Study on a novel solid oxide fuel cell/gas turbine hybrid cycle system with CO2 capture

## Abstract Decentralized power generation and cogeneration of heat and power is an attractive way toward a more rational conversion of fossil or biofuel. In small‐scale power production fuel cell–gas turbine hybrid cycles are an emerging candidate to reach higher or comparable efficiency than larg

## Abstract The application of wet biomass in energy conversion systems is challenging, since in most conventional systems the biomass has to be dried. Drying can be very energy intensive especially when the biomass has a moisture content above 50 wt.% on a wet basis. The combination of hydrotherma

## Abstract A combined power system with solid oxide fuel cell (SOFC) and gas turbine (GT) is modelled and analysed thermodynamically in this paper. A novel optimisation strategy including the design of optimal parameters is proposed and applied to the hybrid system. Different sources of irreversib

This study presents an energetic performance analysis for a combined power generation system consisting of a solid oxide fuel cell (SOFC) and an organic Rankine cycle (ORC). In order to simulate the SOFC-ORC combined system under steady-state conditions, a mathematical model is developed. The develo

We present a steady-state thermodynamic model of a hybrid solid oxide fuel cell (SOFC)-gas turbine (GT) cycle developed using a commercial process simulation software, AspenPlus TM . The hybrid cycle model incorporates a zero-dimensional macro-level SOFC model. A parametric study was carried out usi