My function will not work to calculate the 'Cumene inlet temperature' section

1 view (last 30 days)
clc
clear
close all
format short g
%% Properties taken from Perry's Chemical Engineering Handbook 8th Edition
T1=414.95;
t1=286.15;t2=379.25;
Ac=61723; Bc=494.81; Cc = 0;%Heat capacity coefficients Cumene
Ab=162940; Bb=-344.94; Cb=0.85562; %Heat capacity coefficients Benzene
B1b=7.5117; B2b=294.68; B3b=-2.794;%viscosity coefficients Benzene
B1c=-24.988; B2c=1807.9; B3c=2.0556;%viscosity coefficients Cumene
C1b=0.23444; C2b=-0.00030572;%Thermal Conductivity coefficients Benzene
C1c=0.1855; C2c=-0.00020895;%Thermal Conductivity coefficients cumene
D1b=1.0259; D2b=0.26666; D3b=562.05; D4b=0.28394; %Density coefficients benzene
D1c=0.58711; D2c=0.25583; D3c=631; D4c=0.28498; %Density coefficients cumene
%% Flow rate calculation
mb=281.4749; mc=281.25;%molar flow rate in kmol/hr
m_b = 281.4749e3; m_c = 281.25e3; %molar flow rate in mol/hr
GFMb=78.11/1000; GFMc=120.19/1000;%GFM of Benzene and Cumene in kg/mol
Mb=(m_b*GFMb)/3600; %flow rate benzene in kg/s
Mc=(m_c*GFMc)/3600;% flow rate cumene in kg/s
%%
%Duty calculation
Cp=@(T)(Ac+(Bc*T));
Hb=integral(Cp,t1,t2);
Qb=(Hb.*Mb)./1000; %Cumene Duty in kW
Qc=Qb.*-1; %Benzene duty in kW
%%Cumene inlet temperature calculation
T=400;
func= @(T) (Mc*Cp)*(T-T1) - (Qb);
T2 = func(T);

Accepted Answer

madhan ravi
madhan ravi on 20 Feb 2020
func= (Mc*Cp(T))*(T-T1) - (Qb)

More Answers (0)

Categories

Find more on Chemistry in Help Center and File Exchange

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!