Halogenated hydrocarbons - Separation of CFCs
Applications | 2011 | Agilent TechnologiesInstrumentation
Precise analysis of chlorofluorocarbons (CFCs) is vital for environmental monitoring and regulatory compliance due to their ozone-depleting and greenhouse gas effects. Reliable separation and quantification enable laboratories to assess trace-level contamination in air and industrial processes.
This application note demonstrates a gas chromatography (GC) method for separating key CFC isomers using an alumina PLOT column under defined temperature and flow conditions. The goal is to achieve baseline resolution of common CFCs for routine environmental analysis.
The method employs a GC-wide-bore approach with temperature programming from 50 °C to 200 °C at 8 °C/min. Helium at 100 kPa serves as carrier gas, and direct sample injection of a 1 % vol. solution is used. The flame ionization detector (FID) operates at 225 °C for sensitive detection of halogenated compounds.
The alumina PLOT column achieved clear separation of seven CFC peaks (143a, 1122, 125, 134a, 124, 134, 133a) and an additional unidentified compound. Retention times increased systematically with molecular weight and halogen substitution. The method showed reproducible peak shapes and minimal tailing.
The described method offers rapid, robust separation of CFCs for environmental laboratories, supporting regulatory analysis and quality control in industrial monitoring.
Advances may include coupling PLOT columns with mass spectrometry for enhanced compound identification and implementing porous polymer alternatives for ultra-trace analysis to mitigate adsorption and degradation.
This GC-FID approach with an alumina PLOT column provides an effective, sensitive solution for routine CFC analysis, combining selectivity and operational simplicity.
GC, GC columns, Consumables
IndustriesEnvironmental
ManufacturerAgilent Technologies
Summary
Significance of the Topic
Precise analysis of chlorofluorocarbons (CFCs) is vital for environmental monitoring and regulatory compliance due to their ozone-depleting and greenhouse gas effects. Reliable separation and quantification enable laboratories to assess trace-level contamination in air and industrial processes.
Objectives and Study Overview
This application note demonstrates a gas chromatography (GC) method for separating key CFC isomers using an alumina PLOT column under defined temperature and flow conditions. The goal is to achieve baseline resolution of common CFCs for routine environmental analysis.
Methodology
The method employs a GC-wide-bore approach with temperature programming from 50 °C to 200 °C at 8 °C/min. Helium at 100 kPa serves as carrier gas, and direct sample injection of a 1 % vol. solution is used. The flame ionization detector (FID) operates at 225 °C for sensitive detection of halogenated compounds.
Instrumentation
- Agilent GC with wide-bore inlet
- Agilent CP-AI2O3/Na2SO4 PLOT UltiMetal column (0.53 mm×50 m, 10 μm)
- Helium carrier gas (1 bar)
- FID detector at 225 °C
Main Results and Discussion
The alumina PLOT column achieved clear separation of seven CFC peaks (143a, 1122, 125, 134a, 124, 134, 133a) and an additional unidentified compound. Retention times increased systematically with molecular weight and halogen substitution. The method showed reproducible peak shapes and minimal tailing.
Benefits and Practical Applications
The described method offers rapid, robust separation of CFCs for environmental laboratories, supporting regulatory analysis and quality control in industrial monitoring.
Future Trends and Potential Applications
Advances may include coupling PLOT columns with mass spectrometry for enhanced compound identification and implementing porous polymer alternatives for ultra-trace analysis to mitigate adsorption and degradation.
Conclusion
This GC-FID approach with an alumina PLOT column provides an effective, sensitive solution for routine CFC analysis, combining selectivity and operational simplicity.
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