An electrically heated stirred tank system of section 2.4.3 (page 23) of the Textbook is modeled by the following second

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An Electrically Heated Stirred Tank System Of Section 2 4 3 Page 23 Of The Textbook Is Modeled By The Following Second 1 (16.82 KiB) Viewed 61 times

An electrically heated stirred tank system of section 2.4.3 (page 23) of the Textbook is modeled by the following second order differential equation: gdºm/dt ? + 12 GT/st + I- T + 0.05 0 where Ti and T are intet and outlet temperatures of the liquid streams and is the heat input rato. At steady state Tiss = 100°C.Tss = 360°C, 89-5000 kcal/min (a) Obtain the transfer function T'(/C/(s) for this process Transfer_function b) Time constant and damping coefficient in the transfer function are:[Paul Zeta) At t=0, IQ is suddenly changed from 5000 kcaymin to 6000 kcamin, calculate the exit temperature Tattor 2 minutes. (T-2minutes Id Calculate the exit temperature T after 8 minutes. IT-8minutes! T