printer friendly pageCEE 279: Environmental Engineering Seminar
Current research, practice, and thinking in environmental engineering and science. Attendance at seminars is self-directed, the 20 hours of required seminar attendance may be accrued throughout the school year. Must prepare a publication synopsis, and maintain log of seminar attendance. See Aut Qtr
CEE 279 syllabus for details on course requirements. Contact hildemann@stanford.edu to be added to Coursework website.
Terms: Aut
| Units: 1
| Repeatable
3 times
(up to 3 units total)
CEE 279A: Environmental Engineering & Science Seminar (CEE 269A)
Presentations on current research in environmental engineering and science by Civil & Environmental Engineering faculty.
Terms: Aut
| Units: 1
| Repeatable
2 times
(up to 2 units total)
Instructors:
Fringer, O. (PI)
CEE 279B: Environmental Engineering & Science Seminar (CEE 269B)
Presentations on current research, practice and thinking in environmental engineering and science by visiting academics and practitioners.
Terms: Win
| Units: 1
| Repeatable
2 times
(up to 2 units total)
Instructors:
Ong, C. (PI)
CEE 279C: Environmental Engineering and Science Seminar (CEE 269C)
Presentations on current research, practice and thinking in environmental engineering and science by visiting academics and practitioners
Terms: Win, Spr
| Units: 1
| Repeatable
2 times
(up to 2 units total)
Instructors:
Ong, C. (PI)
CEE 279F: Frontiers of Anaerobic Treatment (CEE 179F)
This seminar will present the latest findings on the operation and performance of ground-breaking anaerobic treatment processes for domestic wastewater. Specifically, this seminar will examine the performance of the Staged Anaerobic Fluidized-bed Membrane Bioreactor (SAF-MBR) using results from ongoing operations at the Codiga Resource Recover Center and from previous and parallel research efforts. The seminars will incorporate a description of the fundamentals of anaerobic treatment processes, a discussion of how the SAF-MBR process is different from typical anaerobic processes, and insights from operations along with implications for system design. Course work will include explorations of the costs, benefits, and market potential of this technology.
Terms: Aut
| Units: 1
Instructors:
Tilmans, S. (PI)
CEE 279S: Seminar: Issues in Environmental Science, Technology and Sustainability (CEE 179S, EARTHSYS 179S, ESS 179S)
Invited faculty, researchers and professionals share their insights and perspectives on a broad range of environmental and sustainability issues. Students critique seminar presentations and associated readings.
Terms: Sum
| Units: 1-2
| Repeatable
2 times
(up to 4 units total)
Instructors:
Robertson, A. (PI)
;
Ong, C. (SI)
CEE 279W: Innovation in Water Sector
A project class on the diffusion of ReNUWIt technologies into practice (David Sedlak is the overall course lead at UC Berkeley, Chris Higgins is the lead at Colorado School of Mines, and Dick Luthy is the lead at Stanford). Specifically, the class will examine the pathway through which ReNUWIt¿s engineered wetland technologies will be adopted by utilities and consultants beyond our current group of industrial partners. We will work together to prepare background information that will be used in a 2-day workshop involving ReNUWIt researchers, utility leaders and technical experts in early 2015.
Last offered: Autumn 2014
CEE 280: Advanced Structural Analysis
Theoretical development and computer implementation of direct stiffness method of structural analysis; virtual work principles; computation of element stiffness matrices and load vectors; direct assembly procedures; equation solution techniques. Analysis of two- and three-dimensional truss and frame structures, thermal loads, and substructuring and condensation techniques for large systems. Practical modeling techniques and programming assignments. Introduction to nonlinear analysis concepts. Prerequisites: elementary structural analysis and matrix algebra.
Terms: Aut
| Units: 3-4
Instructors:
Deierlein, G. (PI)
CEE 281: Mechanics and Finite Elements
Fluid conduction and solid deformation; conservation laws: balance of mass and balance of momentum; generalized Darcy's law and Hooke's law in 3D; the use of tensors in mechanics; finite element formulation of boundary-value problems; variational equations and Galerkin approximations; basic shape functions, numerical integration, and assembly operations.
Terms: Win
| Units: 3
CEE 282: Nonlinear Structural Analysis
Introduction to methods of geometric and material nonlinear analysis, emphasizing modeling approaches for framed structures. Large-displacement analysis, concentrated and distributed plasticity models, and nonlinear solution methods. Applications to frame stability and performance-based seismic design. Assignments emphasize computer implementation and applications. Prerequisites: 280 and an advanced course in structural behavior (e.g., 285A, 285B or equivalent).
Terms: Win
| Units: 3-4
Instructors:
Deierlein, G. (PI)
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