4.6 Article

Differentiability results and sensitivity calculation for optimal control of incompressible two-phase Navier-Stokes equations with surface tension

期刊

出版社

SPRINGER
DOI: 10.1007/s10589-022-00415-6

关键词

Two-phase flow; Surface tension; Sharp interface; Navier-Stokes equations; Volume of fluid; Differentiability; Optimal control

资金

  1. Projekt DEAL
  2. Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) [188264188/GRK1754, IGDK 1754, 265191195-SFB 1194]

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In this paper, optimal control problems for two-phase Navier-Stokes equations with surface tension are analyzed. By utilizing the L-p-maximal regularity of the linear problem and recent well-posedness results for small data, the differentiability of the solution with respect to controls is demonstrated. The study incorporates formulations transforming the interface to a hyperplane, deducing differentiability results in physical coordinates, and deriving sensitivity equations of a Volume-of-Fluid type formulation.
We analyze optimal control problems for two-phase Navier-Stokes equations with surface tension. Based on L-p-maximal regularity of the underlying linear problem and recent well-posedness results of the problem for sufficiently small data we show the differentiability of the solution with respect to initial and distributed controls for appropriate spaces resulting from the L-p-maximal regularity setting. We consider first a formulation where the interface is transformed to a hyperplane. Then we deduce differentiability results for the solution in the physical coordinates. Finally, we state an equivalent Volume-of-Fluid type formulation and use the obtained differentiability results to derive rigorosly the corresponding sensitivity equations of the Volume-of-Fluid type formulation. For objective functionals involving the velocity field or the discontinuous pressure or phase indciator field we derive differentiability results with respect to controls and state formulas for the derivative. The results of the paper form an analytical foundation for stating optimality conditions, justifying the application of derivative based optimization methods and for studying the convergence of discrete sensitivity schemes based on Volume-of-Fluid discretizations for optimal control of two-phase Navier-Stokes equations.

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