• Title/Summary/Keyword: support-impregnated membrane

Search Result 3, Processing Time 0.017 seconds

Removal of Ammonia in Water using Acid-impregnated Activated Carbon and Dynamic Membrane System (산 첨착활성탄과 동적막 공정을 이용한 수중 암모니아 제거)

  • Choi, Won Kyung;Shin, Dong-Ho;Lee, Yong Taek
    • Applied Chemistry for Engineering
    • /
    • v.17 no.3
    • /
    • pp.310-316
    • /
    • 2006
  • In this study, activated carbon in a powder form was used to remove dissolved ammonia which causes a fouling smell in water. Since the adsorption capacity of common powder activated carbon is not high enough, we prepared powder activated carbon deposited on an acid solution to enhance the adsorption capacity. The acid-impregnated activated carbon was applied on the surface of porous fibril support ($10{\sim}50{\mu}m$) by which adsorption and separation processes take place simultaneously by varying effective pressure. As the result, the ammonia removal efficiency is above 60% in the mixing process which is 10~15% higher than general powder activated carbon. From the result of an experiment on the pure permeable test of a dynamic membrane, its transmittance is 400~700 LMH (liter per hour), indicating that the prepared membrane works as a microfiltration membrane. Therefore, it is expected that the membrane prepared in this way would improve the efficiency of water treatment than conventional membranes.

Property Changes of Anion Exchange Pore-filling Membranes According to Porous Substrates (지지체 종류에 따른 음이온 교환 함침막 특성 변화)

  • Jeon, Sang Hwan;Choi, Seon Hye;Lee, Byeol-Nim;Son, Tae Yang;Nam, Sang Yong;Moon, Sun Ju;Park, Sang Hyun;Kim, Ji Hoon;Lee, Young Moo;Park, Chi Hoon
    • Membrane Journal
    • /
    • v.27 no.4
    • /
    • pp.344-349
    • /
    • 2017
  • Alkaline fuel cells using polymer electrolyte membranes are expected to replace proton exchange membrane fuel cells, which have similar system configurations. In particular, in alkaline fuel cells, a low-cost non-platinium catalyst can be used. In this study, to fabricate high performance and high durability anion exchange membranes for alkaline fuel cell systems, two kinds of supports, polybenzoxazole and polyethylene supports, were impregnated with Fumion FAA ionomer, by which we tried to fabricate the support-impregnated membrane which has higher mechanical strength and higher ion conductivity than the Fumion series. Finally, the Pore-filling membranes were successfully fabricated and ionic conductivity and mechanical properties were different depending on the properties of the supports. In the pore-filling membranes with Fumion ionomer on the PE support, excellent mechanical properties were obtained, but ionic conductivity decreased. On the other hand, when the PBO support was impregnated with Fumion ionomer, high ionic conductivity was shown after impregnation due to high basicity of PBO, but the mechanical strength was relatively low as compared with Fumion-PE membrane. As a result, it was concluded that it is necessary to consider the characteristics of the support according to the operating conditions of the alkaline fuel cell during the preparation of the pore-filling membranes.

Preparation of Crosslinked Polyvinylbenzylchloride Anion Exchange Composite Membranes using Fabric Substrates and Their Electrodialysis Application for Ion Removal (천지지체를 사용한 가교화된 폴리비닐벤질클로라이드 음이온교환 복합막의 제조와 전기투석을 이용한 이온 제거 특성연구)

  • Lee, Jung-Soo;Chang, Bong-Jun;Kim, Jeong-Hoon;Kim, Dong-Kwon
    • Membrane Journal
    • /
    • v.20 no.2
    • /
    • pp.142-150
    • /
    • 2010
  • A series of anion exchange composite membranes were prepared and characterized for electrodialysis processes used in the removal of nitrate nitrogen and ions in groundwater. The membranes were prepared as follows; first, fabric substrates were fully impregnated with monomer mixtures of vinylbenzylchloride (VBC), divinylbenzene (DVB), Styrene (ST) and $\alpha,\alpha$-Azobis(isobutyronitrile) (AIBN). Second, they were thermally polymerized to yield crosslinked poly (VBCST- DVB)/fabric composite membranes. Finally, the membranes were treated with trimethylamine (TMA) / acetone to give $-N^+(CH_3)_3^-$-containing poly(VBC-ST-DVB)/fabric membranes. The basic membrane properties such as ion exchange capacity (IEC), electric resistance and water content of the resulting membranes were measured as a function of VBC/DVB and TMA/Acetone content. As a result, the composite membranes showed lower electric resistance and higher IEC than commercial anion exchange membranes (AMX, Astom). Electrodialysis tests using the prepared membranes were carried out for the removal of various ions such as $NaNO_3$, $MgSO_4$ and NaF for 60 minutes. The results showed that the ions were removed below 1 mg/L within about 15 minutes which indicates that the anion exchange membranes prepared here could be applied to the electrodialysis process. as can be seen in the following that the ion conductivity values were almost no change after 15 minutes electrodialysis.