please solve (a) on matlab. Create a function that solves the volume necessary to achieve the 85% conversion of CO and shows the value given

Q-7 Fuel Cells Rationale. With the focus on altemative clean-energy sources, we are moving tw and an increased use of fuel cells to cperate appliances ranging from computer to automobiles. For cxample, the hydrogen/oxygen fuel cell produces clean energy as the products are water and electricity, which may lead to a hydrogen-based economy instead of a petroleum-based economy. A large component in the processing train for fuel cells is the watergas shift membrane reactor. (M. Gummala, N. Gupla. B. Olsomer, and Z. Dardas, Paper 103c, 2003, AlChE National Mecting, New Orleans, LA.) CO+H2OCO2+H2 Here, CO and water are fed to the membrane reactor containing the catalyst. Hydrogen can diffuse out the sides of the membrane, while CO2H2O, and CO2 cannot. Basod on the following information, plot the concentrations and molar flow rates of each of the reacting species down the length of the membrane reactor. Assume the following: The volumetric feed is 10dm3/min at 10atm, and the equimolar feed of CO and water vapor with C10=0.4mol/dm3. The equilitrian constant is Kj=1.44, with k=1.37dm/molkg-cat - min, and the mass transfer coefficient d2y=0.1dm/kg-cat min (Hint: Fint calculate the entenng molar llow rate of CO and then telace FindX. (a) What is the membrane reactor volume necessary to achieve 85% conversion of CO? (b) Soghia wants yoe to compare the MR with a comentional PFR. What will you tell her? (c) Fir that same membrane reactor volume, Nicolas wants to know what would be the conversion of OO if the feed rate were doubled? Q-7 Fuel Cells Rationale. With the focus on altemative clean-energy sources, we are moving tw and an increased use of fuel cells to cperate appliances ranging from computer to automobiles. For cxample, the hydrogen/oxygen fuel cell produces clean energy as the products are water and electricity, which may lead to a hydrogen-based economy instead of a petroleum-based economy. A large component in the processing train for fuel cells is the watergas shift membrane reactor. (M. Gummala, N. Gupla. B. Olsomer, and Z. Dardas, Paper 103c, 2003, AlChE National Mecting, New Orleans, LA.) CO+H2OCO2+H2 Here, CO and water are fed to the membrane reactor containing the catalyst. Hydrogen can diffuse out the sides of the membrane, while CO2H2O, and CO2 cannot. Basod on the following information, plot the concentrations and molar flow rates of each of the reacting species down the length of the membrane reactor. Assume the following: The volumetric feed is 10dm3/min at 10atm, and the equimolar feed of CO and water vapor with C10=0.4mol/dm3. The equilitrian constant is Kj=1.44, with k=1.37dm/molkg-cat - min, and the mass transfer coefficient d2y=0.1dm/kg-cat min (Hint: Fint calculate the entenng molar llow rate of CO and then telace FindX. (a) What is the membrane reactor volume necessary to achieve 85% conversion of CO? (b) Soghia wants yoe to compare the MR with a comentional PFR. What will you tell her? (c) Fir that same membrane reactor volume, Nicolas wants to know what would be the conversion of OO if the feed rate were doubled