Benchmark Lab's High-Temperature Gas Chromatography (HTGC), GC-FID, And GC-MS Analytical Services

High-Temperature Gas Chromatography (HTGC), GC-FID, And GC-MS Analytical Services

Benchmark Laboratory specializes in leveraging cutting-edge technologies such as High-Temperature Gas Chromatography (HTGC), Gas Chromatography-Flame Ionization Detection (GC-FID), and Gas Chromatography-Mass Spectrometry (GC-MS) to offer a comprehensive suite of analytical services. Our expertise is instrumental in providing critical insights for industries including oil and gas, petrochemicals, environmental science, and manufacturing.
Gas Chromatography (HTGC), GC-FID, And GC-MS Analytical Services Video Banner Image

We Offer The Following Services With High-Temperature Gas Chromatography (HTGC), GC-FID And GC-MS.

Paraffin Content Analysis with HTGC: Our HTGC methodologies enable precise quantification of paraffin content, offering invaluable data for refining processes and product quality optimization.

Carbon Distribution Profiling with HTGC: We deliver detailed carbon distribution profiles, aiding clients in understanding the molecular composition of their samples for enhanced product development and quality control.

Component Identification through Gas Chromatography (GC)-MS: Utilizing an Agilent 6890 GC equipped with a mass selective detector and a comprehensive library, our laboratory excels in identifying unknown compounds, ensuring accurate component analysis and quantification.

BTEX Determination by GC-FID: Our Gas Chromatography (GC)-FID techniques are tailored for the analysis of Benzene, Toluene, Ethylbenzene, and Xylenes (BTEX), crucial for environmental monitoring and compliance with safety standards.

Glycol Quantification with GC-FID: We provide precise quantification of glycols, essential for industries where glycol levels affect product performance and safety regulations.

Microplastics Detection: Leveraging pyrolysis techniques, our lab identifies microplastics in environmental samples, contributing vital information to the study of pollution and its impact.

Volatile Organic Compounds (VOCs) Analysis with GC-MS: Our VOC analysis services are essential for air quality monitoring, emission control, and ensuring workplace safety, using advanced Gas Chromatography (GC)-MS technology for sensitive detection.

GC Chromatogram Interpretation: We offer expert interpretation of GC chromatograms, providing deep insights into sample composition, contaminant identification, and quality assessment.

Ethanol and Methanol Content Analysis by GC-FID: Our laboratory conducts accurate determinations of ethanol and methanol content, vital for quality assurance in the beverage, pharmaceutical, and industrial sectors.

Chloride and Chemical Residue Analysis through GC-MS: Identifying and quantifying organic chloride and chemical residues are paramount for ensuring product safety and regulatory compliance, achieved through sensitive GC-MS techniques.

Lubricant Oil Analysis with GC-FID: Our GC-FID based analysis of lubricant oils assesses their compositional integrity and performance, crucial for maintaining industrial machinery and equipment.

Equipment and Methodologies: Our facility is armed with state-of-the-art equipment, including the Agilent 6890 GC system, featuring a flame ionization detector and mass selective detector. The adoption of high-quality columns like the Agilent HT DB-1 and standards such as the C7-C60 Sigma Aldrich n-paraffin standard underscores our commitment to accuracy and reliability. Sample preparation, often involving dilution in carbon disulfide, is meticulously conducted to ensure optimal analysis conditions.

Frequently Asked Questions

Our laboratory's vast array of analytical services, powered by the latest advancements in HTGC, GC-FID, and GC-MS technologies, positions us as a pivotal partner for industries seeking detailed material characterization and analysis. Our commitment to excellence, coupled with our comprehensive analytical capabilities, enables us to provide our clients with the insights needed to drive innovation, ensure safety, and promote sustainability. Trust our team to deliver accurate, actionable data that supports your strategic objectives and operational efficiency.
High Temperature Gas Chromatography (HTGC) is a specialized form of Gas Chromatography (GC) that operates at elevated temperatures, allowing for the separation of high-boiling and thermally labile compounds. This technique is particularly useful for analyzing complex mixtures that require higher temperatures for efficient separation and analysis.
Flame Ionization Detection (FID) is a common detection method used in Gas Chromatography (GC) to detect and quantify organic compounds. It operates by measuring the ions produced when organic compounds are burned in a hydrogen-air flame. FID provides high sensitivity and a wide linear range, making it suitable for a variety of applications.
Gas Chromatography Mass Spectrometry (GC-MS) combines the separation power of Gas Chromatography (GC) with the detection and identification capabilities of Mass Spectrometry (MS). This powerful technique allows for the separation and characterization of complex mixtures, providing information about the molecular structure, composition, and abundance of analytes with high sensitivity and specificity.
You can find reliable GC-MS services at our laboratory. We specialize in Gas Chromatography Mass Spectrometry (GC-MS) analysis, offering accurate and comprehensive solutions for various industries, including environmental analysis, pharmaceuticals, forensic science, and research institutions. Our experienced team and state-of-the-art equipment ensure precise and reliable results for your analytical requirements.