From 7f60ea012dd2524dae921a2a35adbf7ef21f2bb6 Mon Sep 17 00:00:00 2001 From: prashantsinalkar Date: Tue, 10 Oct 2017 12:27:19 +0530 Subject: initial commit / add all books --- 1040/CH4/EX4.4/Chapter4_Ex4.sce | 57 +++++++++++++++++++++++++++++++++++++++++ 1 file changed, 57 insertions(+) create mode 100644 1040/CH4/EX4.4/Chapter4_Ex4.sce (limited to '1040/CH4/EX4.4') diff --git a/1040/CH4/EX4.4/Chapter4_Ex4.sce b/1040/CH4/EX4.4/Chapter4_Ex4.sce new file mode 100644 index 000000000..942eae0cb --- /dev/null +++ b/1040/CH4/EX4.4/Chapter4_Ex4.sce @@ -0,0 +1,57 @@ +//Harriot P.,2003,Chemical Reactor Design (I-Edition) Marcel Dekker,Inc. USA,pp 436. +//Chapter-4 Ex4.4 Pg No.157 +//Title: Effectiveness factor for solid catalyzed reaction +//====================================================================================================================== +clear +clc +//INPUT +D_e_A=0.02;//(cm2/s) +D_e_B=0.03;//(cm2/s) +D_e_C=0.015;//(cm2/s) +X_f_A=0.3; +X_f_B=(1-X_f_A); +eta_assumed=0.68;//Effectiveness factor from Fig.4.8 for first order reaction +T=150;//(deg C) +T_K=T+273;//(K) +r=0.3;//(cm)Radius of catalyst sphere +P_opt=4;//(atm)Operating Pressure +R=82.056;//(cm3 atm/K mol)Gas constant + + +//CALCULATION +//Kinetic equation r= (2.5*10^-5*P_A*P_B)/(1+0.1*P_A+2*P_C)^2 +P_A=X_f_A*P_opt; +P_B=X_f_B*P_opt; +r_star=(2.5*10^-5*P_A*P_B)/(1+0.1*P_A)^2; +C_A=P_A/(R*T_K); +k=r_star/C_A; +Phi= r*(k/D_e_A)^(0.5); +P_A_bar=eta_assumed*P_A; +delta_P_A=P_A*(1-eta_assumed); +delta_P_B=delta_P_A*(D_e_A/D_e_B); +P_B_bar=P_B-delta_P_B; +delta_P_C=delta_P_A*(D_e_A/D_e_C); +P_C_bar=delta_P_C; +r_calc=(2.5*10^-5*P_A_bar*P_B_bar)/(1+0.1*P_A_bar+2*P_C_bar)^2 +eta_calc=r_calc/r_star; +eta_approx=(eta_calc+eta_assumed)/2; + +//OUTPUT +//Console Output +mprintf('\tBased on average pressures calculated Rate and Effectiveness factor'); +mprintf('\n\t r : %0.2E (mol/s cm3)',r_calc); +mprintf('\n\t eta_calc : %0.3f ',eta_calc); +mprintf('\n The actual value of Effectiveness factor eta_actual :%0.1f',eta_approx); + +//File Output +fid= mopen('.\Chapter4-Ex4-Output.txt','w'); +mfprintf(fid,'\tBased on average pressures calculated Rate and Effectiveness factor'); +mfprintf(fid,'\n\t r : %0.2E (mol/s cm3)',r_calc); +mfprintf(fid,'\n\t eta_calc : %0.3f ',eta_calc); +mfprintf(fid,'\n The actual value of Effectiveness factor eta_actual :%0.1f',eta_approx); +mclose(fid); +//================================================END OF PROGRAM================================================================================== + + + + -- cgit