• Title/Summary/Keyword: Ion Exchange Membrane

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Effect of Current Density and pH of Electrolyte on Anion-Exchange Membrane Fouling (전류밀도와 전해질의 pH가 음이온교환막의 막 오염에 미치는 영향)

  • Choi, Jae-Hwan
    • Journal of Korean Society of Environmental Engineers
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    • v.27 no.9
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    • pp.965-969
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    • 2005
  • Current density is an important operating parameter in the ion-exchange membrane process. We observed the effects of fouling of a Neosepta AMX anion-exchange membrane(Tokuyama Soda, Japan) in 0.02 M NaCl solution containing 100 mg/L sodium humate. Membrane fouling was analyzed by measuring the change in the electrical resistance in the under- and over-limiting current density regions. The experimental results found that membrane fouling was negligible at under-limiting current densities, but was increased significantly when an over-limiting current was supplied. After the fouling experiments, the current-voltage curves for the fouled membranes were measured. From the curves, we observed increased electric resistance and reduced limiting current density(LCD), caused by the accumulation of humic acid on the membrane surface. Furthermore, membrane fouling increased as the acidity of the electrolyte solution containing humic acid increased. This occurred because the fouling of an anion-exchange membrane is affected more by the physicochemical properties of the humic substance than by the surface charge of the humate.

Effect of Silicotungstic Acid as Inorganic Filler on the Properties of Anion Exchange Composite Membranes (무기첨가제 규소텅스텐산이 음이온교환 복합막 특성에 미치는 영향)

  • LEE, KYU HA;YOO, DONG JIN
    • Journal of Hydrogen and New Energy
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    • v.33 no.1
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    • pp.28-37
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    • 2022
  • In this study, we synthesized a poly(pheneylene oxide) (PPO)-based organic/inorganic composite membrane having silicotungstic acid (STA) for the development of an anion exchange membrane with excellent ionic conductivity and physicochemical stability. The organic/inorganic composite membranes were prepared by introducing different STA contents (0 wt%, 10 wt%, 30 wt%, and 50 wt%) into the quaternizaed(Q)-PPO matrix. The prepared anion exchange membranes were subjected to structural analysis by proton neclear magnetic resonance and Fourier transform infrared, and thermal behavior of membranes was confirmed by thermogravimetric analysis. Among the prepared composite membranes, the ion conductivity of Q-PPO/STA-50 (40.5 mS cm-1) showed 1.46 times compared to that of the pristine membrane (27.6 mS cm-1). Therefore, these results demonstrated that organic/inorganic composite membranes are promising candidates for application of anion exchange membranes.

Preparation of Poly(ethylenimine) Anionic Exchnage Membrane Impregnated in Porous Polyethylene Membranes (다공성 폴리에틸렌 막에 폴리에틸렌이민을 함침 시킨 음이온교환막의 제조 연구)

  • Park, Chan-Jong;Kim, Il-Hyung;Kim, Sung-Pyo;Lee, Hak-Min;Cheong, Seong-Ihl;Choi, Ho-Sang;Rhim, Ji-Won
    • Membrane Journal
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    • v.21 no.1
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    • pp.91-97
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    • 2011
  • In this study, the anionic exchange membranes were prepared through the impregnation of polyethylenimine (PEI) into porous polyethylene (PE) separator and then crosslinking with isophrhaloyl dichloride (IPC). To characterize the resulting membranes, the contact angles, FT-IR, ion exchnage capacity and ion conductivity were measured. The amide group is produced the reaction between amines in PEI and -COCl in IPC. In case of ion exchange capacity, 1.96 meq./g dry membrane at the reaction time, 30 sec was decreased to 1.14 meq./g dry membrane at 600 sec reaction time. The ion conductivity, $9.15{\times}10^{-2}S/cm$ at 30 sec reaction time, was obtained.

A Study on the Effect of Different Functional Groups in Anion Exchange Membranes for Vanadium Redox Flow Batteries (바나듐 산화환원 흐름전지를 위한 음이온교환막의 관능기에 따른 특성 연구)

  • Lee, Jae-Myeong;Lee, Mi-Soon;Nahm, Ki-Seok;Jeon, Jae-Deok;Yoon, Young-Gi;Choi, Young-Woo
    • Membrane Journal
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    • v.27 no.5
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    • pp.415-424
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    • 2017
  • Commonly cation exchange membranes have been used for vanadium redox flow batteries. However, a severe vanadium ion cross-over causes low energy efficiency. Thus in this study, we prepared 3 different anion exchange membranes to investigate the effect on the membrane properties such as vanadium ion cross-over and long term stability. The base membranes were prepared by an electrolyte pore filling technique using vinyl benzyl chloride (VBC), divinylbenzene (DVB) within a porous polyethylene (PE) substrate. Then 3 different functional amines were introduced into the base membranes, respectively. These resulting membranes were evaluated by physico-chemical properties such as ion exchange capacity, dimensional stability, vanadium ion cross-over and membrane area resistance. Conclusively, TEA-functionalized membrane showed longest term stability than other membranes although all the membranes are similar to coulombic efficiency.

Comparison of Properties of Two Kinds of Anion Exchange Membranes with Different Functional Group for Alkaline Fuel Cells (알칼라인 연료전지용 다른 작용기들을 갖는 두 종류의 음이온 교환 막들의 특성 비교)

  • LEE, SEUNGYEON;YOO, DONG JIN
    • Journal of Hydrogen and New Energy
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    • v.29 no.5
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    • pp.458-465
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    • 2018
  • This study reports the fabrication of anion exchange membranes (AEMs) containing two kinds of functional groups: i) trimethylphosphite (TMP) and ii) trimethylamine (TMA). We carried out the synthesis of polymers to enhance thermal stability and ion conductivity. The alternative polymer was prepared using 2,2-bis(4-hydroxy-3-methylphenyl)propane and decafluorobiphenyl. The membrane was fabricated by solution casting method. The thermal stability of membranes was examined by TGA. The physiochemical properties of membranes were also investigated in terms of water uptake, swelling ratio, ion exchange capacity, and ion conductivity. The hydroxide ion conductivity of the membranes reached about 20.2 mS/cm for quaternary ammonium poly(arylene ether) (QA-PAE) containing TMA moiety and 5.1 mS/cm for quaternary phosphonium PAE (QP-PAE) containing TMP moiety at $90^{\circ}C$.

Electrochemical nitrate reduction using a cell divided by ion-exchange membrane

  • Lee, Jongkeun;Cha, Ho Young;Min, Kyung Jin;Cho, Jinwoo;Park, Ki Young
    • Membrane and Water Treatment
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    • v.9 no.3
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    • pp.189-194
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    • 2018
  • Electrochemical reduction of nitrate was studied using Zn, Cu and (Ir+Ru)-Ti cathodes and Pt/Ti anode in a cell divided by an ion exchange membrane. During electrolysis, effects of the different cathode types on operating parameters (i.e., voltage, temperature and pH), nitrate removal efficiency and by-products (i.e., nitrite and ammonia) formation were investigated. Ammonia oxidation rate in the presence of NaCl was also determined using the different ratios of hypochlorous acid to ammonia. The operating parameter values were similar for all types of cathode materials and were maintained relatively constant. Nitrate was well reduced and converted mostly to ammonia using Zn and Cu cathodes. Ammonia, produced as a by-product of nitrate reduction, was oxidized in the presence of NaCl in the electrochemical process and the oxidation performance was enhanced upon increasing the hypochlorous acid-to-ammonia ratio to 1.09:1. Zn and Cu cathodes promoted the nitrate reduction to ammonia and the produced ammonia was finally removed from solution by reacting with hypochlorite ions. Using Zn or Cu cathodes, instead of noble metal cathodes, in the electrochemical process can be an alternative technology for nitrate-containing wastewater treatment.