4. Chemical Engineering is very full of correlations, both analytical and graphical. Many of these correlations are based on dimensionless physical properties such as reduced temperature Tr-T ) and reduced pressure (P-) or dimensionless nurnbers such as the Revonlds Number. Use the information below (knowing you may not understand all of the equation) to calculate the mass transfer coefficient of benzoic acid in water flowing at a velocity of 3.05 m/s in a 1.829 m long pipe with an inner diameter of 6.35 mm. This particular mass transfer coefficient correlation is for turbulent flow in a pipe which is only valid if the Reyonlds number is greater ebcy n than 2100 ECH3854 - Engineering Computations HW1 Mass transfer coefficient correlation Sh 0.023Re0.83 Sco.33 Sherwood Number AB Reyonlds Number Schmidt Number Viscosity epipeUp 8.71 x 10-4 Pa s 996 kg/m 3 Density Diffusivity of benzoic acid in water DAB 1.245 x 10-m2/s Write a script called calc-MTC.m to calculate the mass transfer coefficient (K). To use this correlation, first compute the Reyonlds number and verify it meets this criteria (this wil be done manually for now but we will soon learn how to do via programming). Then calculate the Schmidt number, then the Sherwood number using the correlation. Then calculate the mass transfer coefficient using the Sherwood number. After you find the correct answer of k'-1.616 10-4 m/s, explore what the lower bound on water velocity is in order to still be considered turbulent. What is the mass transfer coefficient at this lower bound velocity? It is considerably far from the original