Checking Calculations: The following shows a solution to Turton 2-22 part b. The solution contains at least one error. Review the solution and identify the error(s) made and provide corrections. Use the Seider-Tate equation to determine the inside heat transfer coefficient for liquid isopropanol flowing inside a 16 -ft-long, 1-in tube (14 BWG) at a velocity of 2.5ft/s that is being cooled and has an average temperature of 176F and an average wall temperature of 104F. 22. Use the Sieder-Tate equation to determine the inside heat transfer coefficient for a fluid flowing inside a 16ft long, 1-in tube (14 BWG) at a velocity of 2.5ft/s that is being cooled and has an average temperature of 176F and an average wall temperature of 104F. Consider the following fluids: a. Acetone (liquid) b. Isopropanol (liquid) c. Methane at 1 atm pressure - use a velocity of 50ft/s d. Compare the results from Parts (a), (b), and (c) using the Dittus-Boelter equation CHE372HW3w23FidiliousProblem5:Turton222(b)solvtionVseseider-TatetofindnFividsligusdisopropanolbulkliguldtemp=176Fsukracetemp=104FUsesender-TateNu=khiDi=0.023(1+(LDi)0.7)Re0.8Prr1/3(umM)0.14FindaluidpropertiesforRe6000RISA=45.27h+3lbmCPspm=0.8037BTKbbm/ofIPA=3.5610416m/k/of@176F=9.121041bmk/pCe14FKJDA=0,0708BTV/hr/fy/bFI"nominal14Bw4TubinghasDi=0.8344Nv=0.023[1+(160.834)0.77]220940.81314.581/3(9.123,56)0,14=1199=khDih=DiNuK=0,834/12/ft11990,07088//h//kt/F=1221hrf20fRTV