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Methanol is manufactured in a "synthests loop," in which a mixture of carboen dioxide and hydrogen is reacted to form the methonal product at high pressure: CO2+3H2CH3OH+H2O Figure 1. Methanol Synthesis Cycle The synthesis gas fed to the process, illustrated above. is largely composed of hydrogen and carbon dioxide, but with traces of inert gases as in Table 1. Additional specifications for the process are: - Pressure drops is all units can be neglected - Converter feed temperature is set to 400C - The converter can be approximated as a reactor. operating adiabatically. - The reactor conversion depends of the operating pressure, according to Table 2. - The reactor efflucat is cooled to a temperature of Ts using a cooler, and fed to a flash unit, modeled by a separator. Table 2. Conversion as a function of ntessure PS=17.5MPA The purge flow is 600kg/h. Considering the data in the row with your number in Table 3 . simulate the system in Chemcad, report the characteristics of the purge stream, product stream and the recycle stream, and the status of all used process units. Methanol is manufactured in a "synthests loop," in which a mixture of carboen dioxide and hydrogen is reacted to form the methonal product at high pressure: CO2+3H2CH3OH+H2O Figure 1. Methanol Synthesis Cycle The synthesis gas fed to the process, illustrated above. is largely composed of hydrogen and carbon dioxide, but with traces of inert gases as in Table 1. Additional specifications for the process are: - Pressure drops is all units can be neglected - Converter feed temperature is set to 400C - The converter can be approximated as a reactor. operating adiabatically. - The reactor conversion depends of the operating pressure, according to Table 2. - The reactor efflucat is cooled to a temperature of Ts using a cooler, and fed to a flash unit, modeled by a separator. Table 2. Conversion as a function of ntessure PS=17.5MPA The purge flow is 600kg/h. Considering the data in the row with your number in Table 3 . simulate the system in Chemcad, report the characteristics of the purge stream, product stream and the recycle stream, and the status of all used process units