Water Quality Research Journal (Nov 2023)
Development of an online analyser to meet challenging new discharge limits for mercury in flue gas desulphurisation wastewater
Abstract
Anthropogenic emissions of mercury to the environment are of great concern due to its toxicity. The burning of coal contributes highly to Hg emissions and, as such, much lower effluent discharge limits for Hg in flue gas desulphurisation (FGD) wastewater have recently been proposed in the USA. Lower detection limits are required to meet the most demanding discharge limit of 10 ng L−1. Therefore, in this work, a new analyser for online monitoring of Hg in FGD wastewater based on syringe injections of chemicals combined with gold amalgamation – atomic fluorescence spectrometry has been developed. The instrument has been validated against international standard method ISO 17852, as well as an interference study with extreme levels of salts majorly present in FGD water. Detection limits of 1.8 ng L−1 as well as accurate performance in an on-site field trial indicate that the methodology is fit to meet the new legislation. HIGHLIGHTS LOD of 1.8 ng L−1 and LOQ of 3.7 ng L−1, with possibilities to further reduction by varying sample intake.; Successful analysis carried out on-site with a constantly changing effluent Hg concentration.; Interference study indicates the instrument is robust in high levels of extreme levels of salts present in FGD wastewater.;
Keywords
