摘要
报道某含铊黄铁矿矿石和各工艺过程产物中铊的含量和分布 ,各类矿石中铊含量范围 10 .0~ 5 6 .4× 10 -6;尾砂矿中铊含量约 5 0× 10 -6;炉渣中铊含量范围 2 1.7~ 4 5 .4× 10 -6;炉灰中铊含量 30 .2~ 6 8.1× 10 -6;矿区山泉水中铊含量 0 .35~ 7.86× 10 -9;选矿水中铊含量 4 .82× 10 -9;自来水中铊含量 10~ 30× 10 -12 ;硫酸厂解析水中铊含量5 5 .2~ 4 5 0× 10 -9;炉尘冲洗水中铊含量 17.1~ 37.9× 10 -9;炉渣冲洗水中铊含量 4 .2 2× 10 -9;排放水中铊含量 9.30~ 2 1.6× 10 -9.根据这些数据 ,讨论了铊在自然环境中的迁移、转化、扩散过程和生态污染 ,提出了在含铊矿产资源利用过程中 ,必须高度重视铊的环境污染效应和后果 ,采取必要的预防污染措施 ,同时应积极开展治理技术研究 .
Thallium concentrations of the pyrite containing thallium and some kinds of products in the sulphuric acid factories have been determined. Thallium concentrations ranged from 10.0×10 -6 to 56.4×10 -6 in various kinds of pyrite, about 50×10 -6 in the pyrite tailings, from 21.7×10 -6 to 45.4×10 -6 in the sulphuric acid residues, from 30.2×10 -6 to 68.1×10 -6 in the furnace dusts, from 0.35×10 -9 to 7.86×10 -9 in the mine spring waters, 4.82×10 -9 in the mineral_dressing water, from 10×10 -12 to 30×10 -12 in the main_waters at the mine, from 55.2×10 -9 to 450×10 -9 in the stripping waters in the sulphuric acid factories, from 17.1×10 -9 to 37.9×10 -9 in the furnace dust waters, 4.22×10 -9 in the slag water and ranged from 9.30×10 -9 to 21.6×10 -9 in the discharge waters. Based on these data, thallium migration, transformation, diffusion processes and ecological pollution in the environment were discussed. It is suggested that the government should pay great attention to environmental thallium pollution and its consequence, take preventive measures and make actively harnessing technique research.
出处
《广州大学学报(自然科学版)》
CAS
2002年第3期62-66,共5页
Journal of Guangzhou University:Natural Science Edition
基金
广东省科技攻关项目 (99M0 5 3 0 1G)
广州市教育局资助
