1) acid mine drainage
酸性矿坑废水
1.
A new bacterial strain,designated as strain DX1-1,was isolated from acid mine drainage of Dexing mine,Jiangxi Province,China.
从取自江西德兴铜矿的酸性矿坑废水中分离出一株菌株(DX1-1),对其形态特征、生理生化、底物利用等特性进行了分析,结果表明该菌具有兼性菌的典型特征。
2.
This technique produces less air pollution and damage to geological formations, but mining companies should be careful of pollution that may generate from 'acid mine drainage' .
这种方法对空气产生的污染少,对地质构成的破坏小;但产生酸性矿坑废水(AMD:Acid Mine Drainage)污染水体。
2) acid mine drainage
酸性矿坑水
1.
Diversity of microbial community in acid mine drainage in ancient mine area;
古矿井区域酸性矿坑水微生物群落的多样性
2.
Mining activities result in the formation of a widespread environmental problem known as acid mine drainage (AMD), which results from chemical and biological oxidation of exposed sulfide minerals.
采矿活动使金属硫化矿大量暴露于地表,经过自然与生物的氧化作用导致酸性矿坑水(AMD)的产生,并造成严重的环境污染。
3) pit waste water
矿坑废水
1.
The maximum amounts of pit waste water and tailings reservoir waste water can reach 800 m~3/h .
产生的矿坑废水、尾矿库废水最高可达800m~3/h。
4) acid mine drainage
酸性矿坑排水
1.
Schwertmannite was found in the sediment of acid mine drainage from the Malan coal mine,Shanxi Province,China.
采用X射线衍射(XRD)、扫描电镜与能谱(SEM-EDX)、X射线荧光(XRF)、傅立叶红外光谱(FT-IR)、热分析(DTA-TG)等分析方法,在我国山西马兰煤矿的酸性矿坑排水(AMD)沉淀物中首次发现了“斯沃特曼铁矿”(Schwertmannite)。
2.
Pyrite oxidation at mine sites has been blamed for the acid mine drainage(AMD),which becomes a long term environmental problem in the basin scale.
矿山环境中因硫化矿物氧化,导致采矿产生大量的酸性矿坑排水。
5) acid mine drainage
酸性矿山废水
1.
Technology of acid mine drainage treatment by sulfate-reducing bacteria and consideration thereof;
硫酸盐还原菌处理酸性矿山废水的技术及思考
2.
The breakdown of leaf litter in a stream impacted by acid mine drainage;
树叶凋落物在受酸性矿山废水污染溪流中的分解
3.
The technology of treating acid mine drainage and its developmental prospects;
酸性矿山废水处理技术及其发展前景
6) AMD
酸性矿山废水
1.
The Functions of Microorganism in the Formation and Treatment of Acidic Mine Drainage (AMD);
微生物在酸性矿山废水形成与治理中的作用
2.
This paper introduces two major(applications) of iron bacteria,acid mine drainage(AMD) treatment and municipal water treatment.
本文主要介绍了铁细菌在水处理方面的两个主要应用方向———酸性矿山废水的处理和城市用水的处理。
补充资料:焦化厂含酚氰废水处理设计(见含酚氰废水处理设计)
焦化厂含酚氰废水处理设计(见含酚氰废水处理设计)
design of phenolic and cyanic waste water treatment for coking plant
J iaohuaehang honfenging feishui ehuli sheji焦化厂含酚氛废水处理设计(design of phe-nolie and eyanie waste water treatment foreoking plant)见含酚氛度水处理设计。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条