An evaporation-crystallization process is used to obtain solid potassium sulfate from an aqueous solution of this salt. The fresh feed to the process contains 19.6% by mass K2SO4. The filter cake consists of solid K2SO4 crystals and a 40.0% by mass K2SO4 solution, in a ratio of 10 kg crystals/kg solution. The filtrate, also a 40.0% solution, is recycled to join the fresh feed. Of the water fed to the evaporator, 45.0% is evaporated. The evaporator has a maximum capacity of 175 kg of water evaporated per second.

(a) Consider that the process operates at its maximum capacity. Draw and label the flow diagram and perform the degree of freedom analysis for the overall system, the fresh feed-recycle mixing point, the evaporator, and the crystallizer. Then, write in an efficient order (minimizing simultaneous equations) the equations you would use to solve for the unknowns. In each equation, indicate the variable to be determined, but do not perform the calculations yet.

(b) Calculate the maximum production rate of solid K2SO4, the flow rate at which the fresh feed must be supplied to ensure this production rate, and the kg recycle/kg fresh feed ratio. Answer: 221 kg/s; 41.6 kg/s; 1.60

(c) Calculate the composition and flow rate of the stream entering the crystallizer if the process is scaled to 75% of its maximum capacity. Answer: 299 kg (46.3% K2SO4, 53.4% H2O

Please answer the entire question!