This purpose of this course is to introduce and familiarize students with engineering economics. Students will apply the concepts of the time value of money to infrastructure management. Students will be able to compare cash flows using net present value, future value, and cost-benefit analysis. Students will use cost indices to complete cost estimations. Students will be able to make appropriate adjustments for depreciation and inflation.

Building a concrete canoe offers students hands-on experience with concrete mix designs and project management. Annual design challenge, set by the ASCE, evolves each year. Students apply the engineering design process to research, design, build, test and race a full-scale concrete canoe. Course will be offered as CE2720 for non-engineering students, focusing on financial, management, communications, and other tasks appropriate to their skills.

Course provides a hands-on overview in energy infrastructure as it relates to climate and the environment. Students will learn quantitative tools to analyze power, buildings, manufacturing, and transportation systems. The course will explore the broad impacts of the energy transition away from fossil fuels. Students will undertake an open-ended, team-based life cycle assessment project.  Prerequisites: CE2100 or CHE2215.

Introduction to computational tools and approaches common in water resource engineering. Topics include: geographic information systems (GIS) for water resources; software tools applied for hydrologic and hydraulic data analysis and visualization; and use of industry-standard hydrology and hydraulic models water resource system simulation and design. Pre/Coreq: Students must have completed or currently enrolled in CE 3220.

Introduction of concepts, approaches, procedures, and codes for the design of civil structural systems with emphasis on the characterization of structural loads, structural systems and system behavior on structural systems constructed of steel and reinforced concrete. Topics to include engineering properties of materials, design and behavior of compression members, flexural members, and tension members. Prerequisite: CE3300 or equivalent.

Computer aided design applications of the fundamentals of transportation infrastructure design using real world scenarios. Application topics include: highway geometric design for highway facilities; intersection design including at-grade, roundabouts, and grade separated interchanges, and the transportation improvements associated with a new development. Co-requisite: CE 3400. Prerequisite: CE 2010, CE 2305, CE 3700

Building a concrete canoe offers hands-on experience with concrete mix designs and project management. The annual ASCE design challenge evolves each year. Students apply the engineering design process to research, design, build, test, and race a full-scale concrete canoe, contributing based on their skills and interests; might perform concrete and buoyancy calculations, or hydrodynamic flume testing. For Engineering students only.

Students will be introduced to current civil engineering challenges and emerging solutions. Research and practical case studies will be included. Participants will summarize and explore implications of introduced topics.

Students will learn how to use Building Information Modeling (BIM) to 1) support the decision-making over a project life cycle and 2) improve coordination between stakeholders throughout the design and construction stages. With this hands-on course, students will learn how to integrate all models of a project to visualize construction processes and better predict, manage, and communicate project outcomes.

This course takes a systems perspective to study and design for sustainability in the built environment at various scales (e.g., materials, buildings, cities, and regions) and for different types of systems (e.g., physical, social, information). Students from SEAS, A-School, and other majors are welcome in this course, which emphasizes interdisciplinary design collaboration and diversity of thought.