Add to ORKGA novel hybrid finite-element/finite-volume numerical method is developed to determine the capillary rise of a liquid with a free surface (under surface tension and gravitational forces). The few known exact analytical solutions are used to verify the numerical computations and establish their accuracy for a range of liquid contact angles. The numerical method is then used to ascertain the limitations of a number of theoretical approximations to solutions for the capillary rise in the linearized limit, for special geometries such as plane walls, concentric cylinders and in a wedge of arbitrary included angle. The existence of a critical wedge angle for a given contact angle is verified. However, the effect of slight practical rounding of we...
Certain methods for numerical solving plane and axially symmetric problems on equilibrium shapes of ...
We investigate computationally two recent mathematical findings involving unusual behavior of soluti...
Four different numerical approaches are compared for the rise of liquid between two parallel plates....
A novel hybrid finite-element/finite-volume numerical method is developed to determine the capillary...
A novel hybrid finite-element/finite-volume numerical method is developed to determine the capillary...
The upper free surface z = u(x, y) of a static fluid with gravity acting in the z direction, occupyi...
Free liquid surfaces in equilibrium are described by the Laplace capillary equation with suitable bo...
Capillarity is the phenomena of fluid rise against a solid vertical wall. For our research, we con...
The classical Young-Laplace equation relates capillary pressure to surface tension and the principal...
The major purpose of this study was to develop and evaluate a mathematical model for the capillary p...
this paper we describe a numerical method to determine the shape of capillary surfaces and analyse t...
Many physical problems require explicit knowledge of the equilibrium shape of the interface between ...
The results of several independent studies are presented. The general question is considered of whet...
The paper considers two static problems from capillarity. The ˇrst one consists in the determination...
International audienceThis paper introduces a numerical method able to deal with a general bi-fluid ...
Certain methods for numerical solving plane and axially symmetric problems on equilibrium shapes of ...
We investigate computationally two recent mathematical findings involving unusual behavior of soluti...
Four different numerical approaches are compared for the rise of liquid between two parallel plates....
A novel hybrid finite-element/finite-volume numerical method is developed to determine the capillary...
A novel hybrid finite-element/finite-volume numerical method is developed to determine the capillary...
The upper free surface z = u(x, y) of a static fluid with gravity acting in the z direction, occupyi...
Free liquid surfaces in equilibrium are described by the Laplace capillary equation with suitable bo...
Capillarity is the phenomena of fluid rise against a solid vertical wall. For our research, we con...
The classical Young-Laplace equation relates capillary pressure to surface tension and the principal...
The major purpose of this study was to develop and evaluate a mathematical model for the capillary p...
this paper we describe a numerical method to determine the shape of capillary surfaces and analyse t...
Many physical problems require explicit knowledge of the equilibrium shape of the interface between ...
The results of several independent studies are presented. The general question is considered of whet...
The paper considers two static problems from capillarity. The ˇrst one consists in the determination...
International audienceThis paper introduces a numerical method able to deal with a general bi-fluid ...
Certain methods for numerical solving plane and axially symmetric problems on equilibrium shapes of ...
We investigate computationally two recent mathematical findings involving unusual behavior of soluti...
Four different numerical approaches are compared for the rise of liquid between two parallel plates....