Treatment of NI-containing acidic mine waters with calcite side-stones
Nikitenko, Maria (2013)
Diplomityö
Nikitenko, Maria
2013
Julkaisun pysyvä osoite on
https://urn.fi/URN:NBN:fi-fe201306144028
https://urn.fi/URN:NBN:fi-fe201306144028
Tiivistelmä
Acid mine drainage (AMD) presents a serious problem for the environment for the
massive formation of acidic leachates containing heavy metals. The present work deals
with the AMD treatment using neutralizing limestone side-products. The conventional
methods for prevention, mitigating and control of AMD formation are described. The
experimental testing of Nordkalk Oy calcite-containing side-stones for acid neutralizing
and removal of nickel from solutions presents the research objective. The batch
experiments in acid neutralizing with subsequent metal content analysis were carried out.
The results showed the dependence of pH on the dose of neutralizing material and the
exposure time. The nickel removal, unlike iron, within the pH range from 1.2 to 6.0
appeared to be inadequate. The further research on nickel co-precipitation with iron and
aluminium may appear to be necessary together with testing of alkalinity strengthening
materials.
massive formation of acidic leachates containing heavy metals. The present work deals
with the AMD treatment using neutralizing limestone side-products. The conventional
methods for prevention, mitigating and control of AMD formation are described. The
experimental testing of Nordkalk Oy calcite-containing side-stones for acid neutralizing
and removal of nickel from solutions presents the research objective. The batch
experiments in acid neutralizing with subsequent metal content analysis were carried out.
The results showed the dependence of pH on the dose of neutralizing material and the
exposure time. The nickel removal, unlike iron, within the pH range from 1.2 to 6.0
appeared to be inadequate. The further research on nickel co-precipitation with iron and
aluminium may appear to be necessary together with testing of alkalinity strengthening
materials.