| description abstract | The design and balanceofplant of a novel anaerobic digestion (AD) biogas solid oxide fuel cell (SOFC) plant is assessed. Biogas from wastewater treatment plant is the fuel feeding the SOFC system. Simultaneous multigeneration of electricity, heat and a fuel (algae, in our case) via exhaust carbon recycling is accomplished in the proposed plant configuration. CO2 capture from the SOFC anode exhaust is carried out through an oxycombustion reactor that completes the oxidation of spent fuel still available downstream of the fuel cell. The captured CO2, after water condensation, is thus fed to an array of photobioreactors where C biofixation in algae is achieved. The design of the main plant sections, including the gas cleaning unit, fuel processor, SOFC “hotbox,†oxycombustor, CO2/H2O condensation unit and photobioreactors, is provided. A system analysis of a fullscale version of the biogas SOFC power plant with optimized heat integration is finally analyzed to fully understand the potential of the proposed integrated energy system. An overall electrical efficiency exceeding 52% (LHV basis) was calculated. Sensitivity analyses have been carried out in order to study the influence of fuel utilization, internal reforming, biogas composition and steamtocarbon ratio on both SOFC and overall plant performance. | |
