Using Lime Treated Acid Mine Water for Irrigation

Using Lime Treated Acid Mine Water for Irrigation

The disposal of acid sulphate mine water poses a universal problem. Although water quality is much improved when neutralised by lime treatment high salt loads nevertheless make release to better quality surface streams undesirable. The feasibility of using such water for irrigation was evaluated usi...

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Bibliographic Details
Published in:Water Science & Technology [WATER SCI. TECHNOL.]. Vol. 15, no. 2. 1983 Vol. 15; no. 2; pp. 145 - 154
Main Author: du Plessis, H M
Format: Journal Article Conference Proceeding
Language:English
Published: London IWA Publishing 01-01-1983
Subjects:
Acid mine drainage
Acid mine water
Chemical equilibrium
Composition
Crop yield
Drainage
Feasibility studies
Freshwater
Gypsum
Irrigation
Irrigation water
Leaching
Mine drainage
Mineral resources
Physical properties
Salts
Sodium
Soil
Soil conductivity
Soil lime
Soil physical properties
Soil profiles
Soil properties
Soil water
Streams
Sulfates
Water pollution
Water quality
Water resources
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Summary:The disposal of acid sulphate mine water poses a universal problem. Although water quality is much improved when neutralised by lime treatment high salt loads nevertheless make release to better quality surface streams undesirable. The feasibility of using such water for irrigation was evaluated using a steady state chemical equilibrium model to predict the composition of water draining from successive soil segments under a range of leaching fractions. Large amounts of gypsum are expected to precipitate in the soil profile resulting in a greater reduction in salinity than would occur if the water contained chloride instead of sulphate. A comparatively smaller reduction in crop yields can thus be expected and a greater variety of the marginally salt sensitive crops can be grown. The precipitation of gypsum however results in an increased sodium hazard to soil physical properties. This does not appear serious when evaluated against published data on soil hydraulic conductivity as affected by sodium and electrolyte concentration. A drastic reduction in the salt load in drainage from irrigated land compared to that in the applied water is predicted. Irrigation with lime treated acid mine water does not only seem feasible but also advantageous for the protection of water resources from mineral pollution.
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ISBN:9780080304236
0080304230
ISSN:0273-1223
1996-9732
DOI:10.2166/wst.1983.0030