A METHOD TO MITIGATE ACID-MINE DRAINAGE IN THE SHAMOKIN AREA, PENNSYLVANIA, USA

被引:6
|
作者
RAHN, PH
机构
[1] Department of Geology and Geological Engineering, South Dakota School of Mines and Technology, Rapid City, 57701, South Dakota
来源
ENVIRONMENTAL GEOLOGY AND WATER SCIENCES | 1992年 / 19卷 / 01期
关键词
D O I
10.1007/BF01740577
中图分类号
X [环境科学、安全科学];
学科分类号
08 ; 0830 ;
摘要
The three anthracite coal fields of eastern Pennsylvania occur in large synclinal basins surrounded by sandstone hogback ridges. The streams draining the coal regions are heavily contaminated by sulfuric acid due to the weathering of pyrite in the abandoned mines and culm. Dams could be built in the water gaps of the streams leaving the basins, forming huge reservoirs. For example, in the western part of the Middle Coal Field (Shamokin-Mt. Carmel area), the construction of four dams would form a reservoir that would inundate practically all the culm banks, abandoned mines, and environmentally abused lands in this coal field. The reservoir (at approximately 410 m elevation) would be approximately 140 sq km in area and could be the source of water for pumped-storage hydroelectricity generation. The water should have moderately good quality and could serve the recreational needs of a vast population of the Middle Atlantic states.
引用
收藏
页码:47 / 53
页数:7
相关论文
共 50 条
  • [31] THE USE OF CONSTRUCTED WETLANDS IN THE TREATMENT OF ACID-MINE DRAINAGE
    PERRY, A
    KLEINMANN, RLP
    [J]. NATURAL RESOURCES FORUM, 1991, 15 (03) : 178 - 184
  • [32] Evaluation of acidity estimation methods for mine drainage, Pennsylvania, USA
    Daeryong Park
    Byungtae Park
    Justin J. Mendinsky
    Benjaphon Paksuchon
    Ratda Suhataikul
    Brian A. Dempsey
    Yunchul Cho
    [J]. Environmental Monitoring and Assessment, 2015, 187
  • [33] INTERDISCIPLINARY APPROACH TO THE ANALYSIS OF ACID-MINE DRAINAGE AT AN UNDERGROUND LEAD ZINC MINE
    RILEY, JA
    RALSTON, DR
    WILLIAMS, RE
    [J]. THIRD INTERNATIONAL MINE WATER CONGRESS, 1988, : 523 - 532
  • [34] Evaluation of acidity estimation methods for mine drainage, Pennsylvania, USA
    Park, Daeryong
    Park, Byungtae
    Mendinsky, Justin J.
    Paksuchon, Benjaphon
    Suhataikul, Ratda
    Dempsey, Brian A.
    Cho, Yunchul
    [J]. ENVIRONMENTAL MONITORING AND ASSESSMENT, 2015, 187 (01)
  • [35] IRON RECOVERY FROM NEUTRALIZED ACID-MINE DRAINAGE SLUDGE
    KEEFER, GB
    SACK, WA
    [J]. CHEMICAL ENGINEERING COMMUNICATIONS, 1985, 35 (1-6) : 305 - 314
  • [36] A MULTITECHNIQUE EVALUATION OF GROUNDWATER CONTAMINATION DUE TO ACID-MINE DRAINAGE
    FOPPE, LE
    [J]. GROUND WATER, 1987, 25 (05) : 605 - 606
  • [37] MINERALOGY OF IRON PRECIPITATES IN A CONSTRUCTED ACID-MINE DRAINAGE WETLAND
    KARATHANASIS, AD
    THOMPSON, YL
    [J]. SOIL SCIENCE SOCIETY OF AMERICA JOURNAL, 1995, 59 (06) : 1773 - 1781
  • [38] ARTIFICIAL ACID-MINE DRAINAGE FOR USE IN LABORATORY SIMULATION STUDIES
    GRAY, NF
    ONEILL, C
    [J]. FRESENIUS ENVIRONMENTAL BULLETIN, 1995, 4 (08): : 481 - 484
  • [39] USE OF CELLULOSIC SUBSTRATES FOR THE MICROBIAL TREATMENT OF ACID-MINE DRAINAGE
    BECHARD, G
    YAMAZAKI, H
    GOULD, WD
    BEDARD, P
    [J]. JOURNAL OF ENVIRONMENTAL QUALITY, 1994, 23 (01) : 111 - 116
  • [40] HYDRAULIC CONDUCTIVITY OF NATURAL SOILS PERMEATED WITH ACID-MINE DRAINAGE
    YANFUL, EK
    SHIKATANI, KS
    QUIRT, DH
    [J]. CANADIAN GEOTECHNICAL JOURNAL, 1995, 32 (04) : 624 - 646
12345