• 제목/요약/키워드: 전기투석 셀

검색결과 4건 처리시간 0.014초

금속회수공정에서 발생되는 Na2SO4 폐액으로 부터 NaOH 및 H2SO4 재생을 위한 Electro-membrane 응용 (Application of Electro-membrane for Regeneration of NaOH and H2SO4 from the Spent Na2SO4 Solutions in Metal Recovery Process)

  • 조연철;김기훈;안재우
    • 자원리싸이클링
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    • 제31권5호
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    • pp.3-19
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    • 2022
  • 전기막(Electro-membrane) 기술은 전기투석(ED) 및 바이폴라 전기투석(BMED)과 같이 선택적 투과성을 갖는 이온교환막을 사용하여 전기에너지에 의하여 수용액 내의 물질을 분리·정제하는 공정이다. 전기막(Electro-membrane) 기술은 공정 중에 부산물이 발생하지 않고 회수된 염기나 산을 공정 중에 재사용할 수 있어 환경 친화적인 기술로 주목받고 있다. 본고에서는 전기분리막 기술인 ED와 BMED 기술의 원리 및 셀(Cell) 구성에 따른 여러 가지 특성 및 문제점 등에 대해 조사하고, 특히 금속회수 공정 중 다량 발생되고 있는 황산나트륨(Na2SO4) 폐액 처리와 관련된 연구사례들을 조사·분석하였다.

Anolyte와 Catholyte의 비율에 따른 HI 농축 전기투석 셀의 성능변화 (Effect of Catholyte to Anolyte Amount Ratio on the Electrodialysis Cell Performance for HI Concentration)

  • 김창희;조원철;강경수;박주식;배기광
    • 한국수소및신에너지학회논문집
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    • 제21권6호
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    • pp.507-512
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    • 2010
  • The effect of catholyte to anolyte amount ratio on the electrodialysis cell performance for HI concentration was investigated. For this purpose, the electrodialysis cell was assembled with Nafion 117 as PEM membrane and activated carbon fiber cloth as electrodes. The initial amount of catholyte was 310 g and that of anolyte varied from 1 to 3 of amount ratio. The calculated electro motive force (EMF) increased with time and the increment enhanced as the amount ratio of catholyte to anolyte decreased. The mole ratios of HI to $H_2O$ (HI molarity) in catholyte were almost the same and exceeded pseudo-azeotropic composition for all amount ratios after 2 h operation. The HI molarity continuously increased with time for 10 h operation. The mole ratio of $I_2$ to HI decreased in catholyte but increased in anolyte. The increment of mole ratio of $I_2$ to HI in anolyte rose as the amount ratio of catholyte to anolyte decreased. In case of 1:1 amount ratio, the cell operation was stopped for the safety at approximately 6 h operation, since the mole ratio of $I_2$ to HI reached solubility limit. The cell voltage of the electrodialysis cell increased with time and the rate of increase was high at low amount ratio. This suggests that the amount ratio of catholyte to anolyte not only crucially influences the cell voltage, but also cell operation condition.

HI 농축을 위한 전해-전기투석 셀의 스케일-업에 관한 연구 (Study on Scale-up of Electro-Electrodialysis [EED] Cell for HI Concentration)

  • 이상호;홍성대;김정근;황갑진;문일식
    • 한국수소및신에너지학회논문집
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    • 제18권4호
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    • pp.458-463
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    • 2007
  • An experimental study on scale-up of Electro-electrodialysis(EED) to increase the efficiency of HI decomposition section in the IS(Iodine-Sulfur) process was carried out. The EED stack extends the effective area of the membrane to 20 times of that formerly used in a single EED unit cell. The experiment was carried out using HIx solution($HI:H_2O:I_2=1:8.4{\sim}9:1.85{\sim}1.9$) at $100^{\circ}C$ and various solution flow rates of 20, 30, 40 and 50 cc/min. The increased HI molality in catholyte after one-pass throughout from the EED stack was 3 mol/kg-$H_2O$, 2.2 mol/kg-$H_2O$, 2 mol/kg-$H_2O$ and 1.37 mol/kg-$H_2O$ at 20, 30, 40 and 50 cc/min, respectively. These values satisfied the target of HI molality(the increase of HI molality: 2 mol/kg-$H_2O$) in the IS process for hydrogen production of 20 L/hr.

HI 농축에 대한 전기투석 셀의 성능 및 운전한계조건 연구 (A Study on the Performance and Operation Limit of Electrodialysis Cell for HI Concentration)

  • 이병우;정성욱;조원철;강경수;박주식;배기광;김영호;김창희
    • 한국수소및신에너지학회논문집
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    • 제22권6호
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    • pp.749-758
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    • 2011
  • The present work explores the performance and operation limit of electrodialysis cell for HI concentration in sulfur iodine thermochemical hydrogen production process, For this purpose, the electrodialysis cell was assembled with Nafion 117 as a PEM membrane and two activated carbon papers as the electrodes. HIx solution was prepared with composition of HI: $I_2$: $H_2O$ = 1: 0.5~2.5: 5.2 in molar ratio. The cell and its peripheral apparatus were placed in the specially designed convective oven in order to uniformly maintain the operation temperature. As operation temperature increased, the amount of water transport from anode to cathode increased, thus reducing HI molarity in catholyte. Meanwhile, the current efficiency was constant as about 90 %, irrespective of temperature change. The cell voltage increased with initial $I_2$ mole ratio as well as anolyte to catholyte mole ratio. Moreover the cell voltage overshot took place within 10 h cell operation, which is due to the $I_2$ precipitation inside the cell. From the analysis of $I_2$ mole ratio in the anolyte, it is noted that operation limit (in $I_2$ mole ratio) of the electrodialysis cell, arising from was measured to be 3.2, which is much lower than bulk solubility limit of 4.7.