| source Yale (X) |
level |
department Environmental Engineering (X) |
TTh 2.30-3.45 Fall 2009 Final exam scheduled (Group 27) 12/17/2009 Th 2.00 Areas Sc Energy sustainability and global warming; thermodynamic fundamentals; engines (combustion technologies, fossil-fuel pollution, carbon capture and sequestration). Wind, solar, biomass, and other renewable energy sources. Designed for non-science majors and for freshmen and sophomores in science and engineering.
Score: 11.653314 Details | Listing | Web page
MW 1.00-2.15 Fall 2009 Final exam scheduled (Group 36) 12/14/2009 M 2.00 Skills QR Areas Sc Meets during reading period Analysis of the transport and reactions of chemical species as applied to problems in chemical, biochemical, and environmental systems. Emphasis on the interpretation of laboratory experiments, mathematical modeling, and dimensional analysis. Lectures include classroom demonstrations.
Score: 11.653314 Details | Listing | Web page
TTh 11.35-12.50 Fall 2009 Final exam scheduled (Group 24) 12/15/2009 T 9.00 Skills QR Areas Sc Meets during reading period Constraints on permanent human settlements caused by limited availability of reliable water sources. Environmental problems that arise when either the quality of naturally occurring water is deficient, or its quantity is excessive (floods) or insufficient (droughts). The designing of modifications to supplement the natural hydrologic cycle at a specific location.
Score: 11.653314 Details | Listing | Web page
TTh 4.00-5.15 Fall 2009 Final exam scheduled (Group 27) 12/17/2009 Th 2.00 Skills QR Areas Sc Meets during reading period Kinetics, thermodynamics, and transport of chemical reactions of common air pollutants including suspended particulate matter. The role of surface chemistry and transport phenomena in air pollution. Pollutant dispersion modeling. Technology available to prevent or control air pollutants.
Score: 11.653314 Details | Listing | Web page
TTh 2.30-3.45 Fall 2009 Final exam scheduled (Group 27) 12/17/2009 Th 2.00 Areas Sc Permission of instructor required Meets during reading period Study of the preparation of water for domestic and other uses and treatment of wastewater for recycling or discharge to the environment. Topics include processes for removal of organics and inorganics, regulation of dissolved oxygen, and techniques such as ion exchange, electrodialysis, reverse osmosis, activated carbon adsorption, and biological methods.
Score: 11.653314 Details | Listing | Web page
MW 1.00-2.15 Fall 2009 Final exam scheduled (Group 36) 12/14/2009 M 2.00 Areas Sc Fundamental aspects of microbiology and biochemistry, including stoichiometry, kinetics, and energetics of biochemical reactions, microbial growth, and microbial ecology as they pertain to biological processes for the transformation of environmental contaminants; principles for analysis and design of aerobic and anaerobic processes, including suspended- and attached-growth systems, for treatment of conventional and hazardous pollutants in municipal and industrial wastewaters and in groundwater.
Score: 11.653314 Details | Listing | Web page
MW 1.00-2.15 Fall 2009 Final exam scheduled (Group 36) 12/14/2009 M 2.00 Engineering, environmental, and financial perspectives applied to selected industries. Methods from operations management, industrial ecology, green chemistry and engineering, and accounting and finance are used to investigate sustainability approaches and the relationship between environmental and economic considerations. Tools include discounted cash-flow analysis, life-cycle assessment, and environmental cost accounting. Field trips to companies.
Score: 11.653314 Details | Listing | Web page
Fall 2009 Final exam scheduled (Group 26) 12/15/2009 T 2.00 Broad analysis of problems related to water resources and environmental issues. Management modeling that simultaneously considers engineering aspects, water quality, environmental characteristics, economic aspects, and community welfare. Decision-making tools for reaching a quantitatively optimal situation within a series of given limitations.
Score: 11.653314 Details | Listing | Web page
WF 4.00-5.15 Fall 2009 Final exam scheduled (Group 37) 12/18/2009 F 2.00 Permission of instructor required Fundamentals and applications of probabilistic risk assessment and management in the context of environmental issues. Focus on developing and applying probabilistic and deterministic models to quantify potential risks of industrial processes and support risk-based decisions that account for societal, environmental, and economic constraints. Case studies emphasize the importance of green energy sources, professional ethics, and public health and safety.
Score: 11.653314 Details | Listing | Web page
MW 2.30-3.45 Fall 2009 Final exam scheduled (Group 37) 12/18/2009 F 2.00 Skills QR Areas Sc Analysis of transport phenomena governing the fate of chemical and biological contaminants in environmental systems. Emphasis on quantifying contaminant transport rates and distributions in natural and engineered environments. Topics include distribution of chemicals between phases; diffusive and convective transport; interfacial mass transfer; contaminant transport in groundwater, lakes, and rivers; analysis of transport phenomena involving particulate and microbial contaminants.
Score: 11.653314 Details | Listing | Web page
1 HTBA Fall 2009 No regular final examination Permission of instructor required Faculty-supervised individual or small-group projects with emphasis on research (laboratory or theory), engineering design, or tutorial study. Students are expected to consult the director of undergraduate studies and appropriate faculty members about ideas and suggestions for suitable topics.
Score: 11.653314 Details | Listing | Web page
1 HTBA Fall 2009 No regular final examination Permission of instructor required Individual research and design projects supervised by a faculty member in Environmental Engineering, or in a related field with permission of the director of undergraduate studies.
Score: 11.653314 Details | Listing | Web page