A dynamic membrane reactor concept for naphtha reforming, considering radial-flow patterns for both sweeping gas and reacting materials

Iranshahi, D.; Pourazadi, E.; Paymooni, K.; Rahimpour, M. R.; Jahanmiri, A.; Moghtaderi, B.

Title: A dynamic membrane reactor concept for naphtha reforming, considering radial-flow patterns for both sweeping gas and reacting materials
Creator: Iranshahi, D.; Pourazadi, E.; Paymooni, K.; Rahimpour, M. R.; Jahanmiri, A.; Moghtaderi, B.
Relation: Chemical Engineering Journal Vol. 178, p. 264-275
Publisher Link: http://dx.doi.org/10.1016/j.cej.2011.08.005
Publisher: Elsevier
Resource Type: journal article
Date: 2011
Description: Hydrogen will become an essential energy source in the near future. In this regard, refineries can be considered as alternative sources of hydrogen production. In the present study, a tubular membrane reactor with radial-flow patterns of the sweeping gas and the naphtha feed named RF-TMR is proposed as a novel configuration for radial-flow naphtha reformers. Radial-flow reactors are used in refineries as a remedy for high pressure drop through the catalytic packed-bed reactors which disturbs the reactor operation. The cross section area of the tubular membrane reactor is divided into some subsections. The walls of the gaps are coated by a Pd–Ag membrane layer to separate hydrogen from reaction side and enhance the hydrogen and aromatic production rates by 0.33 ton/day and 5.5 ton/day, respectively (compared with the AF-TR). The performance of this novel configuration is investigated and compared with the axial-flow conventional tubular reactor (AF-TR) and axial-flow tubular membrane reactor (AF-TMR). Set of coupled partial differential–algebraic equations are solved by the orthogonal collocation method. Owing to a slight pressure drop in the tube side of RF-TMR, smaller catalysts’ particles with a negligible internal mass transfer resistance can be used to increase aromatics and hydrogen yields. This novel approach has the feasibility to be applied in the radial-flow moving bed reformers which are widely installed in refineries by licensors.
Subject: radial-flow tubular membrane reactor; naphtha reforming; dynamic operation; hydrogen separation; octane improvement
Identifier: http://hdl.handle.net/1959.13/936994
Identifier: uon:12464
Identifier: ISSN:1385-8947
Language: eng
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