摘要
这是个正在工作的地区,文中描述的状况可供有关人员研究。该矿赋存于二叠系茅口组硅质岩段(孤峰层)中,层位稳定,并有一定品位和规模。伴生组分钒、铝可供综合利用。硒主要呈分散状态分布于有机碳中,推测硒以吸附状态存在,少部分硒呈类质同象形式分布于黄铁矿中。
This is an area under investigation, and what is discussed in this paper is only for researchers' reference. The mineralized area is located in the middle of the northeastern sector of Upper Yangtze platformal folded belt in the Yangtze paraplatform and the northwestern limb of the Shuanghe syncline, with dip of strata 155-172° and dip angle 52-65°. The exposed strata are mainly Triassic at the core of the syncline and Permian, Carboniferous, Devonian and Silurian on the two limbs, Fractural structures are not well-developed in the ore district, and no magmatic rocks are seen. The ore deposit occurs in Siliceous portion (Gufeng layer) of Permian Maokou Formation. The orebearing sequence is mainly a suite of neritic black thin-layered carbonaceous siliceous rocks some 13 m in thickness intercalated at some places with thinlayered siliceous carbonaceous shale and sapropelic coal. The overlying strata are Permian Wujiaping coal-bearing member which shows unconformable contact with the ore-bearing bed; the underlying strata are limestone member of Maokou Formation in conformable contact with the ore-bearing bed. Orebodies are in layered form and consistent with the strata in attitude, with the length over 3 km and thickness 8-10m or so. Selenium ore itself is a sort of fuel (stone coal). The refinement proceeds as follows: the selenium ores are first pilod up and burned, and selenium-rich soot (with Se content 19.96-23.31%) is collected from flue settlement chamber, and then selenium is extracted from the soot. A series of experiments demonstrate that selenium is mainly scattered in organic carbon, and it is inferred that selenium exists mostly in adsorption form with a small part distributed in micrograined or fine-grained pyrite as isomorphous composition. A few individual selenium minerals, such as achavalite-klockmannite (?), are observed. The associated composition vanadium and molybdenum can be utilized comprehensively.
出处
《矿床地质》
CAS
CSCD
北大核心
1989年第3期83-89,共7页
Mineral Deposits
