• Title/Summary/Keyword: fluidized bed electrolytic reactor

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Electrolytic recovery of metals from the plating rinse water with fluidized bed electrode reactor (유동층전극 반응기를 이용한 폐수내의 중금속 회수)

  • Lee, Jea-Keun;Chun, Hai-Soo
    • Journal of the Korean institute of surface engineering
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    • v.17 no.1
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    • pp.1-6
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    • 1984
  • The fluidized bed electrode reactor(FBER) with conducting particles has been made use of the removal of metals from dilute electroplating rinse water. The electrolysis was carried out under the conditions of diaphragm current density with 2~28A/$dm^2$ and bed expansion with 20~50%. Recirculating batch operations have been shown that the metal concentration dropped exponentially and may be taken down to 10 ppm. And then, the current efficiency at a concentration of 10 ppm copper was 37% under the conditions of 30% bed expansion and 6 A/$dm^2$, and at concentrated electrolyte (2000ppm copper) was over 80% in the range of 8~28A/$dm^2$ and 20~50% bed expansion. One of the technical possibilities of fluidized bed electrolysis is the separation of copper and nickel from a mixed solution of copper and nickel.

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Effects of Gas Injection on the Recovery of Copper Powder from Industrial Waste Water in Fluidized - Bed Electrolytic Reactors (유동층 전극반응기에서 기체의 유입이 산업폐수로부터 동입자의 회수에 미치는 영향)

  • Song, Pyung-Seob;Son, Sung-Mo;Kang, Yong;Kim, Seung-Jai;Kim, Sang Done
    • Applied Chemistry for Engineering
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    • v.16 no.4
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    • pp.485-490
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    • 2005
  • Effects of gas injectino on the copper recovery form industrial waste water in a fluidized-bed electrolytic reactor were investigated. Effects of gas injection on the individual phase holdup and efficiency of copper recovery for given operating variables such as liquid and gas velocity (0.1~0.4 cm/s), current density ($2.0{\sim}3.5A/dm^2$) and amount of fluidized solid particles (1.0~4.0 wt%) were examined. The solid particle, whose diameter and swelling density were 0.5 mm and $1100kg/m^3$, respectively, was made of polystylene and divinyl benzene. It was found that the holdup of gas and solid phases increased, but that of the liquid phase decreased with increasing velocity of gas injected into the reactor. With increasing gas and/or liquid velocity and increasing amount of fluidized particles is not needed, the rate of copper recovery increased to a maximum value of and subsequently decreased. The recovery rate of copper increased almost linearly with increasing current density in accordance with Faraday's law.