2. The figure below shows a process for the production of perchloric acid (HCIOA) where barium perchlorate and sulfuric acid are allowed to react according to the reaction: Ba (CIO4)2 + H2SO4 BaSO4 + 2 HCIO4 The turnover with respect to sulfuric acid over the reactor is 96% and the ratio m moles of sulfuric acid fed to the reactor via stream 1 and number of moles of barium perchlorate in the combined inlet to the reactor, stream 7 is 1,2 moles of barium perchlorate per mole of sulfuric acid. If the recycle stream back to the reactor only contains Barium Perchlorate, calculate the following: (a) The composition (in mol%) of barium perchlorate and perchloric acid in product stream (stream 4). b) Calculate the amount of Barium perchlorate (kmol) that must be added to the process in stream 6 per kmol added sulfuric acid in stream 1. c) Explain why the recirculation stream is not provided with a drain (purge). 2. The figure below shows a process for the production of perchloric acid (HCIO) where barium perchlorate and sulfuric acid are allowed to react according to the reaction: Ba (CIO4)2 + H2SO4 BaSO4 + 2 HCIOA The turnover with respect to sulfuric acid over the reactor is 96% and the ratio m moles of sulfuric acid fed to the reactor via stream 1 and number of moles of barium perchlorate in the combined inlet to the reactor, stream 7 is 1,2 moles of barium perchlorate per mole of sulfuric acid. If the recycle stream back to the reactor only contains Barium Perchlorate, calculate the following: (a) The composition (in mol%) of barium perchlorate and perchloric acid in product stream (stream 4). b) Calculate the amount of Barium perchlorate (kmol) that must be added to the process in stream 6 per kmol added sulfuric acid in stream 1. c) Explain why the recirculation stream is not provided with a drain (purge). 1 H2SO4 2 Reaktor 3 H2SO4 Separation BaSO4 HCIO 6 Ba(CIO)2 5 Ba(CIO)2 1 H2SO4 2 3 H2SO. Reaktor Separation 7 BaSO, HCIO 6 Ba(CIO)2 5 Ba(CIO)2