Gas Chromatography and Troubleshooting for the Oil and Gas Industry Training Course

Course Category : Oil & Gas Management

Built on operational discipline and quality standards, this programme equips laboratory teams to optimise GC methods, strengthen result reliability, and accelerate fault isolation through structured maintenance and troubleshooting protocols aligned with quality expectations.
5 Days | Level: Intermediate.

Starts On

7 - December - 2026

Ends On

11 - December - 2026

Location

Spain - Madrid

Language

English

View the course details and register to enroll.

Register Now

Targeted Audience

  • Chemical and petrochemical laboratory professionals
  • Oil and gas analytical engineers/technicians (upstream/downstream)
  • QA/QC specialists and laboratory quality officers
  • Environmental quality and related emissions-testing personnel
  • Technical compliance and quality inspectors
  • Middle management professionals in laboratory and quality functions

Targeted Skills

  • Configuring GC systems with recommended starting conditions for oil and gas applications
  • Selecting columns and stationary phases to improve selectivity and separation
  • Optimising inlets (split/splitless, PTV) and managing gas and injection systems
  • Interpreting chromatograms and strengthening integration/reporting integrity
  • Applying structured troubleshooting for rapid fault isolation and prevention

Expected Outcomes

  • Build an applied understanding of GC fundamentals and their impact on separation quality and measurement accuracy.
  • Configure core GC elements (gases, inlet, column, oven, detector) for stable and repeatable performance.
  • Develop traceable methodologies for calibration, quantitation, and performance verification aligned with quality requirements.
  • Diagnose common GC faults and implement corrective and preventive actions to reduce downtime.
  • Improve data handling and reporting, integrating workflows with LIMS and ISO/IEC 17025 fundamentals.

Training Topics Index

  • Separation principles, retention, and selectivity drivers
  • Factors affecting retention time and peak shape
  • Molecular interactions and stationary phase selection logic
  • Core GC terminology and chromatogram structure
  • Oil and gas use cases include natural gas, NGL, fuels, and contaminants

  • Carrier/fuel/air specifications and flow control fundamentals
  • Inlet selection split/splitless and PTV use-case mapping
  • Inlet temperature control and liner configuration
  • Autosampler set-up, error sources, and repeatability assurance
  • Injection-related faults ghost peaks, carryover, and response decay

  • Column selection packed vs capillary; dimensions and film thickness
  • Column-driven performance dispersion, tailing, and band broadening
  • Temperature programming vs isothermal operation
  • Column care trimming, bleed control, and contamination prevention
  • Separation faults linked to oven behaviour, leaks, and dead volumes

  • Detector selection aligned to application requirements (FID/TCD/ECD as applicable)
  • Performance indicators sensitivity, noise, drift, and detection limits
  • Detector maintenance, gas lines, and thermal control
  • Common faults unstable baseline, high noise, loss of sensitivity
  • Symptom-to-root-cause mapping and corrective action planning

  • Data acquisition and integration parameters that matter
  • Calibration and quantitation curves, recovery, internal/external standards
  • Performance verification system suitability and QC checks
  • LIMS-enabled workflows, traceability, and data governance
  • ISO/IEC 17025 fundamentals documentation, uncertainty, and audit readiness