Synthesis of Rare Earth Compounds from Phosphor Coating of Spent Fluorescent Lamps

Separation & Purification Reviews Pub Date : 2021-01-02 DOI:10.1080/15422119.2020.1754240

A. Anand, Randhir Singh

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引用次数: 7

Abstract

ABSTRACT Ultraviolet (UV) rays are produced during operation of fluorescent lamps (FLs). Fluorescent coating, also known as phosphor, converts UV rays to visible light. Various chemical compounds, individually or mixed in certain weight ratio, are used as phosphor. Phosphor prepared from rare earth (RE) compounds is energy-efficient. Various components including phosphor are meant to be recycled from FLs once they cease to operate. Review of literatures related to recycling of phosphor suggested that few papers were published prior to 2009. However, there was avalanche of relevant research articles in the next decade. Although RE phosphors were developed in 70s, their use in FLs gained market only after 2009 when energy protection agency passed a resolution to increase the efficiency of the lamps. In the last decade, researchers have done massive work on recycling of phosphor. In the mean time, they switched from one extractive technique to another to overcome the limitations of the former process. In this review, we have investigated the need of switching from one technique to another. We discovered the gaps in these literatures and proposed what needs to be done to fill these gaps. Flow-sheets prepared by compiling the most efficient techniques have been proposed at the end.

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废荧光灯荧光粉涂层合成稀土化合物

紫外线(UV)是在荧光灯(fl)工作时产生的。荧光涂层，也被称为荧光粉，将紫外线转化为可见光。各种化合物单独或按一定重量比例混合，用作荧光粉。稀土(RE)化合物制备的荧光粉具有较高的能源效率。包括荧光粉在内的各种成分，一旦荧光粉停止运行，就会从荧光粉中回收。查阅有关荧光粉回收利用的文献发现，2009年以前发表的论文很少。然而，在接下来的十年里，相关的研究文章如雪崩般涌现。虽然RE荧光粉是在70年代开发的，但直到2009年能源保护机构通过决议提高灯的效率后，它们在萤光灯中的应用才获得市场。在过去的十年里，研究人员在荧光粉的回收利用方面做了大量的工作。与此同时，他们从一种提取技术切换到另一种，以克服前一种工艺的局限性。在这篇综述中，我们研究了从一种技术转换到另一种技术的必要性。我们发现了这些文献中的空白，并提出了需要做些什么来填补这些空白。最后提出了通过汇编最有效的技术编制的流程表。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Separation & Purification Reviews

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