Open AccessA maximum principle for multiphase flow models
Author(s) -
Konstantin Novikov
Publication year - 2017
Publication title -
vyčislitelʹnye metody i programmirovanie
Language(s) - English
Resource type - Journals
eISSN - 1726-3522
pISSN - 0507-5386
DOI - 10.26089/nummet.v18r211
Subject(s) - constant (computer programming) , flow (mathematics) , two phase flow , phase (matter) , mechanics , compressibility , data flow model , thermodynamics , mathematics , capillary pressure , materials science , physics , computer science , porous medium , quantum mechanics , porosity , composite material , programming language
Сформулированы и доказаны принципы максимума для нескольких моделей многофазной фильтрации. Первый принцип справедлив для фазовых насыщенностей в несжимаемом случае модели двухфазной фильтрации с постоянными вязкостями, а второй - для глобального давления в моделях двух- и трехфазной фильтрации Two maximum principles for several multi-phase flow models are formulated and proved. The first one is valid for phase saturations in an incompressible two-phase flow model with constant viscosities. The second one is valid for the global pressure in two- and three-phase flow models with constant viscosities and is also valid for phase pressures in the case of zero capillary pressure.