• Title/Summary/Keyword: pebax

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Gas Permeation Properties of Carbon Dioxide and Methane for $PEBAX^{TM}$/TEOS Hybrid Membranes ($PEBAX^{TM}$/TEOS 하이브리드 분리막을 통한 이산화탄소와 메탄의 기체투과특성)

  • Kim, Hyunjoon
    • Korean Chemical Engineering Research
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    • v.49 no.4
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    • pp.460-464
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    • 2011
  • Poly(ether-block-amide)(PEBA, $PEBAX^{TM}$) resin is a thermoplastic elastomer combining linear chains of hard-rigid polyamide block interspaced soft-flexible polyether block. It was believed that the hard polyamide block provides the mechanical strength and permeation selectivity, whereas gas transport occurs primarily through the soft polyether block. The objective of this work was to investigate the gas permeation properties of carbon dioxide and methane for $PEBAX^{TM}$-1657 membrane and compare with those obtained for other grade of $PEBAX^{TM}$, $PEBAX^{TM}$-2533. And the organic/inorganic hybrid membranes were prepared using $PEBAX^{TM}$ and TEOS(tetraethoxysilane) by sol-gel process, and gas permeation properties were studied. $PEBAX^{TM}$-2533 membrane exhibited higher gas permeability coefficients than $PEBAX^{TM}$-1657 membrane. This was explained by the increase of chain mobility. The permeability coefficients for $PEBAX^{TM}$/TEOS hybrid membranes were higher than pure $PEBAX^{TM}$ membranes. This results were explained by the reduction of crystallinity of polyamide block by the introduction of TEOS. Ideal separation factor of hybrid membranes does not change much. This might be due to the increase of solubility selectivity.

Gas Permeation Characteristics of CO2 and N2 through PEBAX/ZIF-8 and PEBAX/amineZIF-8 Composite Membranes (PEBAX/ZIF-8과 PEBAX/amineZIF-8 복합막을 통한 CO2와 N2의 기체투과 특성)

  • Hong, Se Ryeong;O, So Young;Lee, Hyun Kyung
    • Membrane Journal
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    • v.30 no.6
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    • pp.409-419
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    • 2020
  • In this study, PEBAX/ZIF-8 and PEBAX/amineZIF-8 composite membranes were prepared according to the content of zeolitic imidazolate framework-8 (ZIF-8), amine-modified ZIF-8 (amineZIF-8), the gas permeability properties of N2 and CO2 were investigated for each composite membrane. In the case of the PEBAX/ZIF-8 composite membrane, the permeability of N2 and CO2 increased as the ZIF-8 content increased, and in the case of the PEBAX/amineZIF-8 composite membrane, the permeability of N2 and CO2 increased up to 20 wt% of amineZIF-8, but decreased at the higher content. CO2/N2 ideal selectivity increased up to 20 wt% of ZIF-8 and amineZIF-8 contents in both PEBAX/ZIF-8 and PEBAX/ amineZIF-8 composite membranes, and then decreased thereafter, in the case of PEBAX/amineZIF-8 composite membrane was less decreased. The reason for the highest CO2/N2 ideal selectivity at 20 wt% of amineZIF-8 is that amine modification improved the compatibility between PEBAX and amineZIF-8, and thus amineZIF-8 was evenly dispersed in PEBAX, resulting in the greatest effect of the porous ZIF-8 with a 3.4 Å pore size and the amine with affinity for CO2.

Effect of Zeolitic Imidazolate Framework-7 in Pebax Mixed Matrix Membrane for CO2/N2 Separation (CO2/N2 분리를 위한 Pebax 혼합막에서 Zeolitic Imidazolate Framework-7의 영향)

  • Yoon, Soong Seok;Hong, Se Ryeong
    • Applied Chemistry for Engineering
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    • v.32 no.4
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    • pp.393-402
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    • 2021
  • In this study, a mixed matrix membrane was prepared by putting the zeolitic imidazolate framework-7 (ZIF-7) synthesized in Pebax-1657 and Pebax-2533, which are representative poly(ether-b-amide), and the permeability properties of single gas such as N2 and CO2 were investigated. From the gas permeation results, in the case of N2, both the Pebax-1657/ZIF-7 and Pebax-2533/ZIF-7 mixed matrix membranes showed a similar phenomenon in which the permeability decreased with the incorporation of ZIF-7. For CO2 permeability, the tendency was slightly different depending on the type of polymer. In the Pebax-1657/ZIF-7 mixed membrane, the CO2 permeability decreased in the range of 0~3 wt% of ZIF-7, and increased at higher contents. The CO2 permeability of the Pebax-2533/ZIF-7 mixed matrix membrane gradually decreased without increasing the permeability in the range of 0~5 wt% of ZIF-7. Regarding CO2/N2 selectivity, both mixed films showed a tendency to increase with increasing the ZIF-7 content. In particular, Pebax-2533/ZIF-7 5 wt% showed the best gas permeation performance compared to other mixed matrix membrane. This is thought to be because ZIF-7 shows better compatibility with Pebax-2533 than that of Pebax-1657 and also better CO2 selective property.

Gas Permeation Characteristics of PEBAX-PEI Composite Membranes Containing ZIF-8@GO (ZIF-8@GO를 함유한 PEBAX-PEI 복합막의 기체투과 특성)

  • Yi, Eun Sun;Hong, Se Ryeong
    • Applied Chemistry for Engineering
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    • v.32 no.4
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    • pp.431-441
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    • 2021
  • In this study, PEBAX/GO-PEI and PEBAX/ZIF-8@GO-PEI composite membranes were prepared by varying the contents of GO and ZIF-8@GO in PEBAX, and also the gas permeation characteristics of N2 and CO2 was studied. Overall, the N2 and CO2 permeability of the PEBAX/GO-PEI composite membrane decreased as the GO content increased, and the CO2/N2 selectivity slightly increased. In the case of PEBAX/ZIF-8@GO-PEI composite membrane, the permeability of N2 decreased, but CO2 increased to 1 wt% of ZIF-8@GO and then decreased in the content thereafter. The CO2/N2 selectivity at 1 wt% of ZIF-8@GO was 92.3, showing the highest selectivity. This is thought to be due to the greatest effect of GO and ZIF-8 with good affinity for CO2 alongside the effect of porosity ZIF-8 while improving compatibility with PEBAX and dispersing evenly. In addition, PEBAX/ZIF-8@GO-PEI composite membrane improved both CO2 permeability and CO2/N2 selectivity than those of the PEBAX-PEI and PEBAX/GO-PEI membranes, except for ZIF-8@GO 5 wt%. The result was close to the Robeson upper bound.

Gas Permeation Characteristics by Chitosan/Pebax Composite Membranes (Chitosan/Pebax 복합 막에 의한 기체투과 특성)

  • Kim, Sun Hee;Hong, Se Ryeong
    • Membrane Journal
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    • v.27 no.4
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    • pp.319-327
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    • 2017
  • Chitosan/Pebax composite membranes were prepared with 1 : 1, 1 : 2, 1 : 10, 1 : 30 mass ratio of pebax and chitosan. Gas permeation test were carried out under pressure $6kgf/cm^2$, 35, $45^{\circ}C$ and $65^{\circ}C$ at different temperatures. The gas permeability and selectivity ($CO_2/N_2$) of $N_2$ and $CO_2$ for the Chitosan/Pebax composite membranes were investigated. As the amount of Pebax added to chitosan was increased the gas permeability of both $N_2$ and $CO_2$ increased. The selectivity ($CO_2/N_2$) was 6.9~44.3 in the Chitosan/Pebax composite membranes. With the increase of contents of Pebax and the decrease of temperature, the selectivity ($CO_2/N_2$) increased.

Study on the Removal of Water Vapor Using PEI/PEBAX Composite Hollow Fiber Membrane (PEI/PEBAX 복합 중공사 막을 이용한 수분 제거에 관한 연구)

  • Park, Chun-Dong;Hyung, Chan-Heui;Kim, Kee-Hong;Choi, Won-Kil;Park, Yeong-Seong;Lee, Hyung-Keun
    • Membrane Journal
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    • v.23 no.2
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    • pp.119-128
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    • 2013
  • In this research, PEI/PEBAX composite hollow fiber membrane was used for the removal of water vapor from gases. PEI (Polyetherimide) substrate membrane was spinned by dry-wet phase inversion method and coated with PEBAX (Polyether block amides) 3533 and PEBAX1657. Fabricated fibers typically had an asymmetric structure of a dense top layer supported by a sponge-like substructure through scanning electron microscopy (SEM). $H_2O/N_2$ mixture gas was used to compare the performance of separation according to temperature, pressure and water activity. The results of PEBAX3533 and PEBAX1657 composite membranes respectively showed $H_2O/N_2$ selectivity of 61.7~118.5 and 85.3~175.4 according to operating conditions. PEBAX3533 composite hollow fiber membranes module showed the water vapor removal of 90%.

Separation of $C_3H_6/C_3H_8$ by PEBAX-NaY Zeolite Composite Membranes (PEBAX-NaY Zeolite 복합막에 의한 $C_3H_6/C_3H_8$ 분리에 관한 연구)

  • Kim, Seul-Gi;Lee, Hyun-Kyung
    • Membrane Journal
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    • v.25 no.1
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    • pp.42-47
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    • 2015
  • In this study, PEBAX[poly(ether-block-amide)]-NaY zeolite composite membranes were prepared, and those prepared membranes were studied on permeability of $C_3H_6$ and $C_3H_8$, and selectivity ($C_3H_6/C_3H_8$). NaY zeolite particles in PEBAX-NaY zeolite composite membranes was dispersed as aggregated particles with the size $0.5{\sim}2.5{\mu}m$ by SEM observation. TGA measurement showed the weight loss change resulted from the amount of NaY zeolite when NaY zeolite was added into PEBAX. By gas permeation experiment, the permeabilities of $C_3H_6$ and $C_3H_8$ were decreased by the more addition NaY zeolite in PEBAX. Overall, $C_3H_6$ was having higher permeability than $C_3H_8$. The selectivity $C_3H_6/C_3H_8$ was decreased by the more NaY zeolite in PEBAX.

Gas Permeation Characteristics by Pebax/ZIF-9 Mixed Matrix Membrane (Pebax/ZIF-9 혼합막에 의한 기체투과 특성)

  • Yoon, Soong Seok;Hong, Se Ryeong
    • Membrane Journal
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    • v.32 no.5
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    • pp.325-335
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    • 2022
  • In this study, zeolitic imidazolate framework-9 (ZIF-9) was synthesized and Pebax/ZIF-9 mixed membranes were prepared by varying the content in poly(ether-b-amide)-1657 (Pebax-1657), and then a single gas (N2, CO2) was permeated to investigate the gas permeation characteristics of the mixed membrane. As the ZIF-9 content incorporated into the pure Pebax membrane increased, the N2 permeability gradually decreased, and the CO2 permeability increased up to the Pebax/ZIF-9 3 wt% mixed membrane, and then decreased at the content thereafter. And among the mixed membranes, the Pebax/ZIF-9 3 wt% mixed membrane showed the highest selectivity of 69.3 by selectively accepting CO2 as the gate-opening phenomenon occurred for the polar gas, CO2. In addition, both the CO2 permeability and the CO2/N2 selectivity increased, resulting in the closest Robeson upper-bound.

Gas Permeation Properties of CO2 and CH4 for PEBAX®/Fumed Silica Hybrid Membranes (PEBAX®/fumed silica 하이브리드 분리막을 통한 CO2와 CH4의 기체투과특성)

  • Kim, Hyunjoon
    • Membrane Journal
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    • v.32 no.1
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    • pp.74-82
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    • 2022
  • The objective of this work was to investigate the gas permeation properties of CO2 and CH4 for PEBAX®/TS-530 hybrid membranes and compare with pure PEBAX®-1657 membrane. With FTIR and XRD it was possible to confirm that TS-530 was dispersed well in PEBAX® matrix. Compared with pure PEBAX® membrane, ideal separation factor for PEBAX®/TS-530 (10 wt%) hybrid membrane was enhanced a little. As the amount of TS-530 was increased, the gas permeability coefficients of both CO2 and CH4 were increased, while the ideal separation factor was decreased. This results were explained by the reduction of crystallinity of polyamide block and interchain distance caused by introduction of inorganic nanoparticles. And fumed silica might tend to agglomerate, resulting in forming nonselective nanogaps in the hybrid materials, thus the diffusivity would be enhanced at the expense of diffusivity selectivity.

Transport Properties of CO2 and CH4 using Poly(ether-block-amide)/GPTMS Hybird Membranes (Poly(ether-block-amide)/GPTMS 하이브리드 분리막을 이용한 이산화탄소와 메탄의 투과특성)

  • Lee, Keun Chul;Kim, Hyunjoon
    • Korean Chemical Engineering Research
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    • v.54 no.5
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    • pp.653-658
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    • 2016
  • Poly(ether-block-amide)(PEBAX$_{(R)}$) resin is a thermoplastic elastomer combining linear chains of hard-rigid polyamide block interspaced soft-flexible polyether block. It was believed that the hard polyamide block provides the mechanical strength and permselectivity, whereas gas transport occurs primarily through the soft polyether block. The objective of this work was to investigate the gas permeation properties of carbon dioxide and methane for PEBAX$^{(R)}$-1657 membrane, and compare with those obtained for other grade of pure PEBAX$^{(R)}$, PEBAX$^{(R)}$-2533 and PEBAX$^{(R)}$ based hybrid membranes. The hybrid membranes based PEBAX$^{(R)}$ were obtained by a sol-gel process using GPTMS ((3-glycidoxypropyl) trimethoxysilane) as the only inorganic precursor. Molecular structure and morphology of membrane were analyzed by $^{29}Si$-NMR, DSC and SEM. PEBAX$_{(R)}$-2533 membrane exhibited higher gas permeability coefficients than PEBAX$^{(R)}$-1657 membrane. This was explained by the increase of chain mobility. In contrast, ideal separation factor of $CO_2/CH_4$ for PEBAX$^{(R)}$-1657 membrane was higher than PEBAX$^{(R)}$-2533 membrane. It was explained by the decrease of diffusion selectivity caused by increase of chain mobility. For PEBAX$^{(R)}$/GPTMS hybrid membrane, gas permeability coefficients were decreased with reaction time. Gas permeability coefficient of $CH_4$ was more significantly decreased than $CO_2$. It can be explained by the reduction of chain mobility caused by the sol-gel process, and strong affinity of PEO segment with $CO_2$. Comparing with pure PEBAX$^{(R)}$-1657 membrane, ideal separation factor of $CO_2/CH_4$ for PEBAX$^{(R)}$/GPTMS hybrid membrane has decreased to 4.5%, and gas permeability coefficient of $CO_2$ has increased 3.5 times.