OLGA Standard
consist of Three-phase, Slugtracking and Compostional Tracking modules.
OLGA Professional package
includes in addition to OLGA Standard the following modules: Corrosion, FEMtherm, Multiphase Pump, Wells, Wax, Single Component, Hydrate Kinetics, Inhibitor Tracking, Complex Fluid, Matlab Toolbox and Tuning.
OLGA for Wells
has in addition to OLGA Standard modules the Wells module.
There is also an extensive PVT package for OLGA - PVTsim
OLGA for life cycle simulations
Dynamic modeling provides key design requirements and is essential for maximizing the production window.
Assuring stable production(flow assurance) throughout the field life is the main focus for detailed analysis
with OLGA.
Conceptual–FEED- Detailed Design
Design
- Pipeline sizes
- Thermal insulation
- Hydrate/Inhibitor
- Liquid management/Pigging
- Slug mitigation
- Process capacity (integrated simulation)
Focus maximizing production window
- Initial
- Mid field life
- Tail end
Accuracy/Uncertainty management
- Input accuracy
- Parameter sensitivity
- Simulation accuracy (OVIP/field experience)
- Lab tests/validation
Iterative process
- New field data
- Updated design
Risk assessment/Safety
Preparing for Operations
Basis for operational procedures
- Operational procedures and limits
- Emergency procedures
- Contingency plans
Operator training
- Training in flow assurance
- Practicing operational procedures
- Preparing initial start up
Assistance at start-up
Operations
OLGA is used on a regular basis to check and update procedures and ensure proactive operations. With OLGA, online real-time data is fed into the simulator to supply accurate look-ahead predictions.
- Decision support (OLGA Online)
- Operator Training Simulator (OTS)
- Expert analysis/operator support (OLGA Online/OLGA Planner)
- Procedure improvements
- Ad-hoc operations
- Emergency operations
- Engineering
- Modifications
- Redesigns
- Field expansions phase 2,3,..
Successful design and operation of onshore and offshore multiphase production systems rely on the understanding of flow behavior to ensure technical, operational and HSE integrity.
OLGA is used from the engineering of systems through to the operation, resulting in overall capital and operating cost effectiveness.
Efficient production involves the multiphase transport of oil, gas and water from the reservoir, through wells and pipelines, to the processing installations. OLGA models the flow of production using complex simulations which predict the behavior of the fluid flow.
The unique competitive advantage of OLGA lies in the ability to model the dynamic qualities of production for all multiphase scenarios.