Firehiwot Azene scite author profile

Firehiwot Azene

2Publications

40Citation Statements Received

45Citation Statements Given

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Council for Geoscience

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A concrete reactive barrier for acid mine drainage treatment

Ekolu

Azene

Diop

2014

Proceedings of the Institution of Civil Engineers - Water Manag

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Pervious concrete was investigated for potential use as a permeable reactive barrier (PRB) for treatment of acid mine drainage (AMD). Pervious concrete mixtures of various water/cement ratios (0·50, 0·40, 0·35, 0·30, 0·27) and cement contents (300, 360, 380, 400 kg/m3) were prepared. Dolomite and granite aggregate types, size 9·5 mm, were employed. The tests performed were density, compressive strength and porosity. Water treatment was determined by analysis of the influent and effluent AMD after passage through the pervious concrete. It was found that a filter thickness of at least 500 mm was required to increase the pH of acidic mine water from 2·8 to between 5 and 7, and achieve a corresponding reduction in electrical conductivity. When used in the filter mix design, the granite aggregate gave better treatment performance in comparison with the dolomite aggregate. The concrete PRB treatment led to the effective removal of major metals from the AMD. The treatment reduced the metals in the AMD by 30% sulfate, 99% iron, 50–83% manganese, 85% calcium and 30% total dissolved solids. There was, however, a noticeable increase in magnesium concentration in the water effluent 49–66%. These results are short-term tests and further work is in progress to investigate the system's life expectancy.

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Disintegration of concrete construction induced by acid mine drainage attack

Ekolu

Diop²,

Azene

et al. 2016

J. S. Afr. Inst. Civ. Eng.

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This paper presents findings from microanalytical investigation conducted on disintegrated concrete that had been used to construct a weir within a coal mine in South Africa. The concrete was in contact with polluted mine water, commonly referred to as acid mine drainage (AMD). Accordingly, the weir had been exposed to AMD decant which led to disintegration of concrete due to chemical attack. Investigations were conducted by optical microscopy (OM), scanning electron microscopy (SEM) equipped with energy dispersive X-ray spectrometry (EDX), and X-ray diffraction (XRD). The field samples examined consisted of soft, broken concrete chunks and a whitish powdery substance that had crystallised and formed a surface coating on certain cracked locations on the deteriorated concrete. No evidence of pyrite oxidation was found in the investigation. The observed deterioration is discussed in relation to acid attack mechanism and its possible co-existence with external sulphate attack process.

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Firehiwot Azene

A concrete reactive barrier for acid mine drainage treatment

Disintegration of concrete construction induced by acid mine drainage attack

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