A new approach for solving nonlinear algebraic systems with complementarity conditions. Application to compositional multiphase equilibrium problems

Abstract: We present a new method to solve general systems of equations containing complementarity conditions, with a special focus on those arising in the thermodynamics of multicomponent multiphase mixtures at equilibrium. Indeed, the unified formulation introduced by Lauser et al. [Adv. Water Res. 34 (2011), 957-966] has recently emerged as a promising way to automatically handle the appearance and disappearance of phases in porous media compositional multiphase flows. From a mathematical viewpoint and after discret… Show more

“…Now we employ a nonparametric interior-point method to problem (1.1). More precisely, we consider the method introduced in [44] where a systematic strategy is used to steer the sequence of smoothing parameters towards zero.…”

“…where θ is a small positive real parameter, chosen once and for all. This equation prevents µ from rushing to zero in just one iteration, and ensures quadratic convergence, see [44]. The unknown of system (4.1) is now the enlarged vector X = (X, µ) T ∈ R n+1 .…”

“…Recall that our goal is to make µ equal to 0 in the limit while ensuring the positivity of the updated iterate. Another choice for the additional equation (4.2) added to system (4.1) was developed and introduced in a recent work, see [45,Section 3]. The proposed equation does not require to truncate the Newton direction, and couples µ and X in a tighter way.…”

“…The entire method is described by the following adaptive algorithm, which drives the smoothing parameter µ j to zero as µ j := αµ j−1 at each smoothing iteration. Other common empirical ways to progressively reduce µ j can be found, e.g., in [45]. The adaptive inexact smoothing Newton algorithm is the following:…”

Semismooth and smoothing Newton methods for nonlinear systems with complementarity constraints: Adaptivity and inexact resolution

“…Now we employ a nonparametric interior-point method to problem (1.1). More precisely, we consider the method introduced in [44] where a systematic strategy is used to steer the sequence of smoothing parameters towards zero.…”

“…where θ is a small positive real parameter, chosen once and for all. This equation prevents µ from rushing to zero in just one iteration, and ensures quadratic convergence, see [44]. The unknown of system (4.1) is now the enlarged vector X = (X, µ) T ∈ R n+1 .…”

“…Recall that our goal is to make µ equal to 0 in the limit while ensuring the positivity of the updated iterate. Another choice for the additional equation (4.2) added to system (4.1) was developed and introduced in a recent work, see [45,Section 3]. The proposed equation does not require to truncate the Newton direction, and couples µ and X in a tighter way.…”

“…The entire method is described by the following adaptive algorithm, which drives the smoothing parameter µ j to zero as µ j := αµ j−1 at each smoothing iteration. Other common empirical ways to progressively reduce µ j can be found, e.g., in [45]. The adaptive inexact smoothing Newton algorithm is the following:…”

Semismooth and smoothing Newton methods for nonlinear systems with complementarity constraints: Adaptivity and inexact resolution

“…It can be combined with a path-following strategy to properly update the regularization parameter, see, e.g., [15,16]. Inspired from the interior-point methods [17,18], another approach is the non-parametric interiorpoint method proposed recently in [19]. For an enlightening summary of numerical methods solving problem (1.1), we refer to the books of Ferris et al [20], Facchinei and Pang [21,22], Bonnans et al [23], Ito and Kunisch [24], and Ulbrich [25].…”

Adaptive inexact smoothing Newton method for a nonconforming discretization of a variational inequality

A deep learning approach for solving the stationary compositional two-phase equilibrium problems