dc.description.abstract |
Acid mine drainage (AMD) is one of the major problems in high sulfur coal mining areas
generating acidic water. The acidic mine water generated contains hazardous elements in
varying concentrations. The AMD is naturally occurring in the abandoned coal mine.
Samples have been collected from abandoned mine and active opencast coal mines of the
Northern Coalfield Limited, Singrauli (India), in order to know, the water quality in the
aqueous leaching experiment. The analysis of water was at laboratory scale analyzed by
analytical techniques ICP-ES, AAS. Overburden and flyash sample have been collected
from various opencast mines of NCL and Thermal Power Plants of Singrauli Coalfield. The
characterization of overburden and flyash has been done using standard available
techniques SEM, XRF, and X-ray diffraction. The geochemical (soil and leachability
potential) and mineralogical characterization of overburden (OB), flyash and mixture of
overburden and flyash samples was carried out to assess their suitability for dumping in pit
suffering from acid mine drainage. The experiment was done at the laboratory scale. The
present laboratory study has been useful in relating the characteristics of aqueous leaching
from coal and mine overburden with the natural weathering condition at the coal mine area.
Flyash, Overburden and overburden+30% Flyash samples were found to be mostly
alkaline. The detail of mineral phases of the Flyash, overburden and overburden + 30%
flyash mixture were confirmed by the XRF and XRD elemental mapping. The mineral peak
of XRD include essential minerals SiO₂, Fe₂O₃, CaO, and Al₆SiO₂. The mineral phases of
XRF include essential minerals Al₂O₃, FeO, CaO, K₂O, MgO, MnO and SiO₂. Reasonable
pozzolanic activity of flyash with overburden has been confirmed in some of the SEM
images as glassy fibrous particles observed. The overburden 70% + flyash 30% samples
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were observed in SEM images to have micro-cracks and pores which confirms that
increasing of permeability after addition of flyash.
Water quality analysis was studied where analysis using standard procedures involved the
detection of some parameters on-site using a Multi-Parameter water quality analyzer. In the
laboratory, water samples were analyzed using an atomic absorption spectrophotometer
and Inductively Coupled Plasma Mass Spectrophotometer. The result indicates that the
water is acidic, neutral and slightly alkaline in nature in most part of Singrauli coalfield.
However, acidic water has been observed in the voids of the Gorbi abandoned mine,
Amlohri opencast mine, and the Jhingurdah opencast mine. Whereas, alkaline water has
been found in Dudhichua opencast mine. The major water types are found to be calcium -
magnesium - sulphate and calcium - bicarbonate in Singrauli coalfield. The Physicochemical parameters of groundwater of Singrauli coalfield found to be under the
permissible limits. After laboratory investigation, the groundwater quality were found to
be well within permissible limits in the study area. The ions, heavy metals, and other
elements were found to be in low concentration in the monsoon season than pre-monsoon
due to dilution effect caused by rain and surface runoff. In both season pre-monsoon and
post-monsoon of water quality analysis of the samples reveals low pH and high
concentrations of TDS, iron, lead and manganese in some samples in the Singrauli
coalfield. Similarly, some heavy metal has been found in the permissible limit in samples
of Singrauli coalfield in pre-monsoon and monsoon season. In this research work, an
attempt, therefore, has been made to suggest mitigation measures and the ways how to
manage the pollutants in a way so that the ecosystem of the area gets least disturbed by the
associated mining activity. The laboratory investigation of the R-pH value of overburden
and flyash indicates that the flyash and overburden (sandstone) both have appreciable
neutralization potential and may effectively be used for neutralization of acid water ofmine. The use of Flyash and waste rock will further improve the water quality which may
be gainful utilized. The above study on laboratory scale suggests that the acid-neutralizing
property of flyash and overburden will be an asset for coal mines suffering from slight to
moderate acid drainage problem both at exploitation and abandoned stages. Acid mine
drainage is widely recognized as the single largest environmental issues faced by global
mining Industries. Successful management of acid mine drainage at exploitation stage can
play a significant role in improving the ecosystem of adjoining surrounding as well as the
long-term sustainability of mine site. |
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