Investigation of direct carbon conversion at the surface of a YSZ electrolyte in a SOFC

Fuel cells offer a promising way to produce electricity efficiently. In this work, a direct carbon fuel cell (DCFC) based on a solid oxide fuel cell (SOFC) has been investigated, in which solid carbon has been used as fuel in form of a pellet. The DCFC is an interesting technology because it offers the possibility to use, as fuel source, available and abundant raw materials with only minor pretreatment. Moreover, the thermodynamic efficiency slightly exceeds 100% in a wide temperature range due to the positive near-zero value of reaction entropy change. As pure carbon dioxide is produced at the anode, it can be easily captured and sequestered. Direct carbon conversion is competed by the Boudouard reaction, which produces carbon monoxide at high operating temperatures. This reaction is endothermic and leads to a fuel loss. The present paper relates to the contribution of both reactions by a long-term run over about 12 h with a non-porous anode layer. Copyright (C) 2010, Hydrogen Energy Publications, LLC. Published by Elsevier Ltd. All rights reserved.