Geology engineering refers to the branch of study where the application of geology to engineering study for the purpose of assuring that the geological factors regarding the location, design, construction, operation and maintenance of engineering works are recognized and accounted for. Engineering geologists provide geological and geotechnical recommendations, analysis, and design associated with human development and various types of structures. The realm of the engineering geologist is essentially in the area of earth-structure interactions, or investigation of how the earth or earth processes impact human made structures and human activities.
Engineering geology studies may be performed during the planning, environmental impact analysis, civil or structural engineering design, value engineering and construction phases of public and private works projects, and during post-construction and forensic phases of projects. Works completed by engineering geologists include; geologic hazards assessment, geotechnical, material properties, landslide and slope stability, erosion, flooding, dewatering, and seismic investigations, etc.
Engineering geology studies are performed by a geologist or engineering geologist that is educated, trained and has obtained experience related to the recognition and interpretation of natural processes, the understanding of how these processes impact human made structures (and vice versa), and knowledge of methods by which to mitigate hazards resulting from adverse natural or human made conditions. The principal objective of the engineering geologist is the protection of life and property against damage caused by various geological conditions.
engineering geology, also called Geological Engineering, the scientific discipline concerned with the application of geological knowledge to engineering problems—e.g., to reservoir design and location, determination of slope stability for construction purposes, and determination of earthquake, flood, or subsidence danger in areas considered for roads, pipelines, or other engineering works.
Although the study of geology has been around for centuries, at least in its modern form, the science and practice of engineering geology only commenced as a recognized discipline until the late 19th and early 20th centuries. One of the most important roles of an engineering geologist is the interpretation of landforms and earth processes to identify potential geologic and related man-made hazards that may have a great impact on civil structures and human development.
The background in geology provides the engineering geologist with an understanding of how the earth works, which is crucial minimizing earth related hazards. Most engineering geologists also have graduate degrees where they have gained specialized education and training in soil mechanics, rock mechanics, geotechnics, groundwater, hydrology, and civil design. These two aspects of the engineering geologists' education provide them with a unique ability to understand and mitigate for hazards associated with earth-structure interactions.
Engineering geology investigation and studies may be performed:
Engineering Geologists work as advisors to private and public bodies on the natural, environmental and geological threat in real estate development. They will assess whether ground rock is stable enough and whether it is a safe type of rock on which to build.
Geologists are engineers in many sense. They are effectively a bridge between geology, engineering and public health. The geology training helps engineers understand environmental threats. The engineering element helps geologists understand the unique challenges of civic works and private development. Finally, both are encouraged to understand the need to consider public health and safety during civic works.
Engineering Geologists will look at safety issues such as rock stability for a site and ask such questions as: can the underlying bedrock support heavy structures? Is the bedrock stable enough to support mass development such as transit systems and tall buildings? Is the rock radioactive? Is the radiation level considered safe for people to live and work here? What are the geological risks of building here? They will also look at human developments that might affect the stability of the ground - mine shafts, waste disposal sites gas leaks as well as ground stability.
They do not just look at the ground rock, but also water sources, soil stability and other natural processes that could impact a new development. This way, they are more like environmental engineers when they study such issues as flood risk. They will assess commercial and industrial development, public works, assessment of military activity such as ground assessments in areas that have been bombed - many work in Iraq, ensuring that a site is safe before redevelopment.
In civil engineering the selection of a site is important from the viewpoint of stability of foundation and availability of construction materials. Geology provides knowledge about the site used in the construction of buildings, dams, tunnels, tanks, reservoirs, highways and bridges. Geology helps to identify area susceptible to failures due to geological hazards such as earthquake, landslides, weathering effects, etc. Engineering Geology helps to ensure a stable and cost-effective model for construction projects. Gathering geological information for a project site is important in the planning, design, and construction phase of an engineering project.
Geology provides a systematic study of the structure and properties of construction materials and their occurrence. The civil engineers need to know the properties of rocks accurately to enable them to consider different rocks for any required purpose that is as a foundation rock, as road metal, as concrete aggregate, as building stones, as the roofing material for decorative purpose.
The knowledge about the nature of the rocks is very necessary for tunnelling, constructing roads and in determining the stability of cuts and slopes. The foundation problems of dams, bridges and buildings are directly related to the geology of the area where they are to be built. The knowledge of groundwater is necessary for connection with excavation works, water supply, irrigation and many other purposes. Hydrological maps provide information about the distribution of surface water channels and the groundwater depth.
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