Transcript Document
Water quality issues – ‘natural’ controls
Acidity – low pH due to infiltration of acidified precipitation;
acids from mine drainage; pyrite oxidation
acid groundwater limited (generally) to shallow aquifers
where buffering is limited; short residence time
low pH water can leach metal plumbing and mobilize
metals; corrosive
Hardness:
elevated Ca, Mg and CO3; generally found in areas
with carbonate rock aquifers or sediments containing
carbonate minerals calcite and/or dolomite
hardness reduces effectiveness of soap and detergents
solid carbonate precipitates as scale in pipes and boilers
may call for ‘softening’ of water using cation exchange
which elevates Na levels in water – problem for
hypertensives
Salinity:
Aquifers containing soluble salts halite, gypsum;
also saltwater incursion in aquifer
Salinity exceeding 1500 ppm may cause illness
Desalinization using membrane filters or distillation
may be required
Fe and SO4/H2S:
Commonly caused by dissolution of pyrite from
aquifer. Marine shale a common source.
H2S causes odors; bacteria oxidize to SO4
Fe oxidizes to ferric state and precipitates causing
staining
Treatment involves use of strong oxidizing agent
(KMnO4) and filtration
Other water quality parameters:
Eh
Dissolved Oxygen
Biological Oxygen Demand
Chemical Oxygen Demand
Bacterial and Viral Counts
Turbidity
Color
Taste
Odor
LNAPL
DNAPL
“Pump and Treat” - the most common approach to remediation.
Pumping to produce cone of depression and ‘capture’ plume.
Heavier components of LNAPL will stick to particles in aquifer.
Multiple pumping
wells may induce
areas of stagnation
in groundwater
system, slowing
extraction of
contaminants.
Chemical agents
such as detergents
may enhance the
rate of removal of
adsorbed contaminants.
Air sparging
Enhanced bioremediation involves injection of nutrients, oxygen
and sometimes bacterial cultures, to increase the rate of biodegradation.
Hydrogen peroxide acts as a source of oxygen for enhanced
bioremediation systems.
c and d illustrate
the use of reactive
barriers. Iron
filings or steel
wool are often
used to enhance
the rate of reaction.