会计学 1 工程地质——地下水岩溶水库渗漏分析 Groundwater and geology Groundwater is also important quite apart from its value as a resource or its close connection with surface water supplies. Engineers must consider groundwater when planning almost any kind of structure, either above or below the ground. Ignoring the effect of groundwater on slope stability can be both costly and dangerous. Geologists see groundwater as a major force in geological change. The fluid pressures exerted by groundwater, for example, play an important role in the occurrence of earthquakes. Geologists also know that the movement of water through underground geologic formations controls the migration and the accumulation of petroleum and the formation of some ore deposits. Groundwater and engineering Groundwater can also have dramatic implications for engineering and geotechnical studies. The study of groundwater is essential for engineers who construct dams, tunnels, water conveyance channels, mines, and other structures. Groundwater must be considered whenever the stability of slopes is important, whether the slope is natural or constructed. Groundwater must also be taken into account when devising measures to control flooding. In all of these situations, groundwater flow and fluid pressure can create serious geotechnical problems. Groundwater, for example, may create structural weaknesses in dams, or it may flow underground right around the structure as it did at the Jerome Dam in Idaho. Water flowed so efficiently through the rock formations surrounding the reservoir that the dam would hold no water, even though it was structurally sound. In another case, when geological exploration was being carried out in preparation for the construction of the Revelstoke Dam in British Columbia, geologists and engineers were concerned about an old landslide on the bank of the proposed reservoir. They suspected that the water held in the reservoir could increase groundwater pressures enough to make the slide
