Emphasizes chemical, ecological, and hydrological fundamentals and importance of mass and energy balances in solving environmental engineering problems related to water quality, water and wastewater treatment, air pollution, solid and hazardous waste management, sustainability, and risk assessment. Requisites: Requires prereq courses of CHEN 1211 and CHEM 1211 (or CHEM 1113 and CHEM 1114 or CHEM 1251 or CHEM 1351) and APPM 1360 (or MATH 2300; all min grade C-). Restricted to CVEN, AREN, EVEN, MCEN, CHEN, GEEN or AMEN majors only.
Introduces design and operation of facilities for treatment of municipal water supplies and wastewater. Provides an engineering application of physical, chemical, and biological unit processes and operations for removal of impurities and pollutants. Involves an integrated design of whole treatment systems combining process elements. Requisites: Requires prerequisite course of CVEN 3414 (minimum grade C-).
Emphasizes the integration of physical, chemical, and biological processes in controlling terrestrial and aquatic ecosystems. Ecosystem concepts are applied to current environmental and water quality problems. Includes field trips and a group project. Same as ENVS 3434. Requisites: Prereq courses of CHEN 1211 and CHEM 1211 (or CHEM 1113 and CHEM 1114 or CHEM 1251 or CHEM 1351; all min C-). Restricted to students with 57-180 credits (Junior or Senior) Civil (CVEN), Environmental (EVEN) or Architectural Engineering (AREN) mjrs.
Introduces chemical fundamentals of inorganic aqueous compounds and contaminants in lecture and laboratory. Lecture topics include thermodynamics and kinetics of acids and base reactions, carbonate chemistry, air-water exchange, precipitation, dissolution, complexation, oxidation-reduction, and sorption. Same as EVEN 4404. Requisites: Requires prerequisite courses of CHEN 1211 or CHEM 1113 and CHEM 1133 and CVEN 3414 (all minimum grade C-). Restricted to Civil (CVEN) or Environmental (EVEN) or General (GEEN) Engineering majors only.
Reinforces chemical fundamentals of inorganic aqueous compounds and contaminants from CVEN 4404, Water Chemistry, in laboratory experiments and reports. Topics include acids and bases, carbonate chemistry (alkalinity), and other water chemistry characteristics (hardness, dissolved oxygen); precipitation, complexation, and oxidation-reduction reactions; and laboratory techniques and reporting. Same as EVEN 4414. Requisites: Requires prerequisite courses of CHEN 1211 or CHEM 1113 and CHEM 1133 and CVEN 3414 (all minimum grade C-). Requires corequisite course of CVEN 4404. Restricted to Civil (CVEN) or Environmental (EVEN) Engineering majors only.
Examines the fundamental physical and chemical transformations affecting the fate and transport of organic contaminants in natural and treated waters. Emphasizes quantitative approach to solubility, vapor pressure, air-water exchange, sorption, hydrolysis and redox reactions, and photodegradation. Requisites: Requires prerequisite course of CHEN 1211 or CHEM 1113 or CHEM 1271 (minimum grade C-).
Examines the design of facilities for the treatment of municipal water and wastewater, hazardous industrial waste, contaminated environmental sites, and sustainable sanitation in developing countries. Economic, societal, and site specific criteria impacting designs are emphasized. Same as EVEN 4434. Requisites: Requires prerequisite course of CVEN 3414 (minimum grade C-).
Develops and utilizes analytic solutions for environmental process models that can be used in a) reactor design for processes used in the treatment of water, wastewater and hazardous waste and b) process analysis of natural systems, such as streams and groundwater flow. Models facilitate the tracking of contaminants in engineered and natural systems. Same as EVEN 4464. Requisites: Requires prerequisite or corequisite courses of CVEN 3414 and CVEN 3313 or CHEN 3200 or GEEN 3853 or MCEN 3021 or AREN 2120 (all minimum grade C-).
Evaluates processes used for treatment of wastes requiring special handling and disposal: toxic organic chemicals, heavy metals, and acidic, caustic, and radioactive waste material. Discusses techniques for destruction, immobilization, and resource recovery and assessment of environmental impact of treatment process end products. Same as CVEN 5474. Requisites: Requires prerequisite course of CVEN 3414 (minimum grade C-). Restricted to College of Engineering majors only.
Surveys microbiology topics germane to modern civil and environmental engineering. Provides fundamentals needed to understand microbial processes and ecology in engineered and natural systems and reviews applications emphasizing the interface between molecular biology and classical civil engineering. Same as EVEN 4484. Requisites: Requires prerequisite courses of CHEN 1211 and CHEM 1211 (or CHEM 1113 and CHEM 1114 or CHEM 1251 or CHEM 1351) and APPM 2350 (or MATH 2400; all minimum grade C-).
Introduces engineering methods for the study of air quality. Topics include: indoor air quality, greenhouse gases, dispersion modeling, source apportionment modeling, chemistry of combustion, pollution sources and controls, human exposure to air pollutants. A focus on Engineering for Developing Communities runs throughout. Elective for the EVEN air quality track or an environmental concentration course for CVEN. Same as CVEN 5554. Requisites: Requires prerequisite courses of APPM 2360 or MATH 3130 and 4430 and CVEN 3313 or CHEN 3200 or MCEN 3021 (all minimum grade C-).
Explores development of a safe, reliable, and acceptable program for reusing impaired waters. As fresh water becomes scarcer around the world, communities are looking for security through development of new water resources. Reuse of impaired water is one solution to the growing water crisis. Focus is on advanced treatment technologies with emphasis on public perception, economics, and regulations. Recommended prereq., CVEN 3424. Same as 5594. Requisites: Requires prerequisite course of CVEN 3414 (minimum grade C-). Restricted to College of Engineering students with 57-180 credits (Juniors or Seniors).
May be repeated up to 6 total credit hours provided topics are different. Department consent required. Requisites: Restricted to College of Engineering majors only.
Emphasizes the integration of hydrologic, chemical, and biological processes in controlling river, stream, and reservoir ecosystems at several spatial scales. Students apply ecosystem concepts to current environmental and water quality problems and learn field methods in field trips and a team project. Requisites: Restricted to graduate students only.
Introduces chemical fundamentals governing the chemistry of natural and treated waters. Topics include thermodynamics and kinetics of acid and base reactions, carbonate chemistry, air-water exchange, precipitation, dissolution, complexation, oxidation-reduction, and sorption. Requisites: Restricted to concurrent BS/MS (C-CVEN or C-EVENCVEN) or graduate students only.
Uses experimental and analytical laboratory techniques to develop a better understanding of the concepts of aquatic chemistry and to investigate water chemistry in treated and natural water systems. Techniques include titration, spectrophotometry, gas chromatography, other advanced instrumentation, sampling, portable analyses, and basic statistics and experimental design. Course focuses on water chemistry of Boulder Creek and other local waters. Requisites: Requires prerequisite course of CVEN 5404 or GEOL 5280 (minimum grade C-). Requires corequisite course of CVEN 5242.
Examines the fundamental physical and chemical processes that impact the fate and transport of organic contaminants in natural and engineered systems. Emphasizes both equilibrium and kinetic aspects, including solubility, vapor pressure, air-water exchange, sorption, abiotic redox reactions, and photodegradation.
Team-based design of facilities or processes for water or wastewater or solid waste treatment or remediation under multiple real-world constraints. Recommended prereq., CVEN 5524, 5534, or 5474. Department consent required.
Applies traditional and modern probability and statistical methods to environmental, hydrological, climatological and engineering data analysis. Topics include: basic probability, data visualization, fitting univariate and multivariate distributions, Monte Carlo simulations, extreme value distributions, confidence intervals and hypothesis testing, nonparametric density estimators, linear regression, and Bayesian analysis. The data analysis tool, R, is used throughout the course.
Develops and utilizes analytic solutions for environmental process models that can be used in a) reactor design for processes used in the treatment of water, wastewater and hazardous waste and b) process analysis of natural systems, such as streams and groundwater flow. Models facilitate the tracking of contaminants in engineered and natural systems. Same as EVEN 4464. Requisites: Restricted to graduate students only.
Examines the relationships among air, water, and landpollution, water quality, and beneficial uses. Using models, develops the ability to quantify and predict the impacts of pollutants in the aquatic environment, and to develop approaches to minimize unfavorablewater quality conditions. Department consent required.
Advanced study on biological processes used to treat toxic organic and inorganic compounds contained in contaminated water, air, and soil; design and evaluation of in situ toxic compound biotransformation; fundaments of phytoremediation; critical reviews of current literature on bioremediation. Recommedned prereq., CVEN 5424. Department enforced prereq., CVEN 4484 or 5484 or instructor consent required.