Consider the shell and tube heat exchanger where liquid A of density pa is flowing through the inner tube and is being cooled from termperature TA to T2 by liquid 8 of density pe flowing counter-currently around the tube. The temperature of liquid B increases from Tas to Taz In many practical situations the tubular heat exchanger is modelled using simple ordinary differential equations. This is possible if we think about the heat exchanger within the unit as being an exchanger between two perfect mixed tanks. Each one of them contains a liquid. Investigate the nature of a system a heat exchanger under ideal i. conditions. Develop appropriate equations to model the heat exchange. State the assumption and their implications Perform a degree of freedom analysis. IV

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Consider the shell and tube heat exchanger where liquid A of density pa is flowing through the inner tube and is being cooled from termperature TAi to T2 by liquid B of density pe flowing counter-currently around the tube. The temperature of liquid B increases from Tes to Ta In many practical situations the tubular heat exchanger is modelled using simple ordinary differential equations. This is possible if we think about the heat exchanger within the unit as being an exchanger between two perfect mixed tanks. Each one of them contains a liquid. i. Investigate the nature of a system a heat exchanger under ideal conditions. Develop appropriate equations to model the heat exchange. State the assumption and their implications IV Perform a degree of freedom analysis.