Haoran Yu, PhD
Winter Term 2026 (1940)
CIV E 321 - Principles of Environmental Modeling and Risk
3 units (fi 8)(EITHER, 3-0-3/2)
Introduction modeling environmental processes to predict the movement of water and fate of contaminants in the hydrologic cycle. Principles of mass transfer, conservation of mass, environmental transformations, nutrient enrichment and depletion are developed. Introduction to storm events, rainfall, runoff, stream discharge and stormwater management. Applications of modeling results to the quantification of risk using examples from hydrology, water pollution and health protection and development of environmental regulations. Prerequisite: CIV E 221. Corequisite: CIV E 330.
LECTURE B1 (80411)
2026-01-05 - 2026-04-10
TR 08:00 - 09:20
LAB H51 (80412)
2026-01-23 - 2026-01-23
F 14:00 - 16:50
2026-02-06 - 2026-02-06
F 14:00 - 16:50
2026-02-27 - 2026-02-27
F 14:00 - 16:50
2026-03-13 - 2026-03-13
F 14:00 - 16:50
2026-03-27 - 2026-03-27
F 14:00 - 16:50
LAB H52 (80413)
2026-01-16 - 2026-01-16
F 14:00 - 16:50
2026-01-30 - 2026-01-30
F 14:00 - 16:50
2026-02-13 - 2026-02-13
F 14:00 - 16:50
2026-03-06 - 2026-03-06
F 14:00 - 16:50
2026-03-20 - 2026-03-20
F 14:00 - 16:50
CIV E 657 - Air Pollution Control
3 units (fi 6)(FIRST, 3-0-0)
Overview of air quality regulations. Overview of fundamental principles in air quality engineering. Theory and application of processes for gaseous and particulate pollutants control, including incineration, adsorption, absorption, biofiltration, cyclonic separation, electrostatic precipitation, filtration, and scrubbing. Special applications may include the control of sulfur dioxide, nitrogen oxides, volatile organic compounds, and mobile/automotive emissions.
LECTURE B1 (89112)
2026-01-05 - 2026-04-10
TR 14:00 - 15:20