– Process workspace
– Flare workspace
Access Symmetry Process Software Platform
Symmetry process software platform captures all aspects of your models from reservoir to product distribution. The Symmetry platform offers a unique opportunity to model your process workflows in one environment, integrating pipelines, networks, and facilities models, while ensuring consistent thermodynamics and fluid characterization across the full system. This approach enables companies to optimize processes in upstream, midstream, and downstream sectors, maximizing profits and minimizing CAPEX..
The Process workspace incorporates the latest advancements in fully interactive simulation. It includes a state-of-the-art property package and the PIONA characterization proprietary methodology, which provides accurate phase equilibria and physical properties for simple and complex mixtures..
The Flare workspace is an all-inclusive pressure-relieving systems modeling tool with pressure relief valves (PRV), network header, and stack/tip sizing capabilities. It offers a complete set of tools that enables you to verify and validate the performance of your entire safety and disposal system. The profile includes a state-of-the-art property package and the PIONA characterization proprietary methodology, which provides accurate phase equilibria and physical properties for LP, HP, and acid gas reliefs.
A scenario-driven model of the flare header system can report an increase in back pressure on a relief valve, automatically trigger an update to valve sizing/rating calculations and verify inlet losses at required/rated flow conditions. Likewise, a change in relief valve size or type is automatically considered in header constraint evaluation.
The Symmetry platform’s gasification property package calculates ideal gas behavior, ideal liquid behavior using Raoult’s Law, aggregate multiple solid phases with rigorous Gibbs data for predictive reactive calculations.
SARA Regular Solution
Symmetry’s SARA Regular Solution property package enables accurate modeling of solvent-asphaltene precipitation processes through the estimation of asphalteneʼs yield, precipitation onset point, and physical properties.
Flaresim Flare Systems Design and Analysis Software
Flaresim flare systems design and analysis software is the industry standard flare equipment simulation/design application. Designed by professional engineers, for professional engineers, it models thermal radiation and noise footprints generated by flare systems for offshore platforms, gas plants, refineries and chemical plants, and predicts the temperature of exposed surfaces within range.
The application can analyze installations of any complexity, with unlimited multiple flare tips on multiple vertical, horizontal, or inclined flare stacks. You can model pipe flares, sonic flares, and liquid burners using a range of algorithms.
The Pipe workspace enables the modeling of distribution and gathering networks, ranging from a simple straight pipeline to highly looped networks. This workspace enables you to run your analysis, such as field development planning, network debottlenecking, and flow assurance. It includes a state-of-the-art property package and the PIONA characterization proprietary methodology, which provides accurate phase equilibria and physical properties for simple and complex mixtures, which gives you the ability to track all the components throughout the network.
An integrated high-fidelity transient pressure flow network-based dynamics solver. This dynamics solver has been uniquely integrated with the steady-state solver in all workspaces, providing an ease transition between both engines to develop detailed analysis without re-building the main model and saving engineering time. The dynamics functionality enables you to better understand the transient behavior and interaction between your process units, pipe and flare networks.
Access PIPESIM Steady-State Multiphase Flow Simulator
The PIPESIM steady-state multiphase flow simulator provides a comprehensive set of workflows ranging from candidate well selection for workovers, to identification and mitigation of flow assurance challenges, to online optimization of the production system. From field development to production operations, the PIPESIM simulator enables production optimization over the complete life cycle, by accessing the latest targeted science to address flow assurance challenges.
Access OLGA Dynamic Multiphase Flow Simulator
The OLGA dynamic multiphase flow simulator models transient flow (time-dependent behaviors) to maximize production potential. Transient modeling is an essential component for feasibility studies and field development design. Dynamic simulation is essential in deep water and is used extensively in both offshore and onshore developments to investigate transient behavior in pipelines and wellbores. Transient simulation with the OLGA simulator provides an added dimension to steady-state analysis by predicting system dynamics, such as time-varying changes in flow rates, fluid compositions, temperature, solids deposition, and operational changes. From wellbore dynamics for any well completion to pipeline systems with various types of process equipment, the OLGA simulator provides an accurate prediction of key operational conditions involving transient flow.