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Simulation of Methane Steam Reforming Enhanced by in Situ CO2 Sorption Using K2CO3-Promoted Hydrotalcites for H-2 Production

Title

Simulation of Methane Steam Reforming Enhanced by in Situ CO2 Sorption Using K2CO3-Promoted Hydrotalcites for H-2 ProductionExport publication in the APA format Export publication in the EXCEL format Export publication in the RIS format

Type

Article in International Scientific Journal

Date

2013

Title

Simulation of Methane Steam Reforming Enhanced by in Situ CO2 Sorption Using K2CO3-Promoted Hydrotalcites for H-2 Production

Type

Article in International Scientific Journal

Year

2013

Authors

Naruewan Chanburanasiri

(Author)

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Ana M. Ribeiro

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FEUP

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Alírio E. Rodrigues

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FEUP

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Navadol Laosiripojana

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Suttichai Assabumrungrat

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Journal

Title: Energy & FuelsImported from Authenticus Search for Journal Publications

Vol. 27 No. 8

Pages: 4457-4470

ISSN: 0887-0624

Publisher: American Chemical Society

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ISI Web of Knowledge - 16 Citations

Scopus - 19 Citations

Associated Projects

LA 20 - PROJECTO ESTRATÉGICO - LA 20 - 2013-2014

Other information

Authenticus ID: P-006-8KY

DOI: 10.1021/ef302043e

Abstract (EN): The hydrogen production performance of sorption-enhanced methane steam reforming (SESMR) was investigated in this study. Three different K2CO3-promoted hydrotalcites (HTCs), including HTC A, industrial K2CO3-promoted HTC reported in the work by Ding and Alpay (Ding, Y.; Alpay, E. Chem. Eng. Sci. 2000, SS, 3461-3474); HTC B, commercial HTC from SASOL impregnated with K2CO3 in the work by Oliveira et al. (Oliveira, E. L. G.; Grande, C. A.; Rodrigues, A. E. Sep. Purif. Technol. 2008, 62, 137-147); and HTC C, commercial K2CO3-promoted HTC from SASOL, were considered. A set of experiments was carried out to measure CO2 adsorption on HTC C, and a one-dimensional (1D) heterogeneous dynamic fixed-bed reactor mathematical model was developed to simulate the performance of SEMSR. It was observed that the CO2 adsorption characteristics were different among the HTCs, resulting in different sorption-enhanced characteristic curves. The reaction period that can be operated to produce the high-purity hydrogen (99.99%) depends upon the sorbent type and operating conditions. The increase of the steam/methane ratio leads to the increase of the pre-breakthrough period. The increase of the operating pressure results in the increase of the pre-breakthrough period when the S/C value is high enough. The temperature of 863 K is suitable for the operation at a low S/C value, while the temperature of 773 and 740 K is appropriate for higher S/C values. The system using HTC B offers the best performance with the pre-breakthrough period of 720 min at the following operating conditions: F-tot, 0.73 mmol/min; T, 773 K; P, 0.2 MPa; S/C, 11.5; and catalyst/total solid, 0.05, while the system with HTC A offers 126.67 mm, which is better than 20 min of HTC C.

Language: English

Type (Professor's evaluation): Scientific

No. of pages: 14

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