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Course Criteria
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3.00 Credits
This course provides students with the requirements of facilities that are covered under the General of Multi-sector General (GMG) permit for storm water discharges, as well as municipal facilities covered under an Municipal Separate Stormwater Sewer System (MS4) permit and construction erosion control. The course addresses prevention of storm water pollution by teaching the Best Management Practices (BMPs) of controlling and working with storm water. Prerequisite: CENG3361 or equivalent or dept. chair approval.
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3.00 Credits
A comprehensive coverage of the standard contracts between various agencies involved in construction. Analysis of traditional and current project delivery methodologies. Prerequisite: CENG 4336 or CI.
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3.00 Credits
This course provides students with an introduction to the general concepts and applications of Global Positioning Systems and Geographic Information Systems through several project-based water resources and environmental engineering applications. Through work on various real-world problems, students develop insight with regard to spatialbased applications and the diversity of each technology¿s potential applications. The course will emphasize the use of both technologies as part of an integrated planning and decision making process. Prerequisite: (MENG 3310 or CENG3310) and CENG 2336 or equivalent or dept chair approval.
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3.00 Credits
This course will build on the information that is normally provided to students in the undergraduate construction management courses on planning and control of construction projects. The focus of this course will be quantitative tools that can be used in planning and controlling construction projects. Topics to be covered will include cash flow forecasting, site planning, site administration, risk analysis, contract documents, and contracts administration. Advanced planning tools such as line of balance, velocity diagrams, time-cost trade off, resource planning with applications to construction projects will also be discussed. Prerequisites: CENG 4331, CENG 4336, CENG 4338, ENGR 3301 ENGR 4306 or CI.
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3.00 Credits
The course examines the behavior and interaction between all phases of urban water management: water supply, stormwater management, water distribution, and wastewater collection. Students learn how conservation practices and water sensitive urban design can reduce the amount of water required by an urban area. Prerequisite: MENG 3310 or CENG 3310or equivalent course in open channel flow or dept. chair approval.
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3.00 Credits
This course addresses the design of smallscale, low cost systems for drinking water supply and wastewater disposal. Topics include surface water intakes, wells, storage tanks, water distribution systems, water quality testing, septic tanks, leach fields, and oxidation ponds. The course emphasizes on-site data collection methods, practical issues of design, and project sustainability. Prerequisite: MENG 3310 or CENG3310 or equivalent or dept chairs approval.
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3.00 Credits
The objective of this course is to familiarize students with the fundamentals of water control and its application in flow regulation and measurement in open-channel irrigation systems. Students will learn how water is controlled in irrigation systems in order to satisfy crop water requirements. Prerequisite: MENG 3310 or CENG3310 or course in open channel flow or dept chairs approval.
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3.00 Credits
Structured study of civil engineering topics not found in other courses. May be repeated for a maximum of six credits if different topics are covered. Prerequisite: Dept. Chair Approval.
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3.00 Credits
Theoretical foundations of transportation planning, analysis, and evaluation methods. Theory and application of aggregate and disaggregate models of land use, trip generation, and destination, mode, and route choice. Travel demand modeling and transportation network analysis for evaluation of system alternatives. Prerequisites: CENG 3351, ENGR 3301, ENGR 4306 or CI.
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3.00 Credits
Introduction to operations research techniques and advanced mathematics for the analysis of engineering systems. Principles of problem identification and model formulation, linear and nonlinear programming, integer programming, multi-objective programming, dynamic programming and network programming. Foundations of the risk analysis, statistical modeling, and computer simulation. Topics also include advanced linear algebra, partial differential equations, and fourier analysis. Prerequisite: ENGR 3301 or MATH3353 or equivalent or dept chair approval.
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