• Title/Summary/Keyword: battery wastes

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Technology Developments for Recycling of Lithium Battery Wastes

  • Sohn, Jeong-Soo;Lee, Churl-Kyung
    • Resources Recycling
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    • v.12 no.1
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    • pp.65-74
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    • 2003
  • As new functional electronics are being developed fast, the commercialization rate of advanced battery as a power source proceeds rapidly. Lithium battery is satisfying the needs of high-energy source for its lightness and good electrochemical property. Especially lithium ion battery, adopted as a new power source for portable electronic equipments around the globe, has been mass-produced. Under the circumstance, the generation of lithium battery wastes is becoming a new environmental problem. In this paper, we are going to inspect technology developments for recycling of lithium battery wastes and scraps in domestic and foreign area, and to suggest how to treat domestic lithium battery wastes and scraps better.

Treatment of Metal Wastes with Manganese Nodules (망간단괴 제연 시 금속계 폐자원의 처리)

  • Park Kyung-Ho;Nam Chul-Woo;Kim Hong-In;Park Jin-Tae
    • Resources Recycling
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    • v.14 no.4 s.66
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    • pp.17-21
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    • 2005
  • Deep-sea Manganese nodules was treated with reduction-smelting process with adding the spent Ni-Cd battery or the cobalt contained spent catalyst for recovery of nickel and cobalt metals. The nickel in the spent Ni-Cd battery could be recovered by adding $5\%$ coke as a reducing agent regardless of the amount of battery added. However, to recover cobalt from the spent catalyst, it is require to add more coke for reduction of cobalt oxide in the catalyst. The treatment of metal wastes with manganese nodules can contribute to lower the cost for the processing of nodules and to facilitate the recycling of metal wastes.

Recovering Critical Metal Ions from Battery Wastes: A Brief Review (폐배터리에서 희소금속을 회수하는 기술에 대한 총론)

  • Hyo Jung Kim;Cheol Lee;Won Seok Chang;Go Gi Lee;Jong Suk Lee
    • Membrane Journal
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    • v.34 no.1
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    • pp.1-9
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    • 2024
  • The rapid expansion of the electric vehicle market has led to increased demand for battery recycling technologies. The recycling of spent batteries is crucial to stabilize the supply of rare metals, including lithium, cobalt and nickel, which are essential components for the battery industry. In addition, the technology for recycling spent batteries can help to reduce environmental and health impacts. This review presents the theoretical principles behind the metal recovery technology and the processes that are currently commercially available. It also describes trends in research and technological developments that aim to improve existing processes, and provides an overview of where recycling technology is headed.

Bio-dissolution of waste of lithium battery industries using mixed acidophilic microorganisms isolated from Dalsung mine (달성 광산(鑛山)에서 채취(採取)한 혼합(混合) 호산성 균주를 이용(利用)한 폐리튬 밧데리의 바이오 침출(浸出))

  • Mishra, Debaraj;Kim, Dong-Jin;Ahn, Jong-Gwan;Ralph, David E.
    • Resources Recycling
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    • v.17 no.2
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    • pp.30-35
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    • 2008
  • Mixed acidophilic bacteria were approached for leaching of cobalt and lithium from wastes of lithium ion battery industries. The growth substrates for the mixed mesophilic bacteria are elemental sulfur and ferrous ion. Bioleaching of the metal was due to the protonic action of sulfate ion on the metals present in the waste. It was investigated that bioleaching of cobalt was faster than lithium. Bacterial action could leach out about 80 % of cobalt and 20 % of lithium from the solid wastes within 12 days of the experimental period. Higher solid/liquid ratio was found to be detrimental for bacterial growth due to the toxic nature of the metals. At high elemental sulfur concentration, the sulfur powder was observed to be in undissolved form and hence the leaching rate also decreased with increase of sulfur amount.

Recovery and Separation of Nickel from the Spent Ni-Cd Batteries (폐 Ni-Cd전지로부터 Ni의 분리 및 회수에 관한 연구)

  • 김종화;남기열
    • Resources Recycling
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    • v.9 no.2
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    • pp.11-17
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    • 2000
  • Consumption of nickel is continuously increasing and the wastes of secondary battery, ferrite and catalyst containing Ni are also generated periodically. Among those wastes, the aim of this research is the recovery of nickel from used Ni-Cd recharge battery. Battery consisted of Ni 24 wt%, Fe 30 wt% and Cd 18.5 wt%. Metal was recovered by solvent extraction after leaching. Cadmium was leached completely in 1N-HCl and Ni was recovered above 70%. 30 vol% MSP-8 separated Cd and Ni completely from acidic leaching solution. In addition $NH_4NO_3$ as one of ammonium salt type leachants showed an excellent leaching selectivity to Ni and Cd. Ni in leached solution was recovered completely by LIX-extractant and more than 70% of Cd in raffinate was by D2EHPA.

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Synthesis of $LiCoO_{2}$ Nanoparticles From Leach Liquor of Lithium Ion Battery Wastes by Flame Spray Pyrolysis

  • Lee Churl Kyoung;Chang Hankwon;Jang Hee Dong;Sohn Jeong-Soo
    • Resources Recycling
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    • v.14 no.6 s.68
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    • pp.37-43
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    • 2005
  • [ $LiCoO_{2}$ ] nanoparticles were synthesized from leach liquor of lithium ion battery waste using flame spray pyrolysis. Electrode Materials containing lithium and cobalt could be concentrated with thermal and mechanical treatment. After dissolution of used cathode materials of the lithium battery with nitric acid, the molar ratio of Li/Co in the leach liquor was adjusted at 1.0 by adding a fresh $LiNO_{3}$ solution. The nanoparticles synthesized by the flame spray pyrolysis showed clear crystallinity and were nearly spherical, and their average primary particle diameters ranged from 11 to 35 nm. The average particle diameter increased with an increase in the molar concentration of the precursor. Raising the maximum flame temperature by controlling the gas flow rates also led to an increase in the average diameter of the particles. The $LiCoO_{2}$ powder was proved to have good characteristics as cathode active materials in charge/discharge capacity and cyclic performance.

Correlation between Lithium Concentration and Ecotoxicoloigy in Lithium Contained Waste Water (리튬 함유 폐액에서의 리튬 농도와 생태독성과의 연관성 연구)

  • Jin, Yun-Ho;Kim, Bo-Ram;Kim, Dae-Weon
    • Clean Technology
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    • v.27 no.1
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    • pp.33-38
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    • 2021
  • Demand for lithium-based secondary batteries is greatly increasing with the explosive growth of related industries, such as mobile devices and electric vehicles. In Korea, there are several top-rated global lithium-ion battery manufacturers accounting for 40% of the global secondary battery business. Most discarded lithium secondary batteries are recycled as scrap to recover valuable metals, such as Nickel and Cobalt, but residual wastes are disposed of according to the residual lithium-ion concentration. Furthermore, there has not been an attempt on the possibility of water discharge system contamination due to the concentration of lithium ions, and the effluent water quality standards of public sewage treatment facilities are becoming stricter year after year. In this study, the as-received waste water generated from the cathode electrode coating process in the manufacturing of high-nickel-based NCM cathode material used for high-performance and long-term purposes was analyzed. We suggested a facile recycling process chart for waste water treatment. We revealed a correlation between lithium-ion concentration and pH effect according to the proposed waste water of each recycling process through analyzing standard water quality tests and daphnia ecological toxicity. We proposed a realistic waste water treatment plan for lithium electrode manufacturing plants via comparison with other industries' ecotoxicology.

Development of Ecotoxicological Standard Methods using Early Life Stage of Marine Rotifer Brachionus plicatilis and Benthic Copepod Tigriopus japonicus (윤충류 Brachionus plicatilis 및 저서 요각류 Tigriopus japonicus의 초기 생활사를 이용한 해양생태독성시험 방법에 관한 연구)

  • Lee, Seung-Min;Park, Gyung-Soo;Yoon, Sung-Jin;Kang, Young-Shil;Oh, Jeong-Hwang
    • The Sea:JOURNAL OF THE KOREAN SOCIETY OF OCEANOGRAPHY
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    • v.13 no.2
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    • pp.129-139
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    • 2008
  • Marine ecotoxicological standard method was applicated using marine rotifer and benthic copepod as primary consumer of marine ecosystem. Marine rotifer, Brachionus plicatilis and benthic copepod, Tigriopus japonicus were designated as standard test species with the endpoints of 24hr neonate mortality (24hr $LC_{50}$) and 48hr population growth (48hr $EC_{50}$) for rotifer, and 48hr nauplius mortality (48hr $LC_{50}$) for benthic copepod. Tests method was referred to those of ASTM (American Society for Testing and Materials) with the replacement of test species which are widely distributed in Korean waters. The two species showed a wide tolerance on salinity ($5{\sim}35\;psu$) and can be easily cultured in small space even they were not as sensitive as in the mortality test using the nauplius of marine invertebrates. However, these species revealed the significant "concentrationresponse relationship" tested with ocean disposal wastes, and reproducibility using cadmium as standard reference material between laboratories. Accordingly, these two species have good potential as test species for marine ecotoxicological test species. Also, we strongly recommend that at least one of these species be included in the test species of "battery test" in marine bioassay.

Energy Modeling For the Cluster-based Sensor Networks (클러스터 기반 센서 네트워크의 에너지 모델링 기법)

  • Choi, Jin-Chul;Lee, Chae-Woo
    • Journal of the Institute of Electronics Engineers of Korea CI
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    • v.44 no.3
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    • pp.14-22
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    • 2007
  • Wireless sensor networks are composed of numerous sensor nodes and exchange or recharging of the battery is impossible after deployment. Thus, sonsor nodes must be very energy-efficient. As neighboring sensor nodes generally have the data of similar information, duplicate transmission of similar information is usual. To prevent energy wastes by duplicate transmissions, it is advantageous to organize sensors into clusters. The performance of clustering scheme is influenced by the cluster-head election method and the size or the number of clusters. Thus, we should optimize these factors to maximize the energy efficiency of the clustering scheme. In this paper, we propose a new energy consumption model for LEACH which is a well-known clustering protocol and determine the optimal number of clusters based on our model. Our model has accuracy over 80% compared with the simulation and is considerably superior to the existing model of LEACH.

An Energy Saving Protocol to Eliminate Overhearing Problem in Active RFID System (능동형 RFID 시스템에서 태그의 Overhearing을 제거하기 위한 에너지 절약 프로토콜)

  • Lee, Chae-Seok;Kim, Dong-Hyun;Kim, Jong-Deok
    • The Journal of Korean Institute of Communications and Information Sciences
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    • v.38C no.1
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    • pp.1-11
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    • 2013
  • Reducing the energy that consumed by tag is a key requirement for the wider acceptance of the active RFID systems that use battery constrained tags. When the reader is not interrogating, the active RFID standard protocols try to reduce energy consumption of tags by using sleep mode. On sleep mode tags is active by receiving a specific signals from reader, until tag receive a sleep mode command from the reader, a tag waste energy for remaining in RX mode. Overhearing is a state of a tag in which it wastes energy for maintaining active RX state while there is no frame destined to it. According to our analysis, the amount of energy consumed by a tag due to overhearing is several time larger than that consumed by the effective communication. We propose RANO(Reservation Aloha for No Overhearing) that is designed to inform a tag of its effective communication intervals to eliminate overhearing problem in active RFID communication. The performance of the proposed protocol was evaluated through the real world by changing the number of tags and size of data. The result of an experiment, the proposed protocol performed saving about 22 times less than the standard protocol did.