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Gas Chromatography LMCG-101 has temperature range of 7°C to 450°C. It ensures stable thermal control and efficient column performance. Equipped with an advanced detector that delivers consistent results. Integrated with an intuitive touchscreen that allows seamless operation. Our Gas Chromatography supports analytical settings in pharmaceuticals, petrochemicals, and environmental testing.
Specifications
| Temperature Range | 7ºC to 420ºC |
| Temperature Accuracy | ±0.02ºC |
| Cooling Time | 350°C to 100°C ≤ 3 min 400°C to 50°C in 8-10 min at 25°C ambient |
| Programmed Temperature Range | 0.1℃ to 80℃/min |
| Program Ramps | 20 Ramps |
| FID Detection Time | ≤8×10-12 g/s (n-hexadecane) |
| FID Baseline Drift | ≤1.5×10-13 A/h |
| FID Baseline Noise | ≤3×10-14 A |
| FID Linearity | ≥106 |
| TCD Maximum Operating Temperature | 400ºC |
| TCD Temperature Accuracy | ±0.1ºC |
| TCD Detector Sensitivity | ≥ 10000 mV × mL / mg (n-Hexadecane) |
| TCD Baseline Noise | ≤20uv |
| TCD Baseline Drift | ≤100uv/30 min |
| TCD Linear Dynamic Range | ≥104 |
| FPD Detection | ≤8×10‐13 g/s(P); ≤8×10‐11 g/s(S) |
| FPD Baseline Drift | ≤2×10‐11 A/30 min |
| FPD Baseline Noise | ≤5×10‐12 A |
| NPD Detection Limit | ≤5×10-12 g/s(N) (Azobenzene) ≤5×10-13 g/s(P) (Malathion) |
| ECD Detection Limit | ≤3×10-14 g/ml |
| ECD Baseline Drift | ≤ 100 μV/30 min |
| ECD Baseline Noise | ≤40μV |
| Internal Dimension (W×D×H) | 284×280×241 mm |
| External Dimension (W×D×H) | 340×345×281 mm |
Pricing
| Product | Price | Unit | Action |
|---|---|---|---|
| Gas Chromatography LMCG-101 | $ 8750 | Each of 1 |
Features
Computer-controlled system
Multistage temperature control
Real-time status monitoring
Rapid heat-up and cool-down
Dual injector operation
Independent signal output
Standard Accessories
M6 Software
Optional Accessories
Model No. | Accessory | Quantity | Unit |
LMCG-101-GC1 | Split/Non-split capillary injector | 1 | Each |
LMCG-101-GC2 | Flame Ionization Detector (FID) | 1 | Each |
LMCG-101-GC3 | Thermal Conductivity Detector (TCD) | 1 | Each |
LMCG-101-GC4 | Flame Photometric Detector (FPD) | 1 | Each |
LMCG-101-GC5 | Electron Capture Detector (ECD) | 1 | Each |
LMCG-101-GC6 | Nitrogen Phosphorus Detector (NPD) | 1 | Each |
LMCG-101-GC7 | Autosampler 22 places | 1 | Each |
LMCG-101-GC8 | Autosampler 156 places | 1 | Each |
Applications
Gas Chromatography LMCG-101 is employed in pharmaceuticals, petrochemicals, food safety, and environmental analysis. It ensures reliable compound separation and detection in complex mixtures.
Selection Guide
Gas Chromatography LMCG-101 is designed for the separation and analysis of volatile and semi-volatile compounds. It is widely used in applications such as environmental monitoring, pharmaceutical quality control, food and beverage testing, petrochemical analysis, and forensic investigations. Based on research studies, it is particularly suitable for quantitative and qualitative analysis in both routine and complex experiments. This system provides a temperature control range up to 450°C, high-accuracy sample injection, and advanced electronic pressure control (EPC) for stable performance. It meets international certifications like ISO and CE, ensuring reliability and compliance with laboratory standards. Customers looking for a robust system for research, QA/QC labs, or regulatory testing can confidently choose this model based on its proven performance, certified quality, and versatile application support.
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Frequently Asked Questions
1 What is a Gas Chromatography?
A Gas Chromatography is an apparatus designed to separate, identify, and quantify compounds that can be vaporized without decomposition.
2 How does Gas Chromatography work?
It works by vaporizing a sample and separating its components as they travel through a column with a carrier gas.
3 How is Gas Chromatography used in environmental testing?
It is used to detect and quantify pollutants such as volatile organic compounds, pesticides, and industrial chemicals in air, water, and soil samples.
4 What role does Gas Chromatography play in forensic science?
It identifies substances like drugs, accelerants in arson cases, or toxins in biological samples for legal investigations.
5 How is Gas Chromatography used in pharmaceutical industry?
It is used for purity testing, identifying residual solvents, and analyzing the composition of drugs during manufacturing and quality control.
6 Can Gas Chromatography be used in food safety testing?
It is used to detect food additives, flavor compounds, contaminants, and pesticide residues to ensure compliance with food safety standards.
7 Is Gas Chromatography useful in oil and lubricant analysis?
It is used to characterize additives, base oil composition, and degradation by-products in engine oils and lubricants.
8 Can Gas Chromatography be used in renewable energy research?
It is used to analyze biofuels, such as biodiesel and bioethanol, by assessing composition, purity, and potential contaminants.
9 Can Gas Chromatography be used in waste management and recycling?
It is used to monitor emissions from waste treatment and analyze the composition of gases produced during recycling process.
10 Can Gas Chromatography be used in toxicology and poison detection?
It is used to identify and quantify toxic substances like solvents, drugs or volatile poisons in biological and environmental samples.