Civil engineering
From Wikipedia, the free encyclopedia
In modern usage, civil engineering is a broad field of engineering that deals with the planning, construction, and maintenance of fixed structures, or public works, as they are related to earth, water, or civilization and their processes. Most civil engineering today deals with roads, structures, water supply, sewer, flood control and traffic. In essence civil engineering is the profession which makes the world a more habitable place to live.
Engineering has developed from observations of the ways natural and constructed systems react and from the development of empirical equations that provide bases for design. Civil engineering is the broadest of the engineering fields. In fact engineering was once divided into only two fields--military and civil. Civil engineering is still an umbrella field comprised of many related specialities.
Contents |
Sub-disciplines of civil engineering
General civil engineering
General civil engineering is concerned with the overall interface of fixed projects with the greater world. General civil engineers work closely with surveyors and specialized civil engineers to fit and serve fixed projects within their given site, community and terrain by designing grading, drainage (flood control), paving, water supply, sewer service, electric and communications supply and land (real property) divisions. General engineers spend much of their time visiting project sites, developing community/neighborhood consensus, and preparing construction plans.
Structural engineering
Main article: Structural engineering
Structural engineering is concerned with the design of bridges, buildings, offshore oil platforms, dams etc. Structural design and structural analysis are components of structural engineering and a key component in the structural design process. This involves computing the stresses and forces at work within a structure. There are some structural engineers who work in non-typical areas, designing aircraft, spacecraft and even biomedical devices. Major design concerns are building seismic resistant structures and seismically retrofitting existing structures.
Geotechnical engineering
Main article: Geotechnical engineering
The main subject of the studies also known as soil mechanics is concerned with soil properties, mechanics of soil particles, compression and swelling of soils, seepage, slopes, retaining walls, foundations, footings, ground and rock anchors, use of synthetic tensile materials in soil structures, soil-structure interaction and soil dynamics. Geotechnical engineering covers this field of studies for application in engineering.
The importance of geotechnical engineering can hardly be overstated: buildings must be supported by reliable foundations. Dam design and construction reducing flooding of lower drainage areas is an important subject of geotechnical engineering.
Transportation engineering
Main article: Transportation engineering
Transportation engineering is primarily concerned with motorized road transportation, especially in North America. This includes areas such as queueing theory and traffic flow planning, roadway geometric design and driver behavior patterns. Simulation of traffic operation is performed through use of trip generation, traffic assignment algorithms which can be highly complex computational problems. Other, more specialized areas of transportation engineering are concerned with the designs of non-road transportation facilities, such as rail systems, airports, and ports.
Environmental engineering
Main article: Environmental engineering
Environmental engineering deals with the treatment of chemical, biological, and/or thermal waste, the purification of water and air, and the remediation of contaminated sites, due to prior waste disposal or accidental contamination. Among the topics covered by environmental engineering are water purification, sewage treatment, and hazardous waste management. Environmental engineering is related to the fields of hydrology, geohydrology and meteorology insofar as knowledge of (ground)water and flows are required to understand pollutant transport. Environmental engineers are also involved in pollution reduction, "green engineering," and industrial ecology. Environmental engineering also deals with the gathering of information on the environmental consequences of proposed actions and the assessment of effects of proposed actions for the purpose of assisting society and policy makers in the decision making process.
Environmental engineering is the contemporary term for sanitary engineering. Some other terms in use are public health engineering and environmental health engineering.
Hydraulic engineering
Main article: Hydraulic engineering
Hydraulic engineering is concerned with the flow and conveyance of fluids, principally water. This area of engineering is intimately related to the design of pipelines, water distribution systems, drainage facilities (including bridges, dams, channels, culverts, levees, and storm sewers), canals, and to both sanitary and environmental engineering. Hydraulic engineers design these facilities using the concepts of fluid pressure, fluid statics, fluid dynamics, and hydraulics, among others.
Construction engineering
Main article: Construction engineering
Construction engineering involves planning and execution of the designs from transportation, site development, hydraulic, environmental, structural and geotechnical engineers.
Material science
Main article: Materials science
Civil engineering also includes materials science. Engineering materials with broad application in civil engineering include concrete and steel; however, the study of materials also includes polymers and ceramics with potential engineering application.
Surveying
Main article: Surveying
Elements of a building or structure must be correctly sized and positioned in relation to each other and to site boundaries and adjacent structures. This is accomplished using surveying techniques.
Careers
A popular misconception is that civil engineering is far from the exciting frontiers in mathematics and computer science. In actuality, much of what is now computer science was driven by work in civil engineering, where structural and network analysis problems required parallel computations and development of advanced algorithms.
There are also civil engineers who work in the area of safety engineering, applying probabilistic methods to structural design, safety analysis and even estimates of insurance losses due to natural and man-made hazards.
Education and Licensure
Prior to becoming a practicing engineer, civil engineers generally complete tertiary (college or higher) educational requirements, followed by several years of practical experience. Each country, state, or province individually regulates civil engineering practice:
In the U.S., one must become a licensed Professional Engineer to do any civil engineering work affecting the public or to legally represent oneself as a civil engineer. Licensure requirements vary slightly by state, but in all cases entail passing two licensure exams, the Fundamentals of Engineering exam and the Principles and Practice exam (commonly called the PE), and completing a state-mandated number of years of work under the supervision of a licensed Professional Engineer. In addition, an educational requirement must often be met. All states accept a four year Bachelor of Science (BS) or Bachelor of Engineering (BEng) degree in Civil Engineering, from an ABET-accredited program, for their educational requirement. The acceptability of degrees in other fields varies by state; some states allow a person to substitute additional years of supervised work experience for the degree requirement. Although the American Society of Civil Engineers encourages states to raise the educational requirement to a graduate degree, advanced degrees are currently optional for civil engineers in the United States. Graduate study may lead either to a Master of Engineering, which is a Professional Master's degree, or to a Master of Science degree followed by a PhD in civil engineering or a sub-discipline.
In the United Kingdom current graduates require a MSc or MEng in order to become chartered through the Institution of Civil Engineers. This is relaxed to a BSc or BEng for those who entered University prior to the current rules coming into force. The Institution also allows entrants with substantial experience to apply without this level of formal academic achievement. In practice many, if not most, Civil Engineers in the UK work without chartered status. Unlike in many other European countries, the term 'Engineer' is not legally protected within the United Kingdom.
In Australia and New Zealand, this is typically a four year Bachelor of Engineering (BE) degree which includes 12 weeks of work experience. In Denmark, a Civil Engineer takes 5 years to complete, whereof the first 3 years is aimed at completing a Bachelor degree, and the following two years, in follwing up with what is roughly the equivalent of a Master's degree, in Denmark called a candidate degree. The only two places in Denmark to complete the Civil Engineer education, is at DTU and University of Aalborg.
"International Engineering Agreements" can be found at http://www.ieagreements.com/. These agreements are designed to allow engineers to practice across international borders. In general, these agreements require both educational competencies and professional experiential competencies.
See also
- American Society of Civil Engineers
- Civil engineer
- Institution of Civil Engineers
- List of civil engineers
- List of historic civil engineering landmarks
- Landscape Architecture
