US EPA 300 Method-Compliant Environmental and Water Analysis
Applications | 2020 | ShimadzuInstrumentation
Quantitative analysis of common inorganic anions (fluoride, chloride, nitrite, nitrate, bromide, phosphate, sulfate) is critical for assessing the safety of environmental and drinking water. Regulatory frameworks such as the US EPA Method 300 mandate precise determination of these ions to protect public health and ensure compliance with water quality standards. Suppressor-type ion chromatography delivers heightened sensitivity and reliable quantitation, making it a preferred approach in routine water analysis.
This work aims to demonstrate an EPA Method 300-compliant protocol for simultaneous determination of seven inorganic anions in various water matrices using a Shimadzu HIC-ESP ion chromatograph. Key goals include:
Chromatographic separation was achieved on a Shim-pack™ IC-SA2 column (250 mm × 4.0 mm I.D.) with a carbonate/bicarbonate eluent (1.8 mmol/L Na2CO3, 1.7 mmol/L NaHCO3) at 1.0 mL/min and 40 °C. A 50 μL injection volume was used. Detection employed an electro-conductivity detector with electrodialytic suppressor (HIC-ESP system).
Linearity and MDLs
Repeatability and Accuracy
Real-sample Analysis
The described EPA-compliant IC method offers high sensitivity, robust reproducibility, and rapid throughput for routine monitoring of drinking and environmental waters. Its versatility supports laboratories engaged in regulatory compliance, quality control, environmental research, and industrial water analysis.
Advancements in suppressor technology, miniaturized columns, and high-throughput automation are expected to further enhance sensitivity, reduce analysis time, and lower operational costs. Coupling with mass spectrometric detection may expand capabilities for simultaneous organic and inorganic speciation.
The Shimadzu HIC-ESP system successfully fulfills US EPA Method 300 criteria for seven inorganic anion determination, combining superior linearity, low detection limits, and excellent precision. This method is well suited for diverse water quality applications requiring rigorous regulatory compliance.
No external literature references were cited in the original document.
HPLC
IndustriesEnvironmental
ManufacturerShimadzu
Summary
Importance of the Topic
Quantitative analysis of common inorganic anions (fluoride, chloride, nitrite, nitrate, bromide, phosphate, sulfate) is critical for assessing the safety of environmental and drinking water. Regulatory frameworks such as the US EPA Method 300 mandate precise determination of these ions to protect public health and ensure compliance with water quality standards. Suppressor-type ion chromatography delivers heightened sensitivity and reliable quantitation, making it a preferred approach in routine water analysis.
Study Objectives and Overview
This work aims to demonstrate an EPA Method 300-compliant protocol for simultaneous determination of seven inorganic anions in various water matrices using a Shimadzu HIC-ESP ion chromatograph. Key goals include:
- Establishing linearity and method detection limits (MDLs)
- Evaluating repeatability and accuracy across different days and sample types
- Applying the method to real water samples (bottled, server, and tap water)
Methodology and Instrumentation
Chromatographic separation was achieved on a Shim-pack™ IC-SA2 column (250 mm × 4.0 mm I.D.) with a carbonate/bicarbonate eluent (1.8 mmol/L Na2CO3, 1.7 mmol/L NaHCO3) at 1.0 mL/min and 40 °C. A 50 μL injection volume was used. Detection employed an electro-conductivity detector with electrodialytic suppressor (HIC-ESP system).
Main Results and Discussion
Linearity and MDLs
- All anions displayed excellent linearity (r2 ≥ 0.9989) over 0.05–100 mg/L ranges.
- MDLs ranged from 1.49 μg/L (NO2–) to 14.38 μg/L (PO43–), meeting or exceeding EPA requirements.
Repeatability and Accuracy
- Retention time and peak area repeatabilities were below 0.30% RSD (intra- and inter-day).
- Spike recoveries in ultrapure and tap water ranged from 91% to 106%, confirming method accuracy.
Real-sample Analysis
- Fluoride was detected at 0.08–0.64 mg/L, chloride at 12.99–41.06 mg/L, nitrates at 2.66–8.93 mg/L, and sulfates at 15.37–25.88 mg/L.
- Nitrite and phosphate were below detection in some samples.
Benefits and Practical Applications
The described EPA-compliant IC method offers high sensitivity, robust reproducibility, and rapid throughput for routine monitoring of drinking and environmental waters. Its versatility supports laboratories engaged in regulatory compliance, quality control, environmental research, and industrial water analysis.
Future Trends and Potential Applications
Advancements in suppressor technology, miniaturized columns, and high-throughput automation are expected to further enhance sensitivity, reduce analysis time, and lower operational costs. Coupling with mass spectrometric detection may expand capabilities for simultaneous organic and inorganic speciation.
Conclusion
The Shimadzu HIC-ESP system successfully fulfills US EPA Method 300 criteria for seven inorganic anion determination, combining superior linearity, low detection limits, and excellent precision. This method is well suited for diverse water quality applications requiring rigorous regulatory compliance.
References
No external literature references were cited in the original document.
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