(1. 江西農(nóng)業(yè)大學(xué) 理學(xué)院, 南昌 330045;
2. 江西農(nóng)業(yè)大學(xué) 應(yīng)用化學(xué)研究所, 南昌 330045)
摘 要: 采用一種新的串級(jí)萃取方式——萃取預(yù)分離法分離富銪中釔礦的新工藝。 原料首先流入十幾的三出口預(yù)先粗分離工藝, 其萃余液La~Gd(TbDy) 直接流入Nd/Sm工藝; 中間出口流入(Gd)Tb~HoY(Er)Gd~Dy/Ho~LuY細(xì)分離工藝; 出口負(fù)載有機(jī)相(Ho)Er~LuY流入Gd~Dy/Ho~LuY的洗滌段。 結(jié)果表明, 新工藝的粗分離工藝將占原料約70%的La~Gd(TbDy)預(yù)分離掉, 使流入Gd~Dy/Ho~LuY工藝的稀土量減少約70%; 由于Gd~Dy/Ho~LuY分組的萃余液GdTbDy含Ho2O3小于0.03%, 省去原工藝的GdTbDy/HoY分離; 新工藝的處理能力提高30%, 酸堿消耗減少20%以上, 貴重稀土元素Eu和Tb的存槽量大大減少。
關(guān)鍵字: 富銪中釔礦; 萃取工藝; 萃取預(yù)分離法; 稀土
( 1. College of Science, Jiangxi Agricultural University, Nanchang 330045, China;
2. Institute of Applied Chemistry, Jiangxi Agricultural University,
Nanchang 330045, China)
Abstract: A new pre-separation extraction method and a new separation process for the rare earth mineral with middle Y and rich Eu were introduced. The first step of the new process is a pre-separation extraction process of three outlet with number of stages more 10, the raffinate La~Gd(TbDy) directly flows into separation process of Nd/Sm. The (Gd)Tb~HoY(Er) of middle outlet is used as aqueous feed of Gd~Dy/Ho ~LuY process, the extract loaded (Ho)Er~LuY directly flows into the scrubbing section of the Gd~Dy/Ho ~LuY process. As a result, the pre-separation extraction process of the new process separates out the La~Gd(TbDy), and the content in raw material is approximately 70% from raw material, the feed flowing into Gd~Dy/Ho~ LuY process decreases approximately 70%. Due to the Ho2O3 content in the raffinate of the Gd~Dy/Ho~LuY process less than 0.03%, the separation GdTbDy/ HoY of the GdTbDy(HoY) concentrate from original process is leaved out. While the process handling capacity with the new process increases more 30%, the consumption of chemical reagents including HCl and NH3 decreases 20%, the hold capacity of valuable rare earth element Eu and Tb reduces largely.
Key words: middle Y and rich Eu mineral; extraction separation process; pre-separation extraction method; rare earth
