- International Journal of Thermodynamics
- Vol: 11 Issue: 2
- Definition of a Thermodynamic Parameter to Calculate Carbon Dioxide Emissions in a Catalytic Reformi...
Definition of a Thermodynamic Parameter to Calculate Carbon Dioxide Emissions in a Catalytic Reforming Process
Authors : Jean-françois PORTHA, Jean-noël JAUBERT, Sylvain LOURET, Marie-noëlle PONS
Pages : 81-89
View : 6 | Download : 2
Publication Date : 2008-06-01
Article Type : Other
Abstract :In the context of global warming, reduction of carbon dioxide emissions in oil and gas processes is an environmental and financial issue for process design and comparison. Environmental impact of a system can be determined by life cycle assessment (LCA). However this method presents limitations. Exergy is a thermodynamic function often chosen to complete LCA as it enables quantifying energetic efficiency of a process and takes into account the relation between the considered process and its environment. The aim of this work is to build a correlation between CO2 emissions and a thermodynamic quantity which depends on exergy. For the process under consideration, this correlation has the following asset: it enables CO2 emissions calculation without performing an LCA, when operating conditions are modified. The process studied here is naphtha catalytic reforming.Keywords : life cycle assessment, exergy analysis, carbon dioxide, oil industry, catalytic reforming