Engineering geology

Engineering geology, also called geological engineering, is a science field that applies geological knowledge to engineering problems. For example, design and location of reservoirs, determination of slope stability for building applications, identification of hazard considerations for earthquakes, floods or ground subsidence Considerations for roads, pipes and other construction works

Engineering geology is an application of geology in engineering research to ensure that geological factors in engineering location, design, construction, operation and maintenance are recognized and explained. Engineering geologists provide geological and geotechnical advice, analysis and design on human development and various types of structures. The field of engineering geologists is a field that mainly studies the field of interaction between the earth and the structure, or how the earth or earth process affects artificial structures and human activities.

Geological research has existed for centuries, but at least in its modern form, science and practice of engineering geology is recognized as a field from the end of the 19th century to the beginning of the 20th century became. The first book "Engineering Geology" was published by William Penning in 1880. In the early 20th century, Charles Barkey was a well-trained geologist in the United States and was considered the first American engineering geologist working on several water supply projects in New York City. I am working on Hoover Dam and many other engineering projects. The first American engineering geology textbook was written by Ries and Watson in 1914. In 1921, Reginald W. Brock, the first dean of the Department of Applied Sciences at the University of British Columbia, started the first undergraduate course and graduate degree program of geoengineering, the first graduate student with engineering foundation He pointed out that he became a geologist.

Engineering geology, also called geological engineering, is a science field that applies geological knowledge to engineering problems. For example, design and location of reservoirs, determination of slope stability for building applications, identification of hazard considerations for earthquakes, floods or ground subsidence Considerations for roads, pipes and other construction works

Engineering geology uses earth science and engineering applications to study geographical factors such as location, design, construction, operation and maintenance. Geotechnical engineers have found the best way to use geographical resources to solve technical problems while protecting the environment. Forensic geology includes the application of geological data and techniques to problems that may occur in the courts. It is closely related to environmental forensics, forensic engineering and forensic archeology. The scope of environmental forensic medicine is far wider than forensic geology. Frequently involved in investigating environmental problems such as water and air pollution.