This work presents an alternative approach to generating power using a Solid Oxide Fuel Cell (SOFC) based flare to power conversion model. The model utilizes pre-existing unit operating modules and other AspenPlus^TM features such as a mixer, cooler, reactor, and heat exchanger. Validation of this model was performed by comparing results with the published data available in open literature. Results were obtained for induced voltage and sensitivity analyses of major operating parameters, such as operating temperature, operating pressure, and utilization factor (U_f) was performed using the developed model. The results and sensitivity analysis show the overall cell electrical voltage of 818 mV obtained at 1050℃ and U_f at 0.85.This work presents an alternative approach to generating power using a Solid Oxide Fuel Cell (SOFC) based flare to power conversion model. The model utilizes pre-existing unit operating modules and other AspenPlus^TM features such as a mixer, cooler, reactor, and heat exchanger. Validation of this model was performed by comparing results with the published data available in open literature. Results were obtained for induced voltage and sensitivity analyses of major operating parameters, such as operating temperature, operating pressure, and utilization factor (U_f) was performed using the developed model. The results and sensitivity analysis show the overall cell electrical voltage of 818 mV obtained at 1050℃ and U_f at 0.85.