1. For a Solid Oxide Fuel Cell that uses hydrogen as fuel, calculate the maximum energy output possible at 800°C. 2. For a methanol fuel cell with total reaction equation and AG given, calculate the open circuit voltage. CH3OH + 3/2 O2 – 2H2O + CO2 AG = -698.2 kJ/mol 3. H2O is electrolyzed using an SOEC reactor. Inlet of the cathode has 30ml/min H2O, outlet of anode has 5ml/min O2, and applied current is 2A. Calculate the H2O conversion and Faradaic efficiency (both in %). (Flow rates are given for gas phase in STP)

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1. For a Solid Oxide Fuel Cell that uses hydrogen as fuel, calculate the maximum energy
output possible at 800°C.
2. For a methanol fuel cell with total reaction equation and AG given, calculate the open
circuit voltage.
CH;OH + 3/2 O2
2H2O + CO2
AG = -698.2 kJ/mol
3. H2O is electrolyzed using an SOEC reactor. Inlet of the cathode has 30ml/min H20,
outlet of anode has 5ml/min O2, and applied current is 2A. Calculate the H2O conversion
and Faradaic efficiency (both in %). (Flow rates are given for gas phase in STP)
Transcribed Image Text:1. For a Solid Oxide Fuel Cell that uses hydrogen as fuel, calculate the maximum energy output possible at 800°C. 2. For a methanol fuel cell with total reaction equation and AG given, calculate the open circuit voltage. CH;OH + 3/2 O2 2H2O + CO2 AG = -698.2 kJ/mol 3. H2O is electrolyzed using an SOEC reactor. Inlet of the cathode has 30ml/min H20, outlet of anode has 5ml/min O2, and applied current is 2A. Calculate the H2O conversion and Faradaic efficiency (both in %). (Flow rates are given for gas phase in STP)
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