首页> 美国政府科技报告 >Conservation of Fresh-Water Resources by Deep-well Disposal of Liquid Wastes. Appendix B. Part I. Chemical Reactions Between Acid Industrial Wastes, Formation Waters, and Minerals in Salaquifers of Alabama. Part II. Laboratory Study of Selected Reservoir Rocks

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Conservation of Fresh-Water Resources by Deep-well Disposal of Liquid Wastes. Appendix B. Part I. Chemical Reactions Between Acid Industrial Wastes, Formation Waters, and Minerals in Salaquifers of Alabama. Part II. Laboratory Study of Selected Reservoir Rocks

机译：通过深井处理液体废物保护淡水资源。附录B.第一部分。阿拉巴马州salaquifers的酸性工业废物，地层水和矿物之间的化学反应。第二部分。选定储层岩石的室内研究

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Although the important chemical reactions in waste injection may be predicted, the physical effects of these reactions often are not predictable. Laboratory studies of a variety of reservoir rock samples were conducted in an effort to establish storage capacity and flow parameters and to assess compatibility of potential receptive horizons with injected liquid wastes. Groundwater reservoirs with physical and chemical parameters favorable to injection of liquid wastes are at moderate depths in the geologic sections in a portion of Alabama. There should be no significant permanent reduction in porosity as a result of injection of sizable volumes of most of the State's industrial wastes. Permeability to continued flow of waste material showed a substantial decrease after a period of relatively few days, but could be restored to a level satisfactory for injection by flushing the aquifer with water. Permeability loss resulting in reduction of injection rates is greatest at the well face. Remedial action may be taken in some instances to restore flow to a suitable level. (WRSIC abstract)

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Grubbs, D. M.; Hughes, T. H.;
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年度 1970
页码 p.1-26
总页数 26
原文格式 PDF
正文语种 eng
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关键词
Waste disposal ; Water supplies ; Underground storage ; Aquifers ; Chemical reactions ; Wells ; Conservation ; Waste water ; Acids ; Injection wells ; Permeability ; Minerals ; Rocks ; Alabama;

机译：废物处理;供水;地下储存;含水层;化学反应;井;保护;废水;酸;注入井;渗透性;矿物;岩石;阿拉巴马州;

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1. Prediction of acid rock drainage in waste rock piles Part 1: Water film model for geochemical reactions and application to a full-scale case study [J] . Ma Liang, Huang Cheng, Liu Zhong-Sheng, Journal of Contaminant Hydrology . 2019,第JANa期

机译：废石堆中酸性岩石排泄的预测第1部分：地球化学反应的水膜模型及其在大规模案例研究中的应用
2. Applications of computed chemical equilibria: I. Reconstruction of in situ composition of sedimentary formation waters. II. Disposal of hydrogen sulfide from natural gas. III. Serpentinization, related rodingitization, and silica-carbonate alteration of ultramafic rock. [D] . Palandri, James L. 2000

机译：计算化学平衡的应用：I.沉积地层水原位组成的重建。二。处置天然气中的硫化氢。三，超镁铁质岩石的蛇纹石化，相关的啮齿动物化和碳酸硅酸盐蚀变。
3. Conservation of Fresh-Water Resources by Deep-well Disposal of Liquid Wastes [R] . Grubbs, D. M., Haynes, C. D., Tucker, W. E. 1970

机译：通过深井处理液体废物保护淡水资源

Conservation of Fresh-Water Resources by Deep-well Disposal of Liquid Wastes. Appendix B. Part I. Chemical Reactions Between Acid Industrial Wastes, Formation Waters, and Minerals in Salaquifers of Alabama. Part II. Laboratory Study of Selected Reservoir Rocks

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