A sharp-interface VOF method for phase-change simulations on unstructured meshes computes evaporation rates from local temperature gradients at geometrically reconstructed interfaces and validates against analytical solutions on Stefan, Sucking, and Scriven problems.
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An optimization framework co-optimizes unit commitment with synthetic inertia dispatch and STATCOM reactive support to maintain both voltage and frequency stability under high inverter-based generation.
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Sharp-interface VOF method for phase-change simulations on unstructured meshes
A sharp-interface VOF method for phase-change simulations on unstructured meshes computes evaporation rates from local temperature gradients at geometrically reconstructed interfaces and validates against analytical solutions on Stefan, Sucking, and Scriven problems.
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Impedance-Based VSC Unit Commitment with STATCOM Support under High IBG Penetration
An optimization framework co-optimizes unit commitment with synthetic inertia dispatch and STATCOM reactive support to maintain both voltage and frequency stability under high inverter-based generation.