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Optimization of solid oxide fuel cell system integrated with biomass gasification, solar-assisted carbon capture and methane production

Jie Wang, K.A. Al-attab, Yew Heng Teoh

2024Journal of Cleaner Production27 citationsDOIOpen Access PDF

Abstract

Direct power generation from biomass gasification using solid oxide fuel cell (BioG-SOFC) have shown significant advantages over its conventional power generation counterpart. However, unburnt syngas at the SOFC exhaust presents a major issue for this system. This study investigates new method using water gas shift membrane reactor-burner for syngas conversion along with direct low-cost CO 2 separation for economic carbon caption. Full factorial statistical optimization is performed to maximize the technoeconomic performance for wide range of multi-hybrid system configurations including cooling/heating heat recovery (CCHP), organic Rankine cycle (ORC) and co-electrolysis using PV surplus power for methane production. BioG–SOFC–CCHP achieved energy efficiencies of 69.6% and 76% and exergy efficiencies of 42.2% and 43.3% for cooling and heating models, respectively. The system can meet a 10 year payback time over 20-year lifespan when the electricity and methane selling prices are 0.13$/kWh and 18$/GJ. After two-stage full-factorial optimization for Different configurations from the sub-system level and overall system level under designed parameter conditions. The energy, exergy, and economic performance have been improved. The optimization elevated the exergy efficiency up to 53.6% for the BioG –SOFC– CCHP hybrid system, and the whole system payback time decreased to 9.3 years with higher NPV/kW of 14.25 k$/kW.

Topics & Concepts

SyngasSolid oxide fuel cellExergyExergy efficiencyOrganic Rankine cycleProcess engineeringWaste managementEnvironmental scienceMethaneIntegrated gasification combined cycleElectricity generationEngineeringWaste heatChemistryPower (physics)Heat exchangerMechanical engineeringElectrodeHydrogenPhysical chemistryQuantum mechanicsAnodePhysicsOrganic chemistryChemical Looping and Thermochemical ProcessesCarbon Dioxide Capture TechnologiesCatalysts for Methane Reforming
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