Encyclopedia of Environmental Science and Engineering, Volume I and II

1018 POLLUTION FROM MINE DRAINAGE

Separating surface and underground mines is not feasible

as they frequently occur together and interact to add to the

problem.

Presently operating mines have certain characteristics

which differentiate mines them from other mines. Primarily

because they are now in operation a responsible owner or

operator can be located and people, equipment, machinery

and power are available at the mine site. This allows con-

sideration of procedures to treat the mine drainage as well

as procedures to reduce or minimize the amount of pollut-

ants discharged both during the remainder of the mine’s

life and after mining has been terminated. Procedures pres-

ently available may be employed to minimize the amount

of mine drainage pollution which issues from an operat-

ing mine, but no procedures are now available which can

totally eliminate it.

Non-operating, or abandoned mines, generally do not

have any responsible person readily available, or any other

resources such as personnel and machinery, which makes

abatement techniques more expensive for this type of mine

than for one which is operating.

When a mine is still in the planning stage, it is easier

to plan for future prevention of pollution and thereby reduce

it. For instance, provisions can be pre-planned for a mine to

have rapid and complete drainage during the mining opera-

tion, thereby reducing the pollutional discharges which other-

wise may need to be treated. Additionally, improved mining

methods can provide for minimum void spaces after mining;

also water level control after mining ceases can be provided

only during the mine pre-planning stages.

The methods for alleviating mine drainage may be

divided into the two basic categories of treatment of mine

drainage, and prevention of the formation of discharge of

pollutants.

Treatment removes pollutants by physical/chemical

means and generally results in only specific pollutants being

removed or reduced. The process must continue for as long

as the source produces pollution and usually in the case of

mine damage this is tantamount to “treatment in perpetuity.”

Disposal of wastes and constant usage of power or chemicals

made such treatment unduly consumptive of both human and

physical resources. Treatment methods for coal mine drain-

age are summarized in Table 1 and many of the methods are

applicable to other types of mine drainage pollution.

Prevention is the total cessation or massive reduction of

the formation or discharge of pollutants during and after the

operating life of the mine. Prevention of all forms of pollution,

including dissolved and suspended materials, is obviously more

desirable than simple treatment of pollution with its attendant

problems. Provisions for prevention of the formation of pollu-

tion cab be planned into a mine while it is still on the drawing

board. Specific techniques for prevention and correction of

pollution from mines, both operating and non-operating, are

shown in Table 2.

TABLE 1

Summary of treatment techniques

Pollutants removeda

Neutralization and

aeration

Microbial iron

oxidation

Reverse

osmosis Ion exchange Flash distillationd Electro-dialysis

Product

recovery Silt basins

Acidity XXX NA XX X

c XX Xe Xf NA

Iron XX XX XXX Xc XXX? Xf NA

Aluminum XXX NA XXX Xc XXX Xe Xf NA

Manganese Xb NA XXX Xc XXX Xe Xf NA

Copper XX NA XXX Xc XXX Xe Xf NA

Zinc Xb NA XXX Xc XXX Xe Xf NA

Hardness — NA XXX Xc XXX Xe Xf NA

Suspended solids X NA NA NA NA NA Xf X

Dissolved solids — NA XXX Xc XXX Xe Xf NA

State of artg CU PP PP R, PP, FSOc FSD Re R R, CU

Cost, $/1000h 0.05–4.55 UK 0.30–2.57 0.30–2.53 0.33–3.25 0.52–2.52 UK 0.02–1.0

Waste productj S S B B, R B B S,B,R S

a NA—Not applicable,? Questionable, X-degree to which removed, the greater number of “X”s the higher the removal.

b Must be raised to very high pH.

c Various ion exchange techniques are under evaluation. Their effectiveness and which pollutant is removed depends on the technique.

d 5 mgd plant is under construction in Pennsylvania. Techniques has only a limited potential.

e Technique will not operate where iron is present in water.

f Various product recovery schemes are under consideration; however, all are still in research stage.

g R—Research, PP—Pilot Plant, FSD—Full Scale Demonstration, CU—Common Usage.

h Cost depends on the degree of pollution, size of plant, pre- and post-treatment requirements. UK—Unknown.

j Each treatment process has a waste product that must be disposed of and creates additional problem. S—insert sludge, B—highly mineralized brine,

R—regenerate.

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