Effect of Inlet Flow Rate of the Tube Fluid, A, on the Steady State Outlet Temperatures in a Shelland-Tube Heat Exchanger processing two fluids, called A and B (process unit = shell-and-tube heat exchanger).

Process Unit: Shell and-Tube Heat Exchanger

Draw a fully labeled schematic (i.e. block diagram) of this process unit. Make sure your drawing has the following features (as needed):

– one solid straight-line arrow for each continuous mass input and output stream

– one dashed straight-line arrow for each single- or multiple-pulse mass input and output

– one solid jagged-line arrow for each continuous energy input and output stream

– one dashed jagged-line arrow for each single- or multiple-pulse energy input and output

– chemical reaction equations or arrows inside the “box” to represent any internal processes going on inside the unit, such as chemical reaction, heat transfer, or mass transfer

– labels that identify, where appropriate

the thermodynamic state of the system, that is, the
temperature (inside, outside, or on individual arrows, as needed)
pressure (inside, outside, or on individual arrows, as needed)
number and types of phases (inside, outside, or on individual arrows, as needed)
concentration of each component in each stream or phase
the flow rate of each mass and energy stream

So any ambient conditions that are constant throughout the process or process unit should be noted above the “box,” and any that are specific to a particular internal or external stream should be noted in the appropriate place on the diagram. – CIRCLE THE OUTPUT VARIABLE OR VARIABLES THAT IS/ARE THE TARGETED OUTCOME based on the title of the experiment given

– Include a “Nomenclature” table in which you define all variables, with units

– Include a descriptive title for the figure.

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