Javascript is currently not supported, or is disabled by this browser. Please enable Javascript for full functionality.

Skip to Main Content
    Columbia Campus
   
 
  Dec 03, 2024
 
2014-2015 Graduate Studies Bulletin 
  
2014-2015 Graduate Studies Bulletin [Archived Catalog]

Civil and Environmental Engineering|


Robert L. Mullen, Chair


Faculty  Accelerated B.S.E./Master’s Plans
Overview Ph.D. Admissions
Areas of Specialization Programs and Courses
M.S. Admissions Website
M.E. Admissions  

Overview

Civil and environmental engineers are involved with the systems that are essential to our modern way of life. For example, civil and environmental engineers plan, design, and construct roads, bridges and airports, buildings, water supply and wastewater treatment plants, waterways, ports, and dams. They also work to protect the environment by developing and applying remedial technologies to contaminated groundwater and soil. Civil and environmental engineers are well qualified to participate in public and private decision-making processes regarding infrastructure systems, and, as such, serve as technical and policy advisors or elected officials.

The Department of Civil and Environmental Engineering offers programs leading to the Master of Science, Master of Engineering, and Doctor of Philosophy degrees. Students in the M.S. and Ph.D. degree programs specialize in at least one of the following program areas: environmental engineering, geotechnical engineering, structural engineering, transportation engineering and water resources engineering. Students in the M.E. program may opt to specialize in one area of study or obtain a broad range of experience across the civil and environmental engineering discipline.


Areas of Specialization

Environmental Engineering focuses on sustainability and environmental applications and implications of nanotechnology, including water and wastewater reclamation, bioreactor landfills, waste conversion processes, treatment technologies for developing countries, application of nanamaterials for developing innovative remediation technologies, quantum modeling of nanomaterials, and understanding fate, transport, and toxicity of nanomaterials in the environment.

Geotechnical Engineering focuses on soil, rock and engineered geomaterials with specific concentrations on field and laboratory investigations using standard and novel testing technologies, design and performance of foundations and earth structures, slope stability analyses, soil dynamics and liquefaction, pavement design and performance, landfill design and instrumentation, and geoenvironmental studies.

Structural Engineering focuses on structural design, and analysis for buildings, bridges and other civil structures, materials characterization and modeling including concrete, steel and fiber reinforced polymers, multi-scale structural testing, advanced numerical simulations, structural health monitoring and prognosis, life-cycle and environmental performance analysis, and seismic engineering and design.

Transportation Engineering focuses on modeling transportation system operations, traffic sensing technologies and traffic data analyses, including intelligent transportation systems, modeling and simulation of large-scale transportation networks, weigh-in-motion systems, traffic studies, traffic signal simulation and pavement management systems and performance modeling.

Water Resources Engineering focuses on the study and computer modeling of natural and industrial flow and transport processes, both in the laboratory and in the field, including fluid mechanics, hydraulic transients, cardiovascular flow, river mechanics and marine sediment transport, scour, hydrology of landfills, storm water modeling and best management practices, and watershed scale hydrology.


M.S. Admissions

Students with Bachelor of Science (B.S.) degrees in civil or environmental engineering are eligible to enter the M.S. degree program. Students with engineering degrees in areas other than civil engineering may be required to complete deficiency/prerequisite undergraduate courses. As a minimum, the following deficiency/prerequisite courses or equivalent will be required: MATH 141, 142 and 242; CHEM 111; PHYS 211 and 212; ECIV 200; ECIV 201; STAT 509. Students will also be required to take all undergraduate courses that are listed as prerequisites for courses taken for graduate credit. In general, deficiency/prerequisite courses must be completed with a B average. Specific Program Areas may require additional course work.

An undergraduate grade point average (GPA) of 2.8 on a 4.0 scale, and 3.0 on a 4.0 scale on any graduate course work is required for students wishing to enter the M.S. degree programs with B.S. degrees in engineering. Exceptions to the minimum undergraduate GPA requirements for admission to the M.S. degree program may be made for students with special qualifications.

For students with non-engineering baccalaureate degrees, or engineering degrees from programs not accredited by ABET, the minimum grade requirement is a GPA of 3.0 on a 4.0 scale on their undergraduate coursework, and 3.0 on a 4.0 scale on any graduate course work.

The general Graduate Record Examination (GRE) is required for all students entering the M.S. degree program. Typically, successful applicants have combined scores of at least section. 1100 on the Verbal and Quantitative (V + Q) sections, 3.5 on the Analytical Writing section.

 

M.E. Admissions

Students with Bachelor of Science (B.S.) degrees in civil or environmental engineering are eligible to enter the M.E. degree program. The M.E. degree is only available to students with B.S. degrees in engineering. Students with engineering degrees in areas other than civil engineering may be required to complete deficiency/prerequisite undergraduate courses. As a minimum, the following deficiency/prerequisite courses or equivalent will be required: MATH 141, 142 and 242; CHEM 111; PHYS 211 and 212; ECIV 200; ECIV 201; STAT 509. Students will also be required to take all undergraduate courses that are listed as prerequisites for courses taken for graduate credit. In general, deficiency/prerequisite courses must be completed with a B average. Specific Program Areas (Environmental Engineering, Geotechnical Engineering, Structural Engineering, Transportation Engineering and Water Resources Engineering) may require additional course work.

An undergraduate grade point average (GPA) of 2.8 on a 4.0 scale, and 3.0 on a 4.0 scale on any graduate course work is required for students wishing to enter the M.E. degree programs with B.S. degrees in engineering. Exceptions to the minimum undergraduate GPA requirements for admission to the M.E. degree program may be made for students with special qualifications.

The general Graduate Record Examination (GRE) is not required for students entering the M.E. degree program providing the student has a GPA > 2.8 and a B.S. degree in civil or environmental engineering from an ABET accredited school. The GRE is required for applicants not meeting these requirements. Typically, successful applicants have combined scores of at least 1100 on the Verbal and Quantitative (V + Q) sections, and 3.5 on the Analytical Writing section.


Accelerated B.S.E./Master’s Plans

A combined B.S.E./M.S. or B.S.E./M.E. degree program is available to undergraduate civil and environmental engineering students with GPAs of 3.50 or above and 90 or more hours earned toward their baccalaureate degrees. Up to six credit hours at or above the 500-level may be applied toward both the B.S.E., M.S., or M.E. degree requirements. The approval of the student’s advisor and the CEE graduate director are required. Questions about this program may be directed to the CEE graduate director.


Ph.D. Admissions

Students should have the equivalent of an M.E. or M.S. degree in civil engineering or closely related engineering field. Exceptional students may be eligible to enter directly the Ph.D. degree program with a B.S. degree in civil engineering or closely related engineering field. Applicants must exceed the minimum grade point average and test score requirements listed above for the M.S. degree program. Outstanding students with nonengineering baccalaureate degrees may qualify for admission to the Ph.D. degree program, with the understanding that they must complete specified deficiency/prerequisite courses.


Civil and Environmental Engineering|

 

Programs

Courses

Civil Engineering