Using the Teledyne Tekmar HT3TM Headspace Analyzer to Meet the Requirements of the Korean Standard Method for Drinking Water, ES05602.3, for 1,4-Dioxane
Applications | 2011 | Teledyne LABSInstrumentation
The presence of 1,4-dioxane in drinking water poses health risks due to its potential carcinogenicity. Recent regulatory updates by the Korean Ministry of Environment have expanded mandatory monitoring lists, emphasizing the need for reliable analytical methods capable of quantifying trace levels of emerging contaminants.
This study evaluates the applicability of the Korean Standard Method ES05602.3, which employs static headspace sampling coupled with gas chromatography–mass spectrometry (GC/MS), for the quantification of 1,4-dioxane at low parts-per-billion (ppb) concentrations in drinking water.
The method uses a five-point calibration from 2 to 50 ppb, requiring an r² > 0.98 and a minimum detection limit (MDL) < 1 ppb. Calibration standards are prepared in methanol spiked with 1,4-dioxane and an internal standard (1,4-dioxane-d₈). Samples and MDL replicates are equilibrated at 85 °C for 20 minutes in sealed vials before static headspace injection into the GC/MS system.
Key instrumentation details:
The method yielded a linear calibration curve with r² = 0.9957, exceeding the 0.98 requirement. The MDL for 1,4-dioxane was determined to be 0.65 ppb, well below the 1 ppb threshold. Relative standard deviation of response factors remained within acceptable limits (< 25%).
Advancements may focus on:
The static headspace GC/MS approach using the Teledyne Tekmar HT3 analyzer meets and surpasses Korean Standard ES05602.3 requirements for 1,4-dioxane analysis, offering an effective solution for regulatory compliance and water quality assurance.
GC/MSD, HeadSpace, GC/SQ
IndustriesEnvironmental
ManufacturerAgilent Technologies, Teledyne LABS
Summary
Significance of the Topic
The presence of 1,4-dioxane in drinking water poses health risks due to its potential carcinogenicity. Recent regulatory updates by the Korean Ministry of Environment have expanded mandatory monitoring lists, emphasizing the need for reliable analytical methods capable of quantifying trace levels of emerging contaminants.
Objectives and Study Overview
This study evaluates the applicability of the Korean Standard Method ES05602.3, which employs static headspace sampling coupled with gas chromatography–mass spectrometry (GC/MS), for the quantification of 1,4-dioxane at low parts-per-billion (ppb) concentrations in drinking water.
Methodology
The method uses a five-point calibration from 2 to 50 ppb, requiring an r² > 0.98 and a minimum detection limit (MDL) < 1 ppb. Calibration standards are prepared in methanol spiked with 1,4-dioxane and an internal standard (1,4-dioxane-d₈). Samples and MDL replicates are equilibrated at 85 °C for 20 minutes in sealed vials before static headspace injection into the GC/MS system.
Instrumentation
Key instrumentation details:
- Static headspace analyzer: Teledyne Tekmar HT3 (platen at 85 °C, pressurization 15 psig, equilibration 20 min, loop volume 1 mL).
- GC/MS: Agilent 7890 GC with 5975C XL MSD (Restek Rtx VMS column, 36 °C initial hold, 20 °C/min to 200 °C; SIM mode targeting 96, 88, 64, 58, 46, 43 m/z).
Key Results and Discussion
The method yielded a linear calibration curve with r² = 0.9957, exceeding the 0.98 requirement. The MDL for 1,4-dioxane was determined to be 0.65 ppb, well below the 1 ppb threshold. Relative standard deviation of response factors remained within acceptable limits (< 25%).
Benefits and Practical Applications
- Robust quantitation of 1,4-dioxane at trace levels in drinking water.
- Simplified sample preparation with headspace automation.
- Compliance with stringent regulatory standards for drinking water safety.
Future Trends and Applications
Advancements may focus on:
- Integration of high-throughput headspace techniques for multi-analyte screening.
- Miniaturized or portable GC/MS systems for on-site water quality monitoring.
- Expansion of methods to cover additional emerging contaminants.
Conclusion
The static headspace GC/MS approach using the Teledyne Tekmar HT3 analyzer meets and surpasses Korean Standard ES05602.3 requirements for 1,4-dioxane analysis, offering an effective solution for regulatory compliance and water quality assurance.
Reference
- Ministry of Environment, Republic of Korea. Korean Standard Method for Drinking Water, ES05602.3. 1,4-Dioxane by Headspace/GC/MS. 2010.
- Restek. 8260M MegaMix Calibration Mix, Catalog No. 30633.
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