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- Title
HEAVY METAL REMOVAL AND NEUTRALIZATION OF ACID MINE WASTE WATER -- KINETIC STUDY.
- Authors
Ghirişan, Adina L.; Drăgan, Simion; Pop, Alexandru; Simihăian, Marinela; Miclăuş, Vasile
- Abstract
The influence of the apatite on the efficiency of neutralization and on heavy metal removal of acid mine waste water has been studied. The analysis of the treated waste water samples with apatite has shown an advanced purification, the concentration of the heavy metals after the treatment of the waste water with apatite being 25 to 1000 times less than the Maximum Concentration Limits admitted by European Norms (NTPA 001/2005). In order to establish the macro-kinetic mechanism in the neutralization process, the activation energy, Ea, and the kinetic parameters, rate coefficient of reaction, kr, and kt were determined from the experimental results obtained in "ceramic ball-mill" reactor. The obtained values of the activation energy Ea > > 42 kJ mol-1 (e.g. Ea = 115.50 ± 7.50 kJ mol-1 for a conversion of sulphuric acid ηH2SO4 = 0.05, Ea = 60.90 ± 9.50 kJ mol-1 for ηH2SO4 = 0.10 and Ea = 55.75 ± 10.45 kJ mol-1 for ηH2SO4 = 0.15) suggest that up to a conversion of H2SO4 equal 0.15 the global process is controlled by the transformation process, adsorption followed by reaction, which means surface - controlled reactions. At a conversion of sulphuric acid ηH2SO4 > 0.15, the obtained values of activation energy Ea < 42 k] mol-1 (e.g. Ea = 37.55 ± 4.05 kJ mol-1 for ηH2SO4 = 0.2, Ea = 37.54 ± 2.54 kJ mol-1 for ηH2SO4 = 0.3 and Ea = 37.44 ± 2.90 kJ mol-1 for ηH2SO4 = 0.4) indicate diffusion - controlled processes. This means a combined process model, which involves the transfer in the liquid phase followed by the chemical reaction at the surface of the solid. Kinetic parameters as rate coefficient of reaction, kr with values ranging from (5.02 ± 1.62) 10-4 to (8.00 ± 1.55) 10-4 (s-1) and transfer coefficient, kt, ranging from (8.40 ± 0.50) 10-5 to (10.42 ± 0.65) 10-5 (m s-1) were determined.
- Subjects
APATITE; ACID mine drainage; HEAVY metals; DIFFUSION; LIQUIDS; SULFURIC acid
- Publication
Canadian Journal of Chemical Engineering, 2007, Vol 85, Issue 6, p900
- ISSN
0008-4034
- Publication type
Article
- DOI
10.1002/cjce.5450850611