Please use this identifier to cite or link to this item: http://hdl.handle.net/10553/44185
Title: Exergoenvironmental analysis of a steam methane reforming process for hydrogen production
Authors: Boyano, A.
Blanco-Marigorta, A. M. 
Morosuk, T.
Tsatsaronis, G.
UNESCO Clasification: 3303 ingeniería y tecnología químicas
Keywords: Hydrogen production
Steam methane reforming process
Exergoenvironmental analysisExergy analysis
Life cycle assessment
Eco-indicator 99
Issue Date: 2011
Publisher: 0360-5442
Journal: Energy 
Conference: 5th Dubrovnik Conference on Sustainable Development of Energy, Water and Environment Systems 
Abstract: Steam methane reforming (SMR) is one of the most promising processes for hydrogen production. Several studies have demonstrated its advantages from the economic viewpoint. Nowadays process development is based on technical and economical aspects; however, in the near future, the environmental impact will play a significant role in the design of such processes. In this paper, an SMR process is studied from the viewpoint of overall environmental impact, using an exergoenvironmental analysis. This analysis presents the combination of exergy analysis and life cycle assessment. Components where chemical reactions occur are the most important plant components from the exergoenvironmental point of view, because, in general, there is a high environmental impact associated with these components. This is mainly caused by the exergy destruction within the components, and this in turn is mainly due to the chemical reactions. The obtained results show that the largest potential for reducing the overall environmental impact is associated with the combustion reactor, the steam reformer, the hydrogen separation unit and the major heat exchangers. The environmental impact in these components can mainly be reduced by improving their exergetic efficiency. A sensitivity analysis for some important exergoenvironmental variables is also presented in the paper.
URI: http://hdl.handle.net/10553/44185
ISSN: 0360-5442
DOI: 10.1016/j.energy.2010.05.020
Source: Energy[ISSN 0360-5442],v. 36, p. 2202-2214
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