Pervaporation separation of benzene/cyclohexane through silica hybrid membranes prepared by using a counter-diffusion CVD method

Emi Matsuyama; Sayuka Kimura; Keita Monma; Keisuke Utsumi; Ryo Miyake; Takashi Kawamoto; Ryosuke Kuronuma; Mikihiro Nomura

doi:10.1252/kakoronbunshu.39.98

Pervaporation separation of benzene/cyclohexane through silica hybrid membranes prepared by using a counter-diffusion CVD method

Emi Matsuyama, Sayuka Kimura, Keita Monma, Keisuke Utsumi, Ryo Miyake, Takashi Kawamoto, Ryosuke Kuronuma, Mikihiro Nomura

Research output: Contribution to journal › Article › peer-review

6 Citations (Scopus)

Abstract

A benzene-permselective silica hybrid membrane was successfully prepared by counter-diffusion CVD using PrTMOS (propyltrimethoxysilane) and O₃ as reactants. Deposition temperatures and O₃ flow rates were important parameters. The H₂/N₂ permeance ratio was 250 through a membrane deposited at 240°C. The pore size of the membrane was estimated at about 0.3 nm from the kinetic diameter of H₂ (0.29 nm) and N₂ (0.36 nm). On the other hand, the N₂/ SF₆ permeance ratio was 529 through a membrane deposited at 270°C. From the kinetic diameter of SF₆ (0.55 nm), the pore size of membranes was estimated as 0.4-0.5 nm. Thus, the pore size of the membranes increased with increasing the deposition temperature up to 270°C. SF₆ permeances were proportional to total fluxes of pervaporation (PV) tests. This can be explained by the similar kinetic diameters of benzene (0.58 nm) and SF₆. The maximum benzene selectivity over cyclohexane was 113 with the total flux of 2.2×10^-4 kg m^-2 h^-1 through the membrane deposited at 320°C at an O₃ flow rate of 0.4 L min^-1.

Original language	English
Pages (from-to)	98-103
Number of pages	6
Journal	Kagaku Kogaku Ronbunshu
Volume	39
Issue number	2
DOIs	https://doi.org/10.1252/kakoronbunshu.39.98
Publication status	Published - 2013 Apr 1

Keywords

Benzene/cyclohexane pervaporation
Counter-diffusion CVD
Pore size control

ASJC Scopus subject areas

Chemistry(all)
Chemical Engineering(all)

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10.1252/kakoronbunshu.39.98

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title = "Pervaporation separation of benzene/cyclohexane through silica hybrid membranes prepared by using a counter-diffusion CVD method",

abstract = "A benzene-permselective silica hybrid membrane was successfully prepared by counter-diffusion CVD using PrTMOS (propyltrimethoxysilane) and O3 as reactants. Deposition temperatures and O3 flow rates were important parameters. The H2/N2 permeance ratio was 250 through a membrane deposited at 240°C. The pore size of the membrane was estimated at about 0.3 nm from the kinetic diameter of H2 (0.29 nm) and N2 (0.36 nm). On the other hand, the N2/ SF6 permeance ratio was 529 through a membrane deposited at 270°C. From the kinetic diameter of SF6 (0.55 nm), the pore size of membranes was estimated as 0.4-0.5 nm. Thus, the pore size of the membranes increased with increasing the deposition temperature up to 270°C. SF6 permeances were proportional to total fluxes of pervaporation (PV) tests. This can be explained by the similar kinetic diameters of benzene (0.58 nm) and SF6. The maximum benzene selectivity over cyclohexane was 113 with the total flux of 2.2×10-4 kg m-2 h-1 through the membrane deposited at 320°C at an O3 flow rate of 0.4 L min-1.",

keywords = "Benzene/cyclohexane pervaporation, Counter-diffusion CVD, Pore size control",

author = "Emi Matsuyama and Sayuka Kimura and Keita Monma and Keisuke Utsumi and Ryo Miyake and Takashi Kawamoto and Ryosuke Kuronuma and Mikihiro Nomura",

year = "2013",

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doi = "10.1252/kakoronbunshu.39.98",

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T1 - Pervaporation separation of benzene/cyclohexane through silica hybrid membranes prepared by using a counter-diffusion CVD method

AU - Matsuyama, Emi

AU - Kimura, Sayuka

AU - Monma, Keita

AU - Utsumi, Keisuke

AU - Miyake, Ryo

AU - Kawamoto, Takashi

AU - Kuronuma, Ryosuke

AU - Nomura, Mikihiro

PY - 2013/4/1

Y1 - 2013/4/1

N2 - A benzene-permselective silica hybrid membrane was successfully prepared by counter-diffusion CVD using PrTMOS (propyltrimethoxysilane) and O3 as reactants. Deposition temperatures and O3 flow rates were important parameters. The H2/N2 permeance ratio was 250 through a membrane deposited at 240°C. The pore size of the membrane was estimated at about 0.3 nm from the kinetic diameter of H2 (0.29 nm) and N2 (0.36 nm). On the other hand, the N2/ SF6 permeance ratio was 529 through a membrane deposited at 270°C. From the kinetic diameter of SF6 (0.55 nm), the pore size of membranes was estimated as 0.4-0.5 nm. Thus, the pore size of the membranes increased with increasing the deposition temperature up to 270°C. SF6 permeances were proportional to total fluxes of pervaporation (PV) tests. This can be explained by the similar kinetic diameters of benzene (0.58 nm) and SF6. The maximum benzene selectivity over cyclohexane was 113 with the total flux of 2.2×10-4 kg m-2 h-1 through the membrane deposited at 320°C at an O3 flow rate of 0.4 L min-1.

AB - A benzene-permselective silica hybrid membrane was successfully prepared by counter-diffusion CVD using PrTMOS (propyltrimethoxysilane) and O3 as reactants. Deposition temperatures and O3 flow rates were important parameters. The H2/N2 permeance ratio was 250 through a membrane deposited at 240°C. The pore size of the membrane was estimated at about 0.3 nm from the kinetic diameter of H2 (0.29 nm) and N2 (0.36 nm). On the other hand, the N2/ SF6 permeance ratio was 529 through a membrane deposited at 270°C. From the kinetic diameter of SF6 (0.55 nm), the pore size of membranes was estimated as 0.4-0.5 nm. Thus, the pore size of the membranes increased with increasing the deposition temperature up to 270°C. SF6 permeances were proportional to total fluxes of pervaporation (PV) tests. This can be explained by the similar kinetic diameters of benzene (0.58 nm) and SF6. The maximum benzene selectivity over cyclohexane was 113 with the total flux of 2.2×10-4 kg m-2 h-1 through the membrane deposited at 320°C at an O3 flow rate of 0.4 L min-1.

KW - Benzene/cyclohexane pervaporation

KW - Counter-diffusion CVD

KW - Pore size control

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Pervaporation separation of benzene/cyclohexane through silica hybrid membranes prepared by using a counter-diffusion CVD method

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