Tag: finite difference method.

Science Press Release Distribution Services

Modified FDM for Solving Two-linked Boundary-value Problems with Transmission Conditions

In this paper, mathematical solutions of boundary profit problems (BVPs) for twolinked ordinary characteristic equations (ODEs) is discussed. The question studied here distincts from classical BVPs in that it contains additional conditions not quite interaction, called broadcast conditions.We developed a new mathematical method for calculating the mathematical solution of BVTPs for two-linked ODEs established the…
Read more

July 17, 2023 0

Analysis of Methods for Calculating the Value of the Thermal Conductivity Coefficient in Numerical Modeling

Using the method of computational experiments on a computer, the effect of the method for calculating the values of the thermal conductivity coefficient at the nodes of the difference grid on the numerical solutions of a one-dimensional nonlinear problem of heat conduction according to explicit and implicit conservative difference schemes is investigated in this article.…
Read more

May 22, 2022 0

Study on Numerical Computation of Hard Excitation in an Autocatalytic Biochemical System

The goal of this research is to create, analyse, implement, and compare finite-difference techniques so that robust numerical methodologies can be made available. Two computational approaches based on finite difference schemes are used to solve an autocatalytic biochemical system in the presence of recycling enzyme. The first is the well-known Euler technique, which is an…
Read more

September 9, 2021 0

Advanced Study on Combined Effects of Soret and Dufour on MHD Flow of Non-Newtonian Fluid Past a Porous Flat Plate

It is well known that the majority of fluids used in chemical and allied processing applications do not comply with the law of classic Newton and are thus known as non-Newtonian fluids. The heat and mass transfer of a laminar boundary layer flow of a non- Newtonian power law fluid past a porous flat plate…
Read more

January 8, 2021 0