I attach to you the question, along with a drawing of the equilibrium line and 45 line (The question is in the picture above and the drawing in the picture below)

. A liquid mixture of benzene-toluene is to be distilled in a fractionating tower at 101.3kPa pressure. The feed of 100kmol/h is liquid containing 45 mol\% benzene and 55 mol % toluene and entels at 327.6K. A distillate containing 95mol% benzene and a bottom containing 10 mol % benzene. The reflux ratio is 4:1. The average heat capacity of feed is 159kJ/KmolK and The latent heat is 32099kJ/Kmol. The boiling point of the feed is 366.7K. Using the attached equilibrium data detemine: (1) The distillate and bottoms in kmol/h. (2) The number of theoretical trays inside the column. (3) What are the positions of the feed stream. (4) The minimum number of theoretical plates at total reflux and minimum reflux ratio. * you. can use these: The value of q for cold liquid feed is q=1+HvHLCPL(TBTF) The vake of q for superheated vapor feed is q=0+HVHLCP(TDTF) Benzene-Toluene VLE, experimental Benzene-Toluene VLE, experimental . A liquid mixture of benzene-toluene is to be distilled in a fractionating tower at 101.3kPa pressure. The feed of 100kmol/h is liquid containing 45 mol\% benzene and 55 mol % toluene and entels at 327.6K. A distillate containing 95mol% benzene and a bottom containing 10 mol % benzene. The reflux ratio is 4:1. The average heat capacity of feed is 159kJ/KmolK and The latent heat is 32099kJ/Kmol. The boiling point of the feed is 366.7K. Using the attached equilibrium data detemine: (1) The distillate and bottoms in kmol/h. (2) The number of theoretical trays inside the column. (3) What are the positions of the feed stream. (4) The minimum number of theoretical plates at total reflux and minimum reflux ratio. * you. can use these: The value of q for cold liquid feed is q=1+HvHLCPL(TBTF) The vake of q for superheated vapor feed is q=0+HVHLCP(TDTF) Benzene-Toluene VLE, experimental Benzene-Toluene VLE, experimental