Calculation: ICSS / DCS / SCADA
Calculation: Flow Meter
Calculation: Flow Computer
Calculation: Process Simulation (HYSYS etc)
Composition: Spectrometry (GC – MS)
Composition: On-Line
Composition: Laboratory Analysis
Composition: Specific Gravity Analyser (Relative Density)
Composition: Wobbe Index Analyser (Calorimeter)
Composition: Gas Chromatograph
Composition: Optical Spectrometry
Composition: Utilising Export Gas Composition
Composition: Infer Molecular Weight (MW) from Speed of Sound (SoS)
Composition: Measure Density and Infer Gas Composition
Flare Design: Pilots
Composition: Automatic Sampling
Composition: Manual Sampling
Composition: Install New Nozzles
Composition: Repurpose Existing Nozzles
Composition: Hot Tap
Composition: Fixed Flange Dual Sample and Return Probe
Composition: Retractable Probe
Composition: Fixed Flange Probe
TEMPLATED POST
Control strategies: Predictive Feedback and Control
Environmental Impacts: Flare Tip Integrity Inspection # Manual Inspection
Environmental Impacts: Flare Tip Integrity Inspection # Drone deployed
Flare Design: Nitrogen Purge
Flow: Ultrasonic & Sonar Clamp-on Flow Meters
Vortex Flow Meter
Flow: Coriolis Flow Meter
Flow: Ultrasonic Flow Meter
L2F Optical Flow Meter
Flow: Scintillation Optical Flow Meter
Flow: Thermal Mass Flow Meter
Flow: Venturi Flow Meter
Cone Flow Meter
Elbow Flow Meter
Flow: Orifice Flow Meter
Pitot Tube Flow Meter
Environmental Impacts: Computational Fluid Dynamics (CFD) modelling to determine the effect of crosswind on flares efficiency
Can I identify a flare with a performance issue: Point Sensors and Arrays
Measure Efficiency: Permanent IR Systems
Measure Efficiency: Mobile Video Imaging Spectral Radiometry – (VISR)
Measure Efficiency: Video Imaging Spectral Radiometry – VISR
Measure Efficiency: Drone equipped with dual CH4 and CO2 sensors
Measure Efficiency: Aerial measurement of flare efficiency
Measure Efficiency: Drone equipped with single methane sensor
Measure Efficiency: Extractive method for determining flare efficiency
Measure Efficiency: Predictive Analytics
Measure Efficiency: Satellite monitoring – Thermal Imaging of single flares to derive efficiency estimates
Measure Efficiency: Methane measurements by satellite to assess flare efficiency –
Measure Efficiency: Pyrometer
Measure Efficiency: Active Laser Spectrometry
Can I identify a flare with a performance issue: Satellite monitoring – Directed methane monitoring
Can I identify a flare with a performance issue: Alarm systems – Flare Thermocouple
Can I identify a flare with a performance issue: Alarm systems – Flame Ionisation Detection
Can I identify a flare with a performance issue: Alarm systems – Thermal Imaging Cameras
Can I identify a flare with a performance issue: Alarm systems – Acoustic Alarms
Can I identify a flare with a performance issue: Alarm systems – Fibre Optics
Can I identify a flare with a performance issue: Alarm systems – Image Processing
Can I identify a flare with a performance issue: Monitoring Black carbon generation
Flare Design: Sonic tips with fixed exit slot
Flare Design: Sonic tips with variable exit area
Flare Design: Flare seals – Molecular (buoyancy) and Velocity Seals
Flare Design: Staged flare designs
Flare Design: Steam-assisted flares
Flare Design: Enclosed flares
Flare Design: On-demand Flare Ignition System
Measure Efficiency: Passive Fourier Transform Infra-Red and Hyperspectral Spectrometry
Can I identify a flare with a performance issue: Satellite monitoring – Thermal Imaging (VIIRS)
