• Title/Summary/Keyword: 바이폴라막

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Research Trends in Bipolar Membrane for Water Dissociation Catalysts and Energy Technology Applications (바이폴라막의 물 분해 촉매 및 에너지 기술 응용의 연구 동향)

  • Do-Hyeong Kim;Sang Yong Nam
    • Membrane Journal
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    • v.34 no.1
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    • pp.10-19
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    • 2024
  • The bipolar membrane is an ion exchange membrane consisting of a cation exchange layer, an anion exchange layer, and an interface layer, and is a membrane that generates protons and hydroxide ions based on water dissociation characteristics. Using these properties, research is being conducted in various application fields such as the chemical industry, food processing, environmental protection, and energy conversion and storage. This paper investigated the concept of bipolar membrane, water dissociation mechanism, and water dissociation catalyst to provide a comprehensive understanding of bipolar membrane technology, were investigated. Lastly, we also investigated the bipolar membrane process that has been recently applied to energy technology.

Preparation of Heterogeneous Bipolar Membranes Using Poly (phenylene oxide, PPO) Polyelectrolyte and Their Water Splitting Properties (Poly (phenylene oxide, PPO) 고분자 전해질을 이용한 불균질 바이폴라막 제조 및 물분해 특성)

  • Kim, In Sik;Hwang, Seong Yeon;Kang, Byung Gwan;Hwang, Taek Sung
    • Korean Chemical Engineering Research
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    • v.57 no.1
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    • pp.65-72
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    • 2019
  • In this study, heterogeneous ion exchange membranes were prepared by casting method with various mixing ratios of PPO ion-selective solution and ion exchange resin. Then heterogeneous bipolar membranes were prepared by using this. The water content of heterogeneous cation and anion exchange membranes were 60~80% respectively, the ion exchange capacity was 2.81~3.26 meq/g, 2.31~2.74 meq/g and electrical resistances were $1.65{\sim}1.45{\Omega}{\cdot}cm^2$ and $1.55{\sim}1.05{\Omega}{\cdot}cm^2$. The tensile strength of heterogeneous bipolar membrane was lower than that of PPO resin before functionalization ($700Kg_f/cm^2$). The tensile strength of heterogeneous bipolar membrane with catalyst layer was lower than that of non-catalytic heterogeneous bipolar membrane. The water splitting voltage of the heterogeneous bipolar membrane with catalyst layer was low and stable at a minimum of 1.7~1.8 V, maximum 3.9~4.0 V, and the water splitting voltage of the non-catalytic heterogeneous bipolar membrane was constant at 3.8~4.0 V.

Characterizations of Commercial Bipolar Membranes for Efficient Electrochemical LiOH Production (효율적인 전기화학적 LiOH 생산을 위한 상용 바이폴라막 특성 분석)

  • Song, Hyeon-Bee;Kang, Moon-Sung
    • Membrane Journal
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    • v.32 no.5
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    • pp.357-365
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    • 2022
  • Recently, as the demand for secondary batteries for electric vehicles has rapidly increased, the efficient production of lithium compounds is attracting great attention. Bipolar membrane electrodialysis (BPED) is known as an eco-friendly, economical, and efficient electrochemical lithium compound production process. Since the efficiency of the BPED depends on the performance of the bipolar membrane (BPM), the selection of the BPM is very important. In this study, the characteristics of BPMs suitable for the BPED for electrochemical LiOH production were derived by comparative analyses of BP-1E (Astom) and FBM (Fumatech), which are the most widely used commercial BPMs in the world. Through systematical evaluation, it was confirmed that reducing membrane ion transfer resistance and co-ion leakage among the characteristics of BPM is the most important, and BP-1E has better performance than FBM in this respect.

Development and Application Trend of Bipolar Membrane for Electrodialysis (전기투석용 바이폴라막의 개발 및 응용동향)

  • Kim, Deuk Ju;Nam, Sang Yong
    • Membrane Journal
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    • v.23 no.5
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    • pp.319-331
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    • 2013
  • Electrodialysis with bipolar membranes (EDBM) has recently gained increasing attention for the recovery and production of acids or bases from the corresponding salt solutions and other high value-added business like food processing and biochemical industry. EDBM possesses economical and environmental benefits and can complex with other process such as ion exchange process, extraction and adsorption. So this paper investigates a brief overview of development for bipolar membrane and EDBM with the practical application.

Production of Ammonia Water and Sulfuric Acid from Ammonium Sulfate by Electrodialysis with a Bipolar Membrane (바이폴라막 전기투석을 이용한 황산암모늄으로부터 암모니아수와 황산의 제조)

  • Hwang, Ui-Son;Choi, Jae-Hwan
    • Journal of Korean Society of Environmental Engineers
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    • v.27 no.1
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    • pp.36-42
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    • 2005
  • This study examined the feasibility of producing sulfuric acid and ammonia water from ammonium sulfate solution using two-compartment electrodialysis with a bipolar membrane (EDBM). Electrodialysis experiments were carried out with 20 wt% ammonium sulfate at different current densities and sulfuric acid concentrations in a concentrate compartment. The current efficiency increased with the current density from 25 to $100\;mA/cm^2$. Nevertheless, the efficiency was relatively low compared with that of general desalting electrodialysis, owing to the diffusion of sulfuric acid from the concentrate compartment to the diluate. The diffusion rate through the anion exchange membrane increased with the sulfuric acid concentration in the concentrate compartment, which decreased the current efficiency. Conversely, the electrical resistance decreased with increasing current density owing to the Joulian heat generated during water dissociation in the transition region of the bipolar membrane under a high electric field. From the experimental results, we concluded that operating at a higher current density is effective from the perspective of current efficiency and electrical resistance when producing sulfuric acid and ammonia water from ammonium sulfate using a two-compartment EDBM process. Further studies on the effects of increasing the sulfuric acid concentration on current efficiency are required to apply the EDBM process practically.

Modeling for the Recovery of Organic Acid by Bipolar Membrane Electrodialysis (바이폴라막 전기투석에 의한 유기산 회수에 관한 모델링)

  • Kim, Sang-Hun;Lee, Byung-Chul
    • Korean Chemical Engineering Research
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    • v.44 no.5
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    • pp.476-482
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    • 2006
  • This paper studied the recovery of organic acid from organic acid salt by using bipolar membrane electrodialysis. Acetic acid and lactic acid was used as for organic acid. Organic acid concentration, sodium hydroxide concentration and pH values were measured at various current density. Organic acid salt was effectively converted to organic acid and sodium hydroxide. Based on the experimental results, mathematical models were developed, in which time changes in ion balance were considered. Model predictions of organic acid concentration, sodium hydroxide concentration and pH values were in good agreement with the experimental data.

A Study on Process Performances of Continuous Electrodeionization with a Bipolar Membrane for Water Softening and Electric Regeneration (바이폴라막을 이용한 연수용 전기탈이온의 공정 효율 및 전기적 재생에 관한 연구)

  • Moon, Seung-Hyeon;Hong, Min-Kyoung;Han, Sang-Don;Lee, Hong-Joo
    • Membrane Journal
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    • v.17 no.3
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    • pp.210-218
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    • 2007
  • CEDI-BPM(Continuous Electrodeionization-Bipolar Membrane) has advantages due to high ion permselectivity through ion exchange membranes and the production of $H^+$ and $OH^-$ ions on the bipolar membrane surfaces for regeneration of ion exchange resin during electrodeionization operation. In this study, hardness materials were removed by the CEDI-BPM without scale formation and the ion exchange resins were electrically regenerated during the operation. The adsorption characteristic of ion exchange resin surface, the influence of flow rate on the hardness removal and electric regeneration were investigated in the study. The removal efficiency of Ca was higher than that of Mg in the CEDI-BPM, which was related to the high adsorption capacity of Ca on the cation exchange resin. With increasing flow rate, the flux of Ca and Mg was enhanced by the permselectivity of a cation exchange membrane. In the electric regeneration of CEDI-BPM, it was shown that the regeneration efficiency was higher with a lower regeneration potential applied between cathode and anode.

Hypochlorite Production by Using SPEEK/APSf and SPEEK/APEI Bipolar Membranes Modified by the Direct Fluorination (직접 불소화에 의해 표면 개질된 SPEEK/APSf, SPEEK/APEI 바이폴라막을 이용한 차아염소산나트륨 생성)

  • Kim, Ka young;Cheong, Seong Ihl;Rhim, Ji Won
    • Membrane Journal
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    • v.25 no.5
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    • pp.447-455
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    • 2015
  • In this study, Polysulfone (PSf) and polyetherimide (PEI) as the anion exchange polymers were aminated in the different ratio whereas the polyether ether ketone (PEEK) as the cation exchange polymer was sulfonated. The bipolar membranes of SPEEK (sulfonated PEEK)/APSf (aminated PSf) and SPEEK/APEI (aminated PEI) were prepared by the double-casting method. The surfaces of bipolar membranes were fluorinated in accordance with the amination ratio and applied to produce the hypochlorite. As the amination increased, the hypochlorite concentration is also increased. Typically, for SPEEK/APSf 3 : 1 membrane, the produced hypochlorite concentration was 61.0 ppm and its durability was 220 min for the non-fluorinated membrane while for the fluorinated membrane, the concentration of 58.6 ppm and its durability lasted 570 min. Also for SPEEK/APEI 3 : 1 membrane, the hypochlorite concentrations of 60.1 ppm and 58.3 ppm for before- and after-fluorination, respectively were observed whereas the durability was remarkably developed from 150 min to 440 min. Therefore, the surface fluorination takes an important role for the development of the membrane durability.