvette tests; pH, temperature, total nitrogen, phosphates, chlorides, chemical oxygen demand, anionic and non-ionic detergents, ammonia, nitrates, nitrites, sulfates and phenols. Furthermore, a correlational analysis of all analyzed wastewater parameters was carried out and the parameters of the most important Pearson correlation coefficients were selected. A multiple linear regression model was used, the concentration of chemical oxygen demand was taken as the dependent variables, while the independent variables were the concentrations of chloride, phosphate, total nitrogen, phenol, and turbidity. The obtained results indicate the existence of a correlation between the independent variables of chloride, phosphate, total nitrogen, phenol, turbidity and the dependent variable of chemical oxygen demand concentration.