Abstract:Sintered slag of pyrite is a kind of solid waste which is forbidden to be imported in China. Since the appearance and element composition are very close to hematite, its attribute should be accurately identified. The sample characteristics were comprehensive characterized in experiments by the means of X-ray fluorescence spectrometry (XRF), X-ray diffraction (XRD), scanning electron microscope (SEM), bulk density analysis and pH detection. Compared with the hematite, the sintered slag of pyrite had the following characteristics: (1) the main elements were Fe, Si, Al, S; S content was usually higher than that of hematite; (2) the phases mainly included hematite (Fe2O3), magnetite (Fe3O4) and silica (SiO2), and a small amount of pyrite (FeS2) as well as a small amount of sulfate phases such as semi-hydrated gypsum (Ca(SO4)(H2O)0.5) and gypsum (CaSO4·2H2O); the sulfates such as gypsum were rare minerals in hematite; (3) SEM and XPS analysis showed that the sample contained many spherical particles of Fe2O3, which were very tiny and often agglomerated; (4) the pH of aqueous leaching solution was 4, showing weakly acidic; (5) the bulk density was less than 1.60 t/m3. The solid waste attribute of sintered slag of pyrite could be accurately identified according to the characteristics above.
[1] 冯均利,吴景武,余淑媛,等.进口含铁物料固体废物属性鉴别的探讨[J].冶金分析,2018,38(2):18-24. FENG Junli,WU Jingwu,YU Shuyuan,et al.Discussion on identification of solid waste in imported iron-containing material[J].Metallurgical Analysis,2018,38(2):18-24. [2] 唐梦奇,阮贵武,刘国文,等.湿法炼锌浸出渣和黄钾铁矾渣的鉴别[J].冶金分析,2016,36(12):13-17. TANG Mengqi,RUAN Guiwu,LIU Guowen,et al.Identification of leaching residue of zinc hydrometallurgy and jarosite residue[J].Metallurgical Analysis,2016,36(12):13-17. [3] 李丽,郝雅琼.含铁量高的电弧炉烟尘固体废物综合表征[J].冶金分析,2018,38(1):24-28. LI Li,HAO Yaqiong.Solid waste identification of electric arc furnace dust containing high content iron[J].Metallurgical Analysis,2018,38(1):24-28. [4] 张庆建,占发旺,高瑞刚,等.富铁原料物相鉴别研究[J].冶金分析,2017,37(11):69-74. ZHANG Qingjian,ZHAN Fawang,GAO Ruigang,et al.Study on phase identification of iron-rich raw materials[J].Metallurgical Analysis,2017,37(11):69-74. [5] 管嵩,丁仕兵,郭兵,等.某未知含铁物料固体废物属性鉴别研究[J].再生资源与循环经济,2013,6(7):37-38. GUAN Song,DING Shibing,GUO Bing,et al.Identification of an unknown iron-containing material[J].Renewable Resources and Recycling Economy,2013,6(7):37-38. [6] 管嵩,胡首鹏,郭兵,等.某含铁物料固体废物属性鉴别研究[J].再生资源与循环经济,2014,7(10):33-35. GUAN Song,HU Shoupeng,GUO Bing,et al.Identification of an iron-containing material[J].Renewable Resources and Recycling Economy,2014,7(10):33-35. [7] 赵伟,封亚辉,戴东情,等.冶炼钢铁过程中多种固体废物的鉴别[J].冶金分析,2015,35(10):49-53. ZHAO Wei,FENG Yahui,DAI Dongqing,et al.Identification of various solid wastes in the iron and steel smelting process[J].Metallurgical Analysis,2015,35(10):49-53. [8] 于淑媛,李勇,刘东,等.一例进口“铁矿”的属性鉴别研究[J].化工管理,2019(12):113-116. YU Shuyuan,LI Yong,LIU Dong,et al.Research on identification of an imported “iron ore” [J].Chemical Enterprise Management,2019(12):113-116. [9] 阮积海,覃洁,宁玲.芬兰焙烧黄铁矿在烧结工艺的综合利用[J].广西节能(Guangxi Jieneng),2009(2):30-31. [10] 朱申红,吴德礼,孟娟.黄铁矿烧渣的综合利用途径与问题分析[J].青岛建筑工程学院学报,2005,26(1):25-29. ZHU Shenhong,WU Deli,MENG Juan.Methods and problems in the comprehensive utilization of pyrite firing residue[J].Journal of Qingdao Institute of Architecture and Engineering,2005,26(1):25-29. [11] 刘之能,任佳,方昊,等.从硫酸烧渣中获取高品位铁精矿的技术[J].矿冶,2015,24(6):83-86. LIU Zhineng,REN Jia,FANG Hao,et al.Technology of obtaining high-grade iron concentrate from pyrite cinders[J].Mining and Metallurgy,2015,24(6):83-86. [12] 王全亮,宁平,陈述明.黄铁矿制酸烧渣生产铁精粉试验工艺研究[J].湖南有色金属(Hunan Nonferrous Metals),2006,22(2):4-6. WANG Quanliang,NING Ping,CHEN Shuming.Study on recovering iron concentrate from pyrite cinders[J]. Hunan Nonferrous Metals,2006,22(2):4-6. [13] 徐建林,李元坤,史光大,等.硫铁矿焙烧及反应过程的初步研究[J].矿产综合利用,2012,6(3):46-48. XU Jianlin,LI Yuankun,SHI Guangda,et al.Preliminary study on roasting and reaction process of pyrite[J]. Multipurpose Utilization of Mineral Recources,2012,6(3):46-48.
