Solving with MATLAB code In a 3 subsystem process there are 7 variables, 2 compounds and 4 main elements of the system.
Posted: Mon May 16, 2022 1:39 pm
Solving with MATLAB code
In a 3 subsystem process there are 7 variables, 2 compounds and
4 main elements of the system. Subsystem 1 enters 100 kg / s of a
20% KCI solution, from subsystem 1 it is directed to the current of
subsystem 2. From subsystem 2 two streams separate, one stream of
water leaves the system evaporating to the other it enters
subsystem three with a 50% KCI. Two streams leave subsystem 3, one
stream of concentrated product (95% KCI) leaves the system and the
other returns to subsystem 1 with a concentration of 33% KCI.
a) Jacobi's method
b) the Gauss-Seidel method
mp=100 kg/s 2 m=? ma=? Xkci:? XH20:? Xkci: 0.2 XH20: 0.8 XH20=1 m=? Xkci: 0.33 XH20: 0.67 me=? Xkci: 0.5 XH20: 0.5 3 mp=? Xkci: 0.95 XH20: 0.05 Тр
In a 3 subsystem process there are 7 variables, 2 compounds and
4 main elements of the system. Subsystem 1 enters 100 kg / s of a
20% KCI solution, from subsystem 1 it is directed to the current of
subsystem 2. From subsystem 2 two streams separate, one stream of
water leaves the system evaporating to the other it enters
subsystem three with a 50% KCI. Two streams leave subsystem 3, one
stream of concentrated product (95% KCI) leaves the system and the
other returns to subsystem 1 with a concentration of 33% KCI.
a) Jacobi's method
b) the Gauss-Seidel method
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