毒砂

The contamination of water by arsenic might result from oxidation of arsenopyrite.

毒砂氧化溶解和释放的砷将对周围水体造成污染。

The arsenopyrite is the main carrier mineral of gold.

毒砂为主要含As矿物，也是最重要的载金矿物。

Is found mainly in the form of arsenopyrite and As-containing pyrite.

矿石中有害元素砷主要以毒砂和含砷黄铁矿的矿物形式存在。

After heated by microwave the specific surface of arsenopyrite, pyrite and gold concentrate have been improved to different extent.

经微波加热后，毒砂、黄铁矿、金精矿的比表面积都有不同程度的提高。

While Cu~(2+) has less activation effect on arsenopyrite.

而Cu2+对毒砂的活化作用较小。

In this paper, the oxidation and dissolution process of arsenopyrite was run under the action of acidic surface water in the temperature range of 15~45℃by using the mixed-flow reactor.

本文用混合流流动反应器研究了毒砂在温度为15、25、35和45℃的FeCl3酸性地表水作用下的氧化溶解过程。

After 10 d and 15 d of bacterial oxidation of dearsenication, the final dearsenication rates of gold concentrate and arsenopyrite mineral were 93.90% and 64.45%,respectively.

经过10 d和15 d的细菌氧化脱砷，金精矿和毒砂的最终脱砷率分别达到93.90%和64.45%。

Zhang Hongen and Li Guangming, Surface chemical studies of Cu ion adsorption on arsenopyrite.

毒砂吸附铜离子的表面化学研究，20届细粒学会年会，美国

The flotation behavior of marmatite and arsenopyrite and the effects of Cu2 and organic depressant PALA on their floatability were studied.

通过浮选试验研究铁闪锌矿和毒砂在丁黄药作用下的浮选行为，以及Cu(上标 2+)和有机抑制剂PALA对它们可浮性的影响。

At the choosed conditions, oxidation rate of pyrite and arsenopyrite is 71.0% and 92.4% and decompound rate of nickel sulphide can reach to 88.8%.

在选定的工艺条件下，细菌对载金矿物黄铁矿、毒砂的分解率分别达到71.0%和92.4%；对硫化镍的分解率达到88.8%。

The split between the two groups can hardly be papered over.

这两个团体间的分歧难以掩饰。

This approach not only encourages a greater number of responses, but minimizes the likelihood of stale groupthink.

这种做法不仅鼓励了更多的反应，而且减少跟风的可能性。