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This article in JEQ

  1. Vol. 30 No. 3, p. 1015-1022
     
    Received: May 22, 2000
    Published: May, 2001


    * Corresponding author(s): czip@vt.edu
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doi:10.2134/jeq2001.3031015x

Factors Affecting Alkalinity Generation by Successive Alkalinity-Producing Systems

  1. C.R. Jagea,
  2. C.E. Zipper *b and
  3. R. Nobleb
  1. a Regional Land Trust Representative, New Jersey Conservation Foundation, Bamboo Brook, 170 Longview Road, Far Hills, NJ 07931
    b Dep. of Statistics, Virginia Polytechnic Institute and State Univ., Blacksburg VA 24061

Abstract

Use of successive alkalinity-producing systems (SAPS) for treatment of acidic mine drainage (AMD) has grown in recent years. However, inconsistent performance has hampered widespread acceptance of this technology. This research was conducted to determine the influence of system design and influent AMD chemistry on net alkalinity generation by SAPS. Monthly observations were obtained from eight SAPS cells in southern West Virginia and southwestern Virginia. Analysis of these data revealed strong, positive correlations between net alkalinity generation and three variables: the natural log of limestone residence time, influent dissolved Fe concentration, and influent non-Mn acidity. A statistical model was constructed to describe SAPS performance. Subsequent analysis of data obtained from five systems in western Pennsylvania (calibration data set) was used to reevaluate the model form, and the statistical model was adjusted using the combined data sets. Limestone residence time exhibited a strong, positive logarithmic correlation with net alkalinity generation, indicating net alkalinity generation occurs most rapidly within the first few hours of AMD–limestone contact and additional residence time yields diminishing gains in treatment. Influent Fe and non-Mn acidity concentrations both show strong positive linear relationships with net alkalinity generation, reflecting the increased solubility of limestone under acidic conditions. These relationships were present in the original and the calibration data sets, separately, and in the statistical model derived from the combined data set. In the combined data set, these three factors accounted for 68% of the variability in SAPS systems performance.

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Copyright © 2001. American Society of Agronomy, Crop Science Society of America, Soil Science SocietyPublished in J. Environ. Qual.30:1015–1022.