淡江大學機構典藏:Item 987654321/109428
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    Please use this identifier to cite or link to this item: https://tkuir.lib.tku.edu.tw/dspace/handle/987654321/109428


    Title: Copper recovery via polyelectrolyte enhanced ultrafiltration followed by dithionite based chemical reduction: Effects of solution pH and polyelectrolyte type
    Authors: Yi-Hsuan Chou;Kwang-Ho Choo;Shiao-Shing Chen;Jui-Hsuan Yu;Ching-Yu Peng;Chi-Wang Li
    Keywords: PEUF;chemical reduction;copper recovery;polyelectrolytes;retentate
    Date: 2018-06-08
    Issue Date: 2017-02-14 02:11:14 (UTC+8)
    Publisher: Pergamon Press
    Abstract: A chemical reduction process was proposed to recover copper from the retentate of polyelectrolyte enhanced ultrafiltration (PEUF). Three polyelectrolytes (PSS, PAA, and PEI) containing various functional groups and molecular weights were studied to explore their effects on the copper removal in PEUF and on the copper recovery by chemical reduction under various pH conditions. With PSS which contains sulfonic group, copper was removed reasonably well (ca. 75%) by PEUF even under acidic pH value of 3. With PAA which contains carboxylic group, copper removal was a bit low (∼60%) under pH 3.0 but increased substantially at pH 4.0. A branched PEI having amine group achieved the highest Cu removal of 94% at pH 3. The copper removal efficiency decreased slightly with increasing pH due to the high permeation of PEI through membrane.

    Chemical reduction achieved the complete copper recovery for solution containing PSS. The copper recovery efficiencies were more than 95% for PAA solution with pH values ranging from 3 to 9 at reaction time of one hour. For PEI, the recovery efficiencies ranged from 20∼96% and were pH dependent. Aggregated and settled readily copper particles were produced by chemical reduction in PSS solution. XRD analysis identified cuprous oxide in all of the samples. Dependent of pH and polyelectrolytes, additional peaks matching those of elemental copper were identified. TGA analysis showed that solids produced from PSS and PAA systems contained no polyelectrolytes while solid collected from PEI system contained 32% of polyelectrolyte.
    Relation: Separation and Purification Technology 198, p.113-120
    DOI: 10.1016/j.seppur.2017.02.008
    Appears in Collections:[Graduate Institute & Department of Water Resources and Environmental Engineering] Journal Article

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