An analytical method for precious metal content determination in the components of waste electrical and electronic equipment

被引:0
|
作者
Hala, Bozena [1 ]
Turkowska, Magdalena [2 ]
Berezecka, Karolina [1 ]
Strawa, Ewa [3 ]
机构
[1] Inst Nowych Syntez Chem, Oddzial Chem Nieorganicznej IChN, Gliwice, Poland
[2] Inst Nowych Syntez Chem, Oddzial Chem Nieorganicznej IChN, Lab Analitycznego, Gliwice, Poland
[3] Inst Nowych Syntez Chem, Zakladzie Wspomagania Badan, Pulawy, Poland
来源
PRZEMYSL CHEMICZNY | 2016年 / 95卷 / 02期
关键词
PLATINUM-GROUP ELEMENTS; PLASMA-MASS SPECTROMETRY; SEPARATION; RECOVERY;
D O I
暂无
中图分类号
O6 [化学];
学科分类号
0703 ;
摘要
Known test methods were used for detn. of Ag, Au, Pd, Pt in the title waste materials. Model solns. of the precious metals and waste matrix elements (Al, Cu, Fe, Zn) were used for confirmation of the method efficiency. The analytes were sepd. from the matrix model solns. by copptn. on Ni and Te substrates and ion exchange with strongly basic anion exchange resins. The pptn. with dimethylglyoxime was effective for sepn. of Pd only. The inductively coupled plasma optical emission spectroscopy was used as anal. tool.
引用
收藏
页码:293 / 296
页数:4
相关论文
共 50 条
  • [1] Assessment of Precious Metal Flows During Preprocessing of Waste Electrical and Electronic Equipment
    Chancerel, Perrine
    Meskers, Christina E. M.
    Hageluken, Christian
    Rotter, Vera Susanne
    JOURNAL OF INDUSTRIAL ECOLOGY, 2009, 13 (05) : 791 - 810
  • [2] Precious Metal Recovery from Waste Electrical and Electronic Equipment through Oxidative Refining
    Park, Eunmi
    Kim, Minji
    Pin, Min-Wook
    Park, Hyunsik
    Kim, Yong-Hwan
    RECYCLING, 2023, 8 (05)
  • [3] An efficient and fast analytical procedure for the bromine determination in waste electrical and electronic equipment plastics
    Taurino, R.
    Cannio, M.
    Mafredini, T.
    Pozzi, P.
    ENVIRONMENTAL TECHNOLOGY, 2014, 35 (24) : 3147 - 3152
  • [4] THE IDENTIFICATION OF PRECIOUS METAL SOURCES IN ELECTRICAL AND ELECTRONIC WASTE BY MEANS OF STEREOMICROSCOPY
    Degeratu, Danut
    METALURGIA INTERNATIONAL, 2012, 17 (01): : 102 - 105
  • [5] Exploration of the material distribution of complex components in waste electrical and electronic equipment
    Jandric, A.
    Tran, C. D.
    Beigl, P.
    Micuda, Z.
    Salhofer, S.
    GLOBAL NEST JOURNAL, 2018, 20 (04): : 725 - 736
  • [6] RECOVERY OF PRECIOUS METALS FROM WASTE ELECTRONIC EQUIPMENT
    Stefanut, Mariana Nela
    Urmoesi, Zoltan
    Fitigau, Firuta
    Cata, Adina
    Sfirloaga, Paula
    Pop, Raluca
    Tanasie, Cristian
    Boc, Daniel
    ENVIRONMENTAL ENGINEERING AND MANAGEMENT JOURNAL, 2013, 12 (05): : 1023 - 1029
  • [7] ECOLOGICAL COMPOSITE WITH GLASS FROM WASTE ELECTRICAL AND ELECTRONIC EQUIPMENT CONTENT
    Corbu, Ofelia
    Popovici, Antonela
    Popita, Gabriela-Emilia
    Rusu, Tiberiu
    Rosu, Cristina
    Puskas, Attila
    GEOCONFERENCE ON NANO, BIO AND GREEN - TECHNOLOGIES FOR A SUSTAINABLE FUTURE, VOL II (SGEM 2014), 2014, : 81 - 88
  • [8] Recycling waste electrical and electronic equipment
    Wade, M
    MEASUREMENT & CONTROL, 2005, 38 (07): : 212 - 212
  • [9] Determining Metal Content in Waste Printed Circuit Boards and their Electronic Components
    Anic-Vucinic, Aleksandra
    Bedekovic, Gordan
    Sarc, Renato
    Premur, Vitomir
    JOURNAL OF SUSTAINABLE DEVELOPMENT OF ENERGY WATER AND ENVIRONMENT SYSTEMS-JSDEWES, 2020, 8 (03): : 590 - 602
  • [10] OPTIMIZATION OF ELECTRICAL LOAD OF COMPONENTS OF ELECTRONIC EQUIPMENT
    ALEKSEYEV, OG
    BURLAKOV, EA
    TELECOMMUNICATIONS AND RADIO ENGINEERING, 1975, 29 (12) : 121 - 126
12345