Rapid Greenhouse and Inorganic Gas Analysis via GC-2030
Applications | 2022 | ShimadzuInstrumentation
Accurate, high-throughput analysis of greenhouse gases and inorganic gases is critical for tracking emissions and informing climate management strategies.
The primary goal was to develop a rapid, turnkey GC method on the Shimadzu GC-2030 system to separate and quantify methane, carbon dioxide, nitrous oxide, light hydrocarbons (ethane, ethylene), and inorganic gases (hydrogen, oxygen, nitrogen) within an eight-minute runtime.
Three capillary columns and timed switching enabled targeted separation: an ECD line for inorganic gases routed to a TCD via fore-flush, and a dedicated FID line with Jetanizer for hydrocarbons and select compounds. A 1 mL gas loop was used for injections at 100 °C, split ratio 5:1, and an oven program from 35 °C to 70 °C. Detector temperatures and gas flows were optimized for sensitivity and repeatability.
The method achieved baseline separation of ten analytes in under eight minutes, with repeatability better than 1.5% RSD (except methane). Calibration linearity exceeded R² of 0.9999 for FID analytes and 0.99 for TCD components. Limits of quantitation on the FID were below 0.4 ppm, and 10 ppb for nitrous oxide on the ECD. TCD LOQs were 8 ppm (H₂), 80 ppm (O₂), and 110 ppm (N₂).
Key advantages include rapid throughput, high sensitivity, robust linearity, and the flexibility to analyze diverse sample matrices (canisters, bags, vials). The system’s modular design allows direct Exetainer™ sampling, reducing preparation steps and increasing lab productivity.
Future enhancements may include expansion to trace halogenated species, integration with additional detector technologies, and further automation for field-deployable monitoring. The platform’s adaptability positions it for advanced air quality and climate research applications.
The Shimadzu GC-2030 based method delivers fast, reliable, and high-resolution analysis of greenhouse and inorganic gases within an eight-minute cycle, offering a powerful tool for environmental and industrial monitoring.
Shimadzu Corporation. Rapid Greenhouse and Inorganic Gas Analysis via GC-2030. Application Note No. GC-2202, April 2022.
GC
IndustriesEnvironmental
ManufacturerShimadzu
Summary
Importance of the topic
Accurate, high-throughput analysis of greenhouse gases and inorganic gases is critical for tracking emissions and informing climate management strategies.
Objectives and Study Overview
The primary goal was to develop a rapid, turnkey GC method on the Shimadzu GC-2030 system to separate and quantify methane, carbon dioxide, nitrous oxide, light hydrocarbons (ethane, ethylene), and inorganic gases (hydrogen, oxygen, nitrogen) within an eight-minute runtime.
Instrumentation
- Shimadzu GC-2030 with two capillary columns
- ECD Exceed-2030 detector
- FID-2030 with Jetanizer™ and in-jet methanizer
- Six-port gas loop sampling valve and six-port switching valve
- Solenoid vent valve for heart-cut analytes
- AOC-6000 Plus autosampler for Exetainer™ vial injections
Methodology and Experimental Setup
Three capillary columns and timed switching enabled targeted separation: an ECD line for inorganic gases routed to a TCD via fore-flush, and a dedicated FID line with Jetanizer for hydrocarbons and select compounds. A 1 mL gas loop was used for injections at 100 °C, split ratio 5:1, and an oven program from 35 °C to 70 °C. Detector temperatures and gas flows were optimized for sensitivity and repeatability.
Main Results and Discussion
The method achieved baseline separation of ten analytes in under eight minutes, with repeatability better than 1.5% RSD (except methane). Calibration linearity exceeded R² of 0.9999 for FID analytes and 0.99 for TCD components. Limits of quantitation on the FID were below 0.4 ppm, and 10 ppb for nitrous oxide on the ECD. TCD LOQs were 8 ppm (H₂), 80 ppm (O₂), and 110 ppm (N₂).
Benefits and Practical Applications
Key advantages include rapid throughput, high sensitivity, robust linearity, and the flexibility to analyze diverse sample matrices (canisters, bags, vials). The system’s modular design allows direct Exetainer™ sampling, reducing preparation steps and increasing lab productivity.
Future Trends and Potential Applications
Future enhancements may include expansion to trace halogenated species, integration with additional detector technologies, and further automation for field-deployable monitoring. The platform’s adaptability positions it for advanced air quality and climate research applications.
Conclusion
The Shimadzu GC-2030 based method delivers fast, reliable, and high-resolution analysis of greenhouse and inorganic gases within an eight-minute cycle, offering a powerful tool for environmental and industrial monitoring.
Reference
Shimadzu Corporation. Rapid Greenhouse and Inorganic Gas Analysis via GC-2030. Application Note No. GC-2202, April 2022.
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