Help with b-e would be appreciated - I'd like to check my answers before turning in. TY!
Genetically engineered streams of Essen eruvim colt have become essential tools in the production of recombinant human peptides and proteins. One of the first sub- the synthesized using engineered E coli was recombinant human insulin or humbling, for the treatment of people suffering from type I diabetes mellitus. A simple fiction scheme for the production of humbling is described below. Bacteria consume glucose under aerobe conditions, and produce humbling and biomass C_6 H_12 O_6 (glucose) + O_2 + NH_3 (ammonia) rightarrow C_2.3 H_2.8 O_1.8 N (humulene) + CH_1.9 O_0.3 N_0.3 (biomass) + CO_2 + H_2O A typical humbling production scheme consists of k. coli cultured in a large bioreactor. A continuous stream of media is fed into the reactor. A continuous products and unused reactants is removed from the bioreactor for further processing, including purification of the humbling for therapeutic use. Media containing glucose and ammonia is fed into the reactor at a rate of 100 L/hr; the concentrations of glucose and ammonia in that stream are 150 mM and 50 mM, respectively. Pure oxygen gas is sparked (i.e., bubbled) into the reactor at a rate of 100 mL/min. The exit flow rate of liquid containing biomass, product, and excess reactant is 100 I7hr. Assume that there is no it coagulation in the system. Assume that the reaction goes to completion. Write element balances for C, H, O, and N. Write two additional balance equations given the following information: The ratio of humbling to biomass production is 1:5. Solve for the stoichiometric coefficients to balance the equation. Determine the inlet molar flow rates of glucose, oxygen, and ammonia in mol/hr. In this bioreactor, temperature is V10 K and pressure is 1 atm. Determine the limiting reactant, the reaction rate tR), and the fractional conversion of glucose, Calculate the molar flow rates of all constituents leaving the bioreactor. The it sired output of the bioreactor is 1 kg/day of humbling. Can this output be achieved by increasing the oxygen flow rate.' Justify. Acetic acid (vinegar) can be produced via the reaction: