Life Cycle Assessment of the Neutralization Process in a Textile WWTP
Abstract
Although industrial wastewater treatment plants (WWTP) have become
an important part of textile facilities in reducing environmental pollution
problems, they also produce sludge and various emissions such as high chemical
oxygen demand, color and conductivity which have serious negative impacts on
the environment. One of the processes with enormous chemical consumption in
industrial WWTP of textile facilities is the neutralization process, which aims to
adjust the pH of the wastewater. Neutralization processes needed to be optimized
in order to determine its overall environmental impacts and then identify the most
environmentally appropriate options. The aim of this study is to compare the
environmental impacts of carbon dioxide and sulfuric acid, which are two
alternative chemicals used in the neutralization process of textile facilities, using
Life Cycle Assessment (LCA) approach. The environmental impacts resulting from
the use of these two chemicals proposed according to the Reference document on
Best Available Techniques (BREF) Document for Textile Industry were revealed by
the CML-IA method and the gate-to-gate method. According to the results, using
carbon dioxide instead of sulfuric acid, the best improvement was in the abiotic
depletion category with 92%, while the least improvement was in the
eutrophication potential with 39%. No improvement was observed in the global
warming potential and human toxicity impacts.