Solid state synthesis of SrFeCo0.5Ox asymmetric membranes for oxygen separation

Masayuki Ikeguchi; Yasukazu Uchida; Yasushi Sekine; Eiichi Kikuchi; Masahiko Matsukata

doi:10.1252/jcej.38.502

Solid state synthesis of SrFeCo_0.5O_x asymmetric membranes for oxygen separation

Masayuki Ikeguchi, Yasukazu Uchida, Yasushi Sekine, Eiichi Kikuchi, Masahiko Matsukata^*

^*この研究の対応する著者

先進理工学部

研究成果: Article › 査読

1 被引用数 (Scopus)

抄録

SrFeCo_0.5O_x asymmetric membranes for oxygen permeation consisting of a thin dense layer and a porous support layer were prepared using a simple method. A given amount of SrFeCo_0.5O_x powder was placed in a die, and then a mixture of SrFeCo_0.5O_x powder and ethyl cellulose powder was added on top of the SrFeCo_0.5O_x powder. The layered powders were pressed into a 13-mm-diameter disk, and calcined at 1423 K. This produced a membrane with a thin dense layer and, through the elimination of the ethyl cellulose, a porous support layer. Oxygen flux through membranes thus produced increased with decreasing dense-layer thickness. The maximum oxygen flux through an asymmetric membrane at 1173 K observed was 0.23 cm³ (STP) cm^-2 min^-1, which was 2.8 times larger than that through a 0.95-mm-thick symmetric membrane. Oxygen permeation was primarily limited by bulk diffusion in the thin dense layer, although the porous support layer acted to resist oxygen permeation.

本文言語	English
ページ（範囲）	502-508
ページ数	7
ジャーナル	JOURNAL OF CHEMICAL ENGINEERING OF JAPAN
巻	38
号	7
DOI	https://doi.org/10.1252/jcej.38.502
出版ステータス	Published - 2005 11月 9

ASJC Scopus subject areas

化学 (全般)
化学工学（全般）

文献へのアクセス

10.1252/jcej.38.502

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引用スタイル

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title = "Solid state synthesis of SrFeCo0.5Ox asymmetric membranes for oxygen separation",

abstract = "SrFeCo0.5Ox asymmetric membranes for oxygen permeation consisting of a thin dense layer and a porous support layer were prepared using a simple method. A given amount of SrFeCo0.5Ox powder was placed in a die, and then a mixture of SrFeCo0.5Ox powder and ethyl cellulose powder was added on top of the SrFeCo0.5Ox powder. The layered powders were pressed into a 13-mm-diameter disk, and calcined at 1423 K. This produced a membrane with a thin dense layer and, through the elimination of the ethyl cellulose, a porous support layer. Oxygen flux through membranes thus produced increased with decreasing dense-layer thickness. The maximum oxygen flux through an asymmetric membrane at 1173 K observed was 0.23 cm3 (STP) cm-2 min-1, which was 2.8 times larger than that through a 0.95-mm-thick symmetric membrane. Oxygen permeation was primarily limited by bulk diffusion in the thin dense layer, although the porous support layer acted to resist oxygen permeation.",

keywords = "Asymetric membrane, Ceramic, Ethyl cellulose, Oxygen permeation, SrFeCoO",

author = "Masayuki Ikeguchi and Yasukazu Uchida and Yasushi Sekine and Eiichi Kikuchi and Masahiko Matsukata",

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AU - Sekine, Yasushi

AU - Kikuchi, Eiichi

AU - Matsukata, Masahiko

PY - 2005/11/9

Y1 - 2005/11/9

N2 - SrFeCo0.5Ox asymmetric membranes for oxygen permeation consisting of a thin dense layer and a porous support layer were prepared using a simple method. A given amount of SrFeCo0.5Ox powder was placed in a die, and then a mixture of SrFeCo0.5Ox powder and ethyl cellulose powder was added on top of the SrFeCo0.5Ox powder. The layered powders were pressed into a 13-mm-diameter disk, and calcined at 1423 K. This produced a membrane with a thin dense layer and, through the elimination of the ethyl cellulose, a porous support layer. Oxygen flux through membranes thus produced increased with decreasing dense-layer thickness. The maximum oxygen flux through an asymmetric membrane at 1173 K observed was 0.23 cm3 (STP) cm-2 min-1, which was 2.8 times larger than that through a 0.95-mm-thick symmetric membrane. Oxygen permeation was primarily limited by bulk diffusion in the thin dense layer, although the porous support layer acted to resist oxygen permeation.

AB - SrFeCo0.5Ox asymmetric membranes for oxygen permeation consisting of a thin dense layer and a porous support layer were prepared using a simple method. A given amount of SrFeCo0.5Ox powder was placed in a die, and then a mixture of SrFeCo0.5Ox powder and ethyl cellulose powder was added on top of the SrFeCo0.5Ox powder. The layered powders were pressed into a 13-mm-diameter disk, and calcined at 1423 K. This produced a membrane with a thin dense layer and, through the elimination of the ethyl cellulose, a porous support layer. Oxygen flux through membranes thus produced increased with decreasing dense-layer thickness. The maximum oxygen flux through an asymmetric membrane at 1173 K observed was 0.23 cm3 (STP) cm-2 min-1, which was 2.8 times larger than that through a 0.95-mm-thick symmetric membrane. Oxygen permeation was primarily limited by bulk diffusion in the thin dense layer, although the porous support layer acted to resist oxygen permeation.

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