Coagulation: Determination of Key Operating Parameters by Multi-Response Surface Methodology Using Desirability Functions

Marina Corral Bobadilla,Eliseo Vergara González,Rubén Lorza,Fátima Somovilla Gómez,Rubén Escribano García

doi:10.3390/w11020398

Marina Corral Bobadilla, Eliseo Vergara González + Show 3 more

Open Access

https://doi.org/10.3390/w11020398

Copy DOI

Journal: Water	Publication Date: Feb 25, 2019
Citations: 27	License type: CC BY 4.0

Affiliation: University of La Rioja, University of Oviedo, IK4-Lortek

Abstract

The clarification process removes colloidal particles that are suspended in waste water. The efficiency of this process is influenced by a series of inputs or parameters of the coagulation process, of which the most commonly used are initial turbidity, natural coagulant dosage, temperature, mixing speed and mixing time. The estimation of the natural coagulant dosage that is required to effectively remove these total suspended solids is usually determined by a jar test. This test seeks to achieve the highest efficiency of removal of the total suspended solids while reducing the final turbidity of waste water. This is often configured in iterative fashion, and requires significant experimentation and coagulant. This paper seeks to identify regression models that relate the clarification process parameters to the process outputs (final turbidity and total suspend solid) by the Response Surface Methodology (RSM) based on experiments of Central Composite Design (CCD) of experiments that involve three emerging natural coagulants. Several clarification process scenarios also were proposed and demonstrated using the Multi-Response Surface (MRS) with desirability functions. The experimental results were found to be in close agreement to what are provided by the regression models. This validates the use of the MRS-based methodology to achieve satisfactory predictions after minimal experimentation.

Highlights

The management of waste water impacts directly aquatic ecosystems’ biological diversity and affects significantly our life support systems
This article describes a methodology to obtain the optimal combination of the clarification process parameters for efficient removal of turbidity, and total suspended solids (TSS) from a waste water sample collected from the WWTP
The methodology proposed is based on the Response Surface Methodology (RSM) with desirability functions, and was applied to three natural coagulants (ECOTAN BIO 90D, ECOTAN BIO 100 and ECOTAN G150)

Summary

Introduction

The management of waste water impacts directly aquatic ecosystems’ biological diversity and affects significantly our life support systems. The management of waste water is an important component of the ecosystem and functions in all sectors. These include fresh water and marine water. The fresh water is exposed to all types of human activity, the water is captured, diverted, treated and reused to sustain communities and their economies. 80–90 percent of the waste water of developing countries is discharged into surface water, which contains dissolved suspended matter or dissolved solids that are harmful. Waste water discharges that are not regulated are harmful to the biological diversity and the planet’s resilience and its capacity to provide basic ecosystem services

Objectives

Methods

Results

Conclusion