• Title/Summary/Keyword: 알칼리 망간 전지

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Physical Treatment for Reclaiming Spent Carbon-Zinc and Alkaline $MnO_2$batteries (廢망간電池 /알칼리망간電池 資源化를 위한 物理的 處理)

  • 손정수;안종관;박경호;전호석
    • Resources Recycling
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    • v.10 no.3
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    • pp.43-50
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    • 2001
  • Characteristics of crushing and magnetic separation on the spent batteries, were investigated for reclaiming spent carbon-zinc and alkaline manganese dioxide batteries. Crushing of carbon zinc battery was easier than that of alkaline $MnO_2$battery using impact type crusher with rotary blades. Most of magnetic products were distributed in the range of 8 mesh size. With crushing 1 ton of spent carbon-zinc and alkaline $MnO_2$batteries respectively, magnetic separation of 8 mesh oversize particles, we can get 214 kg and 235 kg of magnetic products which is composed of 94% and 88% of Fe.

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Preparation of Birnessite (δ-MnO2) from Acid Leaching Solution of Spent Alkaline Manganese Batteries and Removals of 1-naphthol (폐 알칼리망간전지의 산 침출액으로부터 버네사이트(δ-MnO2)의 제조 및 1-naphthol 제거)

  • Eom, Won-Suk;Lee, Han-Saem;Rhee, Dong-Seok;Shin, Hyun-Sang
    • Journal of Korean Society of Environmental Engineers
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    • v.38 no.11
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    • pp.603-610
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    • 2016
  • This work studies the synthesis of birnessite (${\delta}-MnO_2$), a catalyst of oxidative-coupling reactions, from the powder of spent alkaline manganese batteries (SABP, <8 mesh) and evaluate its reactivity for 1-naphthol (1-NP) removals. Manganese oxides using commercial reagents ($MnSO_4$, $MnCl_2$) and the acid birnessite (A-Bir) by McKenzie method were also synthesized, and their crystallinity and reactivity for 1-NP were compared with one another. 96% Mn and 98% Zn were extracted from SABP by acid leaching at the condition of solid/liquid (S/L) ratio 1:10 in $1.0M\;H_2SO_4+10.5%\;H_2O_2$ at $60^{\circ}C$. From the acid leaching solution, 69% (at pH 8) and 94.3% (pH>13) of Mn were separated by hydroxide precipitation. Optimal OH/Mn mixing ratio (mol/mol) for the manganese oxide (MO) synthesis by alkaline (NaOH) hydrothermal techniques was 6.0. Under this condition, the best 1-NP removal efficiency was observed and XRD analysis confirmed that the MOs are corresponding to birnessite. Kinetic constants (k, at pH 6) for the 1-NP removals of the birnessites obtained from Mn recovered at pH 8 (${Mn^{2+}}_{(aq)}$) and pH>13 ($Mn(OH)_{2(s)}$) are 0.112 and $0.106min^{-1}$, respectively, which are similar to that from $MnSO_4$ reagent ($0.117min^{-1}$). The results indicated that the birnessite prepared from the SABP as a raw material could be used as an oxidative-coupling catalyst for removals of trace phenolic compounds in soil and water, and propose the recycle scheme of SAB for the birnessite synthesis.

Synthesis of Functional Complex Material from Spent Alkaline Manganese Battery (폐(廢)알칼리망간전지(電池)로부터 기능성(機能性) 복합소재(複合素材) 제조(製造))

  • Kim, Tae-Hyun;Lee, Seoung-Won;Sohn, Jeong-Soo;Kang, Jin-Gu;Shin, Shun-Myung
    • Resources Recycling
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    • v.17 no.1
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    • pp.66-72
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    • 2008
  • Fundamental studies for the synthesis of Mn-Zn ferrite powder were investigated using a series of leaching and coprecipitation processes from spent alkaline manganese batteries. Zinc and Manganese dissolution rates obtained at the reaction conditions of 100g/L pulp density, 3.0M $H_2SO_4$, $60^{\circ}C$ and 200 rpm with 30 ml $H_2O_2$ as a reducing agent were more than 97.9% and 93.9% and coprecipitation of Mn-Zn ferrite powder was performed according to various reaction conditions such as temperature, time and amount of $O_2$ gas injection using the leaching solution. As a result of coprecipitation, Mn-Zn ferrite could be synthesized directly at low temperature in the reaction condition pH 12, $80^{\circ}C$, $O_2$ 1.3 L/min. and 400 rpm. The synthesized Mn-Zn ferrite powder was spherical powder of $0.143{\mu}m$ particle size and had a saturation magnetization about 80 emu/g.

Studies on the Application of the Spent Alkaline Manganese Batteries Powder as an Adsorbent for Nickel Ion (폐(廢)알칼리망간전지(電池) 분말(粉末)의 니켈 이온 흡착제(吸着劑)로서의 활용(活用)에 관한 연구(硏究))

  • Baek, Mi-Hwa;Kim, Dong-Su;Sohn, Jeong-Soo
    • Resources Recycling
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    • v.17 no.2
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    • pp.63-69
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    • 2008
  • The adsorption features of $Ni^{2+}$ onto spent alkaline manganese batteries powder have been investigated with the adsorbent dose, initial concentration of adsorbate and temperature as the experimental variables. The adsorption reaction of $Ni^{2+}$ ion followed the pseudo-second order rate model, and the adsorption rate constants($k_2$) decreased with increasing initial concentration of nickel ion. The equilibrium adsorption data were fitted to the Langmuir and Freundlich models. The Freundlich model represents the equilibrium data better than the Langmuir model in this initial adsorbate concentration range. As the temperature increased, the adsorbed amount of nickel ion at equilibrium was also increased, which indicated that the adsorption reaction was endothermic. Based on the experimental results obtained along with temperatures, thermodynamic parameters such as ${\Delta}H^{\circ},\;{\Delta}G^{\circ},\;and\;{\Delta}S^{\circ}$ were calculated.

Preparation of Electrolyte Membranes for Thin Manganese Batteries and Its Electrochemical Characteristics (박형 망간전지용 전해질막의 제조 및 전기화학적 특성)

  • Jeong, Soon-Ki
    • Journal of the Korea Academia-Industrial cooperation Society
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    • v.7 no.6
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    • pp.1292-1295
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    • 2006
  • Three kinds of electrolyte membranes were prepared by impregnating filter papers with one of the electrolyte solutions fur primary manganese battery ($NH_4Cl$, $ZnCl_2$, and alkaline types) and hygroscopic agent ($CaBr_2$ or $CaCl_2$), respectively. The thickness of them was $250{\sim}300{\mu}m$, and they were very flexible. The electrochemical characteristics greatly depended on the hygroscopic agent to supply water to the cell. The electrolyte membrane containing $CaCl_2$ showed the highest ionic conductivity and the largest discharge capacity.

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Status of the Rechargeable Alkaline Manganese Battery Technology (충전용 알칼리 망간 전지 기술 현황)

  • Bang Bu Gil
    • 한국전기화학회:학술대회논문집
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    • 1999.11a
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    • pp.137-146
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    • 1999
  • The rechargeable alkaline manganese dioxide(RAM)battery system has reached a performance level that enables the consumer to utilize RAM for practically all applications where currently single use cells(alkaline manganese, zinc-carbon)are being used. In addition, it can replace nickel-cadmium and nickel-metal hydride cells in low to medium power applications with much improved charge retention at higher operating temperatures and in intermittent use and works well with solar charging. A review is given on RAM cell performance as well as a comparison to competing rechargeable technologies. Potential new possibilities in the field of OEM(original equipment manufacturer) applications are discussed.

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