Volume 9 Issue 6
Nov.  2019
Turn off MathJax
Article Contents
Article Navigation >  Journal of Environmental Engineering Technology  > 2019  >  9(6): 631-636
MA Yuhui, CAO Junrui, JIANG Tianxiang, WANG Xunliang, ZHAO Jin, XIE Baolong. Study on aluminum recovery and the preparation of activated carbon from Tetra Pak waste[J]. Journal of Environmental Engineering Technology, 2019, 9(6): 631-636. doi: 10.12153/j.issn.1674-991X.2019.05.161
Citation: MA Yuhui, CAO Junrui, JIANG Tianxiang, WANG Xunliang, ZHAO Jin, XIE Baolong. Study on aluminum recovery and the preparation of activated carbon from Tetra Pak waste[J]. Journal of Environmental Engineering Technology, 2019, 9(6): 631-636. doi: 10.12153/j.issn.1674-991X.2019.05.161
shu

Study on aluminum recovery and the preparation of activated carbon from Tetra Pak waste

doi: 10.12153/j.issn.1674-991X.2019.05.161

  • Institute of Seawater Desalination and Multipurpose Utilization, Ministry of Natural Resources, Tianjin 300192, China

  • Received Date: 2019-04-28
  • Publish Date: 2019-11-20
    Abstract
  • Char and aluminum were obtained by pyrolysis of Tetra Pak waste and separated from each other. The activated carbon was prepared from the char as raw materials and K2CO3 as activator. The pyrolysis characteristics of Tetra Pak waste was investigated by thermogravimetric/differential thermal analyzer coupled with Fourier transform infrared spectrometer (TG/DTA-FTIR). The N2-adsorption/desorption curves of activated carbon were determined by automatic gas adsorption instrument and the surface functional groups of activated carbon were characterized by FTIR. TG-FTIR was used to gain insight into the activation mechanism of activated carbon. Experimental results showed that the pyrolysis of paper and polyethylene and the melting of aluminum in Tetra Pak waste occurred at 365, 490 and 664 ℃, respectively. The filler CaCO3 decomposed at 720 ℃. The specific surface area and total pore volume of activated carbon were 1 215 m 2/g and 0.768 cm 3/g, respectively, and the surface functional groups of activated carbon were mainly C=O、C—O—C and aliphatic C—H. The decomposition of CaCO3 contained in char at 740 ℃ led to the formation of CO2, and pores can be created via the in-situ reduction of CO2 by char; K2CO3 began to be melted at 820 ℃, and the molten K2CO3 reacted with the carbon matrix to form CO and caused the loss of carbon. Both processes were involved in the formation of pores of activated carbon.

     

    • FullText(HTML)
  • loading
    • References(18)
  • [1]
    RODRÍGUEZ-GÓMEZ J E, SILVA-REYNOSO Y Q, VARELA-GUERRERO V , et al. Development of a process using waste vegetable oil for separation of aluminum and polyethylene from Tetra Pak[J]. Fuel, 2015,149:90-94.
    [2]
    BEKHTA P, LYUTYY P, HIZIROGLU S , et al. Properties of composite panels made from Tetra-Pak and polyethylene waste material[J]. Journal of Polymers and the Environment, 2016,24(2):159-165.
    [3]
    XIE M H, QIAO Q, SUN Q H , et al. Life cycle assessment of composite packaging waste management:a Chinese case study on aseptic packaging[J]. The International Journal of Life Cycle Assessment, 2012,18(3):626-635.
    [4]
    朱燕玲, 袁丽春, 谭永川 , 等. 金属粉/利乐包电磁屏蔽复合材料的制备及性能研究[J]. 包装工程, 2013,34:42-47.

    ZHU Y L, YUAN L C, TAN Y C , et al. Preparation and performance of metal particle/Tetra Pak electromagnetic shielding composites[J]. Packaging Engineering, 2013,34:42-47.
    [5]
    邓蓉 . 对我国废弃利乐无菌包回收利用的探讨[J]. 北京印刷学院学报, 2014,22(6):20-24.

    DENG R . Discussion on waste recycling Tetra Pak aseptic package status quo[J]. Journal of Beijing Institute of Graphic Communication, 2014,22(6):20-24.
    [6]
    DING Z, XU X, PHAN T , et al. High adsorption performance for As(Ⅲ) and As(Ⅴ) onto novel aluminum-enriched biochar derived from abandoned Tetra Paks[J]. Chemosphere, 2018,208:800-807.
    [7]
    AGAMUTHU P, VISVANATHAN C . Extended producers' responsibility schemes for used beverage carton recycling[J]. Waste Management & Research, 2014,32(1):1-3.
    [8]
    BASKORO L, MUHAMMAD A, YOSHIKAWA K , et al. Energy and resource recovery from Tetra Pak waste using hydrothermal treatment[J]. Applied Energy, 2017,207:107-113.
    [9]
    孙晓 . 废旧利乐包/木屑碎料板制备及界面结合性研究[D]. 北京:北京林业大学, 2015.
    [10]
    范芳娟, 杨中平, 石复习 . 利乐无菌包的回收及利用探讨[J]. 农机化研究, 2007(9):221-223.

    FAN F J, YANG Z P, SHI F X . Discussion on recovery and reuse of Tetra Pak package[J]. Journal of Agricultural Mechanization Research, 2007(9):221-223.
    [11]
    MA Y H . Changing Tetra Pak:from waste to resource[J]. Science Progress, 2018,101(2):161-170.
    [12]
    KORKMAZ A, YANIK J, BREBU M , et al. Pyrolysis of the Tetra Pak[J]. Waste Management, 2009,29:2836-2841.
    [13]
    FIGEN A K, TERZI E, YILGÖR N,et al. Thermal degradation characteristic of Tetra Pak panel boards under inert atmosphere[J]. Korean Journal of Chemical Engineering, 2013,30:878-890.
    [14]
    MA Y, WANG J, ZHANG Y . TG-FTIR study on pyrolysis of waste printing paper[J]. Journal of Thermal Analysis and Calorimetry, 2017,129(2):1225-1232.
    [15]
    张阳, 胡斌, 陆强 , 等. 纤维素快速热解生成左旋葡聚糖的机理研究进展[J]. 生物质化学工程, 2014,48(3):53-59.
    doi: 10.3969/j.issn.1673-5854.2014.03.011

    ZHANG Y, HU B, LU Q , et al. A review on the formation mechanism of levoglucosan during fast pyrolysis of cellulose[J]. Biomass Chemical Engineering, 2014,48(3):53-59. doi: 10.3969/j.issn.1673-5854.2014.03.011
    [16]
    马宇辉, 王文华, 张秀芝 , 等. 一次性废竹筷制备活性炭及热解过程分析[J]. 环境工程学报, 2017,11(9):5207-5212.

    MA Y H, WANG W H, ZHANG X Z , et al. Preparation of activated carbon from waste disposable bamboo chopsticks and analysis of pyrolysis process[J]. Chinese Journal of Environmental Engineering, 2017,11(9):5207-5212.
    [17]
    JIANG L, HU S, XU K , et al. Formation,fates and roles of catalytic precursors generated from the K2CO3-carbon interactions in the K2CO3-catalyzed CO2 gasification of coal char[J]. Journal of Analytical and Applied Pyrolysis, 2017,124:384-392.
    [18]
    KOPYSCINSKI J, RAHMAN M, GUPTA R , et al. K2CO3 catalyzed CO2 gasification of ash-free coal interactions of the catalyst with carbon in N2 and CO2 atmosphere[J]. Fuel, 2014,117:1181-1189.
    • Relative Articles
    • Supplements(0)
    • Cited By
  • 加载中

Catalog

    通讯作者: 陈斌, bchen63@163.com
    • 1. 

      沈阳化工大学材料科学与工程学院 沈阳 110142

    1. 本站搜索
    2. 百度学术搜索
    3. 万方数据库搜索
    4. CNKI搜索
    Get Citation
    PDF
    XML

    Article Metrics

    Article Views(543) PDF Downloads(151) Cited by()
    Proportional views
    Related

    Copyright © Editorial Department of Journal of Environmental Engineering Technology

    京ICP备05031605号-2

    Supported by: Beijing Renhe Information Technology Co., Ltd.

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return