One of the best ways to reduce or eliminate hazardous waste is through source reduction. Generally, this means using different raw materials or redesigning the production of excess to eliminate the generation of hazardous byproduct. As an example, consider the following countercurrent extraction process to recover xylene from a stream that contains 10% xylene and 90% solids by weight. S' Clear liquid (no solids) F1 0.9 Solids 100% Benzene Product stream (no solds) 1000 kghr Waste stream 0.9 Solids Unit 1 Unit 2 - 0.9 Solds 0.1 Xylene Foed 2000 kg/hr The stream from which xylene is to be extracted enter Unit 2 at a flow rate of 2000 kg/h. To provide a solvent for the extraction, pure benzene is fed to Unit 1 at a flowrate of 1000 kg/h. The mass fractions of the xylene in the solids stream (F) and clear liquid stream (S) have the following relations: 10×F ylene = Xxylene and 10x Xxylene = Xxylene a) Determine the benzene and xylene concentrations in all of the streams. b) What is the percent recovery of the xylene entering the process at Unit 2?

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One of the best ways to reduce or eliminate hazardous waste is through source reduction. Generally, this means using different raw materials or redesigning the production of excess to eliminate the generation of hazardous byproduct. As an example, consider the following countercurrent extraction process to recover xylene from a stream that contains 10% xylene and 90% solids by weight. 100% Benzene 1000 kg/hr Waste stream 0.9 Solids S' Clear liquid (no solids) Product stream (no solids) Unit 1 Unit 2 F1 FO 0.9 Solids 0.1 Xylene Foed 2000 kg/hr 0.9 Solids The stream from which xylene is to be extracted enter Unit 2 at a flow rate of 2000 kg/h. To provide a solvent for the extraction, pure benzene is fed to Unit 1 at a flowrate of 1000 kg/h. The mass fractions of the xylene in the solids stream (F) and clear liquid stream (S) have the following relations: est, xylene and 10xylene = Xxylene xylene a) Determine the benzene and xylene concentrations in all of the streams. b) What is the percent recovery of the xylene entering the process at Unit 2?