Question: This one is a whole question. I need answer in full steps please. Thank you. Question 3: Microbial growth takes place in a chemostat with
This one is a whole question. I need answer in full steps please. Thank you.
Question 3: Microbial growth takes place in a chemostat with glucose being the growth limiting substrate. The optimal operational temperature of this chemostat is 55C. a. Assume that the exit concentration of glucose is fixed and that steady state has been reached in this process. If Cs,in is the feed concentration of glucose, Cs is the concentration of glucose at the exit of the chemostat, Cn is the concentration of cells at the exit of the chemostat and Yn/s is the yield of glucose that gets rooted into cells, explain what information we can obtain from the following formula as well as the basic derivation steps of the formula: (Cs,in Cs) = Yn/s b. Assume that we increase the flow rate of the reactor to very high levels. Explain graphically and mathematically (using the Monod equation) how this increase could affect the productivity of the reactor. c. Assume you are operating the same bioprocess in a batch reactor and that there is a temperature control problem leading to a temperature increase of the reactor to 68C. Describe the impact of this on the reactor productivity (i.e. on the microbial growth and metabolic activity). Question 3: Microbial growth takes place in a chemostat with glucose being the growth limiting substrate. The optimal operational temperature of this chemostat is 55C. a. Assume that the exit concentration of glucose is fixed and that steady state has been reached in this process. If Cs,in is the feed concentration of glucose, Cs is the concentration of glucose at the exit of the chemostat, Cn is the concentration of cells at the exit of the chemostat and Yn/s is the yield of glucose that gets rooted into cells, explain what information we can obtain from the following formula as well as the basic derivation steps of the formula: (Cs,in Cs) = Yn/s b. Assume that we increase the flow rate of the reactor to very high levels. Explain graphically and mathematically (using the Monod equation) how this increase could affect the productivity of the reactor. c. Assume you are operating the same bioprocess in a batch reactor and that there is a temperature control problem leading to a temperature increase of the reactor to 68C. Describe the impact of this on the reactor productivity (i.e. on the microbial growth and metabolic activity)
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