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Steady-state and dynamic simulation
Easily switch from steady-state to dynamic simulation to analyze system behavior under various conditions. Develop robust, adaptable designs and gain comprehensive insights for informed decisions.
Why gPROMS Flare - Advanced Process Modeling?
gProms Flare is a simulation tool that designs blowdown, pressure relief, flare and vent systems. With Flare, combine process and flare network design with transient analysis and advanced thermodynamics to reduce design time, manage risk and enable safe operations.
With gProms Flare, switch easily between steady-state and dynamic analysis, cutting costs and reducing emissions. Connect process and flare system models to understand safety system behavior and capacity.
Other tools can miscalculate temperatures and create suboptimal designs by assuming equilibrium during rapid depressurization. gFLARE uses rigorous thermodynamic modeling, accounting for real-world complexities like liquid condensation or solid formation. High-fidelity models create a Digital Twin for confident decisions and safety.
Key benefits
Design safe vent systems for CCUS
Implement novel pressurized vent system designs to prevent dry ice in CCUS applications. Enable operational safety and compliance by mitigating phase change risks for reliable, efficient CCUS processes.
Optimize material selection for capital savings
Make informed material decisions for capital savings without compromising safety or performance to enhance project viability and long-term operational efficiency.
Avoid costly flare tip replacement
Understand system behavior to extend equipment lifespan, reduce maintenance and minimize downtime. Prevent costly replacements in offshore environments with dynamic flare capacity studies.
Featured capabilities
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Process and flare system models
Connect process and flare system models to understand your safety system's behavior and capacity. Couple gPROMS simulations for dynamic analysis to reflect true system behavior and enhance safety.
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Thermodynamic modeling
Account for complexities with rigorous thermodynamic modeling, even with liquid condensation or solid formation. Choose from extensive components and equations of state for your system.