34 Prelirninaries1.2 SOME VARIANTS OF THE ELIMINATION METHOD- The flow variant of the elimination method for difference problems with
widely varying coefficients. In numerical solution of thermal-flow hydrody-
namics and magnito-hydrodynamics problems in which the coefficients of
heat conductivity and electric conductivity depend on the thermodynamic
parameters of the medium the elimination method for the corresponding
difference equations leads to unsatisfactory results. In thermal problems
adiabatic cells with infinitely large thermal-flow reveal themseves. The
nonconductive cells or ideal conductivity may appear in magnetic prob-
lems, thus causing obstacles in connection with widely varying coefficients
and considerable accuracy losses. In mastering the difficulties involved,
the flow variant of the elimination method is aimed at solving a revised
supplementary problem relating to the heat flow.
( 61)(62)The statement of the boundary-value problem isa; Yi-1 - c; Yi + ai+l Yi+1 = -f; , z = 1, 2, ... , JV - 1,
with the n1embersc; = a;+1 +a; + d;, d; > 0,^0 <a; < =,
(63)Having stipulated condition (63), the c01nputational formulae of the right
elimination with regard to problem (61)-(62) can be written as
i = 0, 1, 2, ... , N - 1,
(64) a;+1 +a; ( 1-O:;) +cl;'
CY;+ 1 ·.
~ (a; /3; + f; ) ,
a;+11 = 1, 2, ... , N - 1.
A new unknown difference function is called a flow and is defined by(65) w; : = a; ( Yi - 1 - Yi ) ,