Title of article
Suppression of ethylene-induced carbon deposition in diesel autothermal reforming
Author/Authors
Yoon، نويسنده , , Sangho and Kang، نويسنده , , Inyong and Bae، نويسنده , , Joongmyeon، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2009
Pages
8
From page
1844
To page
1851
Abstract
Diesel has high-hydrogen density and well-developed infrastructure, which are beneficial properties for fuel cell commercialization. However, diesel reforming poses several technical difficulties, including carbon deposition, sulfur poisoning, and fuel delivery. Specifically, carbon deposition can cause catastrophic failures in diesel reformers. In diesel reformate gas, the concentration of ethylene, a carbon precursor, is higher than other shorter hydrocarbons (C2–C4). In this study, we examine the cause of ethylene formation in diesel reforming. Ethylene formation can be closely related to paraffinsʹ decomposition from homogeneous reaction. A portion of the catalyst active sites can become occupied with aromatic compounds, degrading the activity of the catalyst. Thus, a portion of the paraffins is decomposed via non-catalytic, homogeneous reactions, accounting for much of the observed ethylene formation. In this study, reforming conditions and fuel delivery method are investigated with respect to ethylene formation. By using a diesel ultrasonic injector, reactant mixing was enhanced, resulting in suppression of ethylene formation. This subsequently inhibited the ethylene-induced carbon deposition and improved the long-term performance of diesel ATR (autothermal reforming).
Keywords
diesel , Hydrogen , Carbon deposition , Ethylene (C2H4) , Autothermal reforming (ATR) , Ultrasonic injector
Journal title
International Journal of Hydrogen Energy
Serial Year
2009
Journal title
International Journal of Hydrogen Energy
Record number
1657178
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