Acetylene is produced from methane in the reaction: 2CH4(g)C2H2(g)+3H2(g) An undesired side reaction is the decomposition of acetylene: C2H2(g)2C(s)+H2(g) Methane is fed to the reactor at 1500C at a rate of 10molCH4/s. The reaction is carried out isothermally at a constant pressure of 1atm. The fractional conversion of methane is 0.6 and the yield of acetylene is 0.417molC2H2/molCH4 consumed. Determine the magnitude and direction of heat transferred for this reaction. Your answer should include the following: a. Simplify the EB equation for this system. b. Set up an enthalpy table and determine your reference states. c. Used detailed specific enthalpy calculations (I should be able to clearly see how you calculated each of your Hi values) to determine the heat flow magnitude (kJ/mol ethanol feed) and direction. Acetylene is produced from methane in the reaction: 2CH4(g)C2H2(g)+3H2(g) An undesired side reaction is the decomposition of acetylene: C2H2(g)2C(s)+H2(g) Methane is fed to the reactor at 1500C at a rate of 10molCH4/s. The reaction is carried out isothermally at a constant pressure of 1atm. The fractional conversion of methane is 0.6 and the yield of acetylene is 0.417molC2H2/molCH4 consumed. Determine the magnitude and direction of heat transferred for this reaction. Your answer should include the following: a. Simplify the EB equation for this system. b. Set up an enthalpy table and determine your reference states. c. Used detailed specific enthalpy calculations (I should be able to clearly see how you calculated each of your Hi values) to determine the heat flow magnitude (kJ/mol ethanol feed) and direction