In a mercury leaching test for waste using the Korean Standard Method (ES 06404.1), the pre-treatment process of an eluate is very complicated with a high possibility of contamination and low mercury recovery rate. It is also difficult to analyze multiple samples in a short time and the process generates experimental wastes. Accordingly, a direct mercury analyzer (DMA) applying thermal decomposition gold-amalgamation analysis has been recently used. The method shows a relatively high recovery rate for solid samples without complicated pre-treatment and it can be applied to both liquid and solid samples as the EPA method 7473 does. In order to use the auto-sampler in DMA for analyzing many elution samples from waste, this study checked recovery rates depending on acid solutions and additives during continuous analysis. The result showed a significant drop in recovery and precision except for an L-cysteine added sample. Considering commonly used acid-treatment of wastes, three types of acid solutions (nitrate, hydrochloric acid and sulfate) were chosen for analysis, and precision and accuracy were relatively high in nitric acid solution. It has been determined that accuracy and precision improved when 0.01% L-cysteine was added as an additive and this reduced the impact of continuous measurement. Therefore, during analysis of liquid samples or eluted samples using DMA continuously, introducing suitable additives is necessary depending on pre-treatment method in order to improve accuracy and precision in the analysis of mercury.

• 정미정(국립환경과학원 자원순환연구과) | Mi Jeong Jeong
• 조윤아(국립환경과학원 자원순환연구과) | Yoon A Cho Corresponding author
• 정다위(국립환경과학원 자원순환연구과) | David Jeong
• 김용준(국립환경과학원 자원순환연구과) | Young Jun Kim
• 조나현(국립환경과학원 자원순환연구과) | Na Hyeon Cho
• 이희성(국립환경과학원 자원순환연구과) | Hee Sung Lee
• 연진모(국립환경과학원 자원순환연구과) | Jin Mo Yeon
• 신선경(국립환경과학원 자원순환연구과) | Sun Kyoung Shin