Removal of sulphates from South African mine water using coal fly ash

Godfrey Madzivire

January 2009

<p>This study evaluated SO4 2- removal from circumneutral mine water (CMW) collected from Middleburg coal mine using coal FA collected from Hendrina power station. The following parameters were investigated: the effect of the amount of FA, the effect of the final pH achieved during treatment, the effect of the initial pH of the mine water and the effect of Fe and Al on SO4 2- removal from mine water. The precipitation of ettringite at alkaline pH was evaluated to further reduce the SO4 2- concentration to below the DWAF limit for potable water. Removal of SO4 2- from mine water was found to be dependent on: the final pH achieved during treatment, the amount of FA used to treat the mine water and the presence of Fe and Al in the mine water. Treatment of CMW using different CMW:FA ratios / 5:1, 4:1, 3:1, and 2:1 resulted in 55, 60, 70 and 71 % SO4 2- removal respectively. Treatment of CMW to pH 8.98, 9.88, 10.21, 10.96, 11.77 and 12.35 resulted in 6, 19, 37, 45, 63 and 71 % SO4 2- removal respectively. When the CMW was modified by adding Fe and Al by mixing with Navigation coal mine AMD and treated to pH 10, 93 % SO4 2- removal was observed. Further studies were done to evaluate the effects of Fe and Al separately. Treatment of simulated Fe containing AMD (Fe-AMD) to pH 9.54, 10.2, 11.8, and 12.1 resulted in 47, 52, 65, and 68 % SO4 2- removal respectively. When Al containing AMD was treated to pH 9.46, 10.3, 11.5 and 12 percentage SO4 2- removal of 39, 51, 55 and 67 % was observed respectively.</p>

Fly ash

Circumneutral mine water

Acid mine drainage

Gypsum

Ettringite

Oxyhydroxysulphates

PHREEQC

Saturation index

Sulphate

Ettringite.

Feasibility Study of Using Cement Kiln Dust as a Chemical Conditioner in the Treatment of Acidic Mine Effluent

Mackie, Allison Louise

23 July 2010

Water contaminated due to mining activities is often acidic and can contain high concentrations of dissolved metals. Cement kiln dust (CKD) is a fine-grained, alkaline material that is generated as a by-product of cement production. Its high lime (CaO) content makes it attractive as a substitute for quicklime in the generation of slurries for the treatment of mine water. The first part of this study analyzed six CKD samples for several physical and chemical properties to determine their variability and to compare them to the characterization of a commercial quicklime sample. Neutralization and precipitation experiments using acidic mine water containing high concentrations of zinc and iron determined that all slaked CKD slurries performed comparably to the quicklime slurry in terms of precipitation of soluble metals. The results of this research show that CKD can be effectively used to neutralize mine water and precipitate and remove dissolved metals.

Cement Kiln Dust

Acid Rock Drainage

Active Mine Water Treatment

Metal Precipitation

Removal of sulphates from South African mine water using coal fly ash

Godfrey Madzivire

January 2009

<p>This study evaluated SO4 2- removal from circumneutral mine water (CMW) collected from Middleburg coal mine using coal FA collected from Hendrina power station. The following parameters were investigated: the effect of the amount of FA, the effect of the final pH achieved during treatment, the effect of the initial pH of the mine water and the effect of Fe and Al on SO4 2- removal from mine water. The precipitation of ettringite at alkaline pH was evaluated to further reduce the SO4 2- concentration to below the DWAF limit for potable water. Removal of SO4 2- from mine water was found to be dependent on: the final pH achieved during treatment, the amount of FA used to treat the mine water and the presence of Fe and Al in the mine water. Treatment of CMW using different CMW:FA ratios / 5:1, 4:1, 3:1, and 2:1 resulted in 55, 60, 70 and 71 % SO4 2- removal respectively. Treatment of CMW to pH 8.98, 9.88, 10.21, 10.96, 11.77 and 12.35 resulted in 6, 19, 37, 45, 63 and 71 % SO4 2- removal respectively. When the CMW was modified by adding Fe and Al by mixing with Navigation coal mine AMD and treated to pH 10, 93 % SO4 2- removal was observed. Further studies were done to evaluate the effects of Fe and Al separately. Treatment of simulated Fe containing AMD (Fe-AMD) to pH 9.54, 10.2, 11.8, and 12.1 resulted in 47, 52, 65, and 68 % SO4 2- removal respectively. When Al containing AMD was treated to pH 9.46, 10.3, 11.5 and 12 percentage SO4 2- removal of 39, 51, 55 and 67 % was observed respectively.</p>

Fly ash

Circumneutral mine water

Acid mine drainage

Gypsum

Ettringite

Oxyhydroxysulphates

PHREEQC

Saturation index

Sulphate

Ettringite.

Research into real-time energy management on old gold mines / Nico Louis de Lange

De Lange, Nico Louis

January 2006

The South African Electricity Supply Industry is one of the backbone industries in South Africa. During 2003, it became clear that the demand for electricity in South Africa was increasing at a rate that had not been predicted nor recognised before. This was a clear indication that Eskom, the national electricity supply utility, would have to invest in additional generating capacity before 2007. Eskom envisioned these problems and introduced a DSM programme, which is aimed at reducing the national peak power demand. In so doing, the immediate need for additional power generating capacity will be postponed. A major part of this program is the concept of electrical load shifting. In 2000 mining in South Africa consumed 29% of the total quantity of electricity generated, of which the gold-mining industry consumed more than half. Electricity is the exclusive power source for the application of vital health and safety-related requirements in gold mines. In some cases, these consume in excess of 55% of the total electricity used on a mine. Water-pumping systems are a major part of these important applications. This dissertation presents a study of certain aspects of real-time energy management on old gold mines, by focusing on electrical load shifting on underground water pumping systems. Old gold mines use old, proven and energy-intensive methods that were not designed to conserve energy. This study also researches the challenges associated with the implementation of energy management strategies on old gold mines. Research was done on three old gold mines to determine the potential for load shifting on the underground water pumping systems of old gold mines. Integrated simulations were used as the main method of establishing this potential as well as the financial savings potential for the client. The simulation results showed large amounts of load-shifting potential for all three case studies and substantial financial savings potential for the clients. Real-time, load-shifting strategies were implemented on the three systems analysed in the case studies. The results generated by these strategies showed that load shifting could be realised on these systems, and confirmed the potential calculated in the simulations. Further research into the results however showed that the old infrastructure in the old mines caused many problems and influenced the sustainability of these strategies. From this study, the conclusions were made that; (a) there exists a potential for energy management on old gold mines, (b) there exists large potential for the implementation of sustainable energy management strategies on old gold mines, and (c) it is feasible to implement energy management strategies on old gold mines. / Thesis (M.Ing. (Electrical and Electronic Engineering))--North-West University, Potchefstroom Campus, 2007

DSM

ESCo

Load shifting

Mine water pumping system

Eskom

REMS

Lasverskuiwing

Myn waterpompstelsel

Water management at abandoned flooded underground mines : fundamentals, tracer tests, modelling, water treatment /

Wolkersdorfer, C.

January 1900

Thesis (doctoral)--TU Bergakademie Freiberg, 2006. / "International Mine Water Association." Includes bibliographical references (p. [337]-420) and index.

Best practice mine water management at a coal mining operation in the Blue Mountains /

Cohen, Daniel.

January 2002

Thesis (M.Sc. (Hons)) -- University of Western Sydney, 2002. / "Master of Engineering (Honours), 2002, University of Western Sydney - Nepean" Bibliography : leaves 135-141.

Water management at abandoned flooded underground mines : fundamentals, tracer tests, modelling, water treatment /

Wolkersdorfer, Christian.

January 2008

Techn. Univ., Habil.-Schr.--Freiberg, 2006.

Use of time series, barometric and tidal analyses to conceptualize and model flow in an underground mine : the Corning mine complex, Ohio /

Sahu, Parameswar.

January 2004

Thesis (M.S.)--Ohio University, August, 2004. / Includes bibliographical references (p. 141-148)

Use of time series, barometric and tidal analyses to conceptualize and model flow in an underground mine the Corning mine complex, Ohio /

Sahu, Parameswar.

January 2004

Thesis (M.S.)--Ohio University, August, 2004. / Title from PDF t.p. Includes bibliographical references (p. 141-148)

Vodní a mokřadní lokality v povodí jezera Medard. / Water and wetland localities in the watershead of Medard quarry lake.

FAFÍLKOVÁ, Veronika

January 2014

I monitored the chemical parameters of surface waters in wetlands and watercourses in the vicinity of Lake Medard (newly filled residual pit after brown coal mining). The characteristics of surface waters were described by means of their physical, chemical and biological indicators. The values obtained were compared with normal surface waters in the Czech Republic. I also assessed water quality and determined eutrophication. The chemical composition was compared in space and time. The most important finding is the high variability of waters in a relatively small area. Another is that the examined surface waters do not usually exhibit the typical characteristics of acid mine waters. The locations of interest are characterized by high levels of dissolved solids in water. High concentrations of sulphates are the most problematic of the found anions. In the case of cations, the following dissolved metals had high concentrations: Na, Ca, Mg, Zn, Mn and Fe.