Pemisahan Perak dari Limbah Fotorontgen dengan Teknik Membran Cair Berpendukung Menggunakan Pengemban Gabungan TBP dan D2EHPA

Yeti Kurniasih, Ahmadi Ahmadi, Baiq Asma Nufida
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引用次数: 1

Abstract

The photorontgen process produces waste that is harmful to the environment because it contains silver ions that are toxic to living organisms. The silver content in photorontgent waste is 2000 mg / L, while the permissible threshold value for silver in aquatic is 0.1 - 1.0 mg / L, so the disposal of photorontgent waste into the waters will be dangerous. However, silver metal has high economic value so that silver metal separation from x-ray waste is required, in addition to reducing the environmental burden due to silver metal pollution, it is also expected to reuse the silver metal economically. The technique of separation that can be used is a supported liquid membrane (Supported Liquid Membrane, SLM). This technique has the advantage that its separation process is relatively easy because the extraction and stripping process takes place in one stage, the carrying solution as extractant is more stable in the supporting membrane and the amount of extractant required is small. This research studies the effect of waste dilution factors on the effieciency separation of silver from photorontgen waste. Separation was carried out at the optimum SLM condition by using combined carrier compound TBP and D2EHPA with a ratio of 0.25: 0.75, total concentration of 1 M in kerosene and 0.1 M HNO3 as stripping phase. Sample waste was diluted by a factor dilution 25, 50, 75 and 100 times. Measurement of metal content before and after separation is done with AAS. The results showed that the waste dilution factor influenced the efficiency of silver trasnpor through SLM. Percent of silver separation was obtained 21.33% in waste with 100 times dilution.
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银与Fotorontgen废物的分离与液体膜支持技术使用TBP和D2EHPA复合光圈
光生过程产生的废物对环境有害,因为它含有对生物体有毒的银离子。光致光剂废物中的银含量为2000 mg / L,而水中银的允许阈值为0.1 - 1.0 mg / L,因此将光致光剂废物排入水中将是危险的。然而,金属银具有很高的经济价值,因此需要从x射线废物中分离金属银,除了减少金属银污染造成的环境负担外,还有望经济地重新利用金属银。可使用的分离技术是支撑液膜(supported liquid membrane, SLM)。该技术的优点是分离过程相对简单,因为提取和剥离过程在一个阶段进行,作为萃取剂的携带溶液在支撑膜中更稳定,所需的萃取剂量少。本文研究了不同稀释系数对光原废液中银分离效率的影响。以TBP和D2EHPA为复合载体化合物,以0.25:0.75的比例,煤油中总浓度为1 M,提馏相为0.1 M的HNO3,在最佳SLM条件下进行分离。样品废弃物分别用25倍、50倍、75倍和100倍的倍数稀释。采用原子吸收光谱法测定分离前后的金属含量。结果表明,废液稀释系数对银通过SLM的传输效率有影响。在100倍稀释条件下,废银的分离率为21.33%。
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