Introduces dynamic response of linear elastic single and multiple degree of freedom systems. Includes time and frequency domain analysis and numerical methods for dynamic analysis. Undergraduate students may contact the instructor for permission to be enrolled. Requisites: Restricted to graduate students only.
Covers the optical design process for illumination-based optics, emphasis on applications in architectural lighting. In-depth coverage of luminaire photometry, lamps, materials, manufacturing methods, product performance requirements. Projects utilize optical design software, and include a variety of lamp types including LEDs using both reflector/lens optics. Department enforced prereq., AREN 3540. Same as AREN 4130.
Provides foundation for advanced study of structural and material behavior and continuum theories in mechanics. Topics include Cartesian tensors, elements of continuum mechanics, constitutive laws for elastic solids, energy principles, methods of potentials,formulations of 2D and 3D elastostatic problems,and general analytical and numerical solutions.
Covers advanced topics in the mechanics of solids. Some topics such as asymmetric bending of beams, torsion of non-circular cross-sections etc. are extensions of topics seen in CVEN 3161. Others like 3-D stress and strain analysis, failure theories and stability of columns and frames are new. The course includes selected laboratory experiments. Same as CVEN 4161. Requisites: Restricted to graduate students only.
Provides an overview of the development process and proforma, investigates the interrelationship between design decisions and building costs, and evaluates the impact of each major building system on the development budget and schedule. Provides a simulated development experience where students respond to a Request for Proposal, including proformas, design, estimates and outline specifications. Department consent required. Taught intermittently.
Teaches students to interpret commonly used financial reports in the construction engineering industry sector. Skills developed in this course will better prepare students to become competent consumers of financial information and influence future results the construction business. Models for financing public and private sector projects will also be explored. Recommended restriction, graduate standing or department consent required. Taught intermittently.
Comprehensively studies quality and safety in the construction industry. Statistical techniques for quality assurance and control will be reviewed and applied. The course also extensively focuses on advanced safety management issues such as accident causation theory, economic modeling, safety risk quantification and analysis, design for safety, and emerging technologies. Skills developed in this course will prepare graduate students to be effective quality and safety managers or researchers.
Applies law in engineering practice; contracts, construction contract documents, construction specification writing, agency, partnership, and property; types of construction contracts; and legal responsibilities and ethical requirements of the professional engineer. Recommended restriction, graduate standing or department consent required. Taught intermittently.
Acquaints students with the fundamental principles and techniques of risk and decision analysis. Oriented toward project-level decisions in which risk or uncertainty plays a central role. Introduces students to Monte Carlo analyses, and various types of multicriteria decision analyses. Culminates in a larger term project. Recommended prereqs., CVEN 3227 and graduate standing or instructor consent required.
Considers effective/efficient design of construction operations. Front end planning; construction labor relations; productivity management. Emphasizes construction productivity improvement by group field studies and discrete event simulation modeling. How overtime, changes, weather, and staffing levels influence productivity. Industrial engineering techniques are applied to the construction environment to improve the use of equipment, human, and material resources. Recommended restriction, graduate standing or department consent required.
Analysis of viscous incompressible flows, with first-principle solutions for environmental fluid flows in oceans, rivers, lakes and the atmosphere. Topics include the Navier-Stokes equations, kinematics, vorticity dynamics, geophysical fluid dynamics, and density stratification. Department enforced prereqs., APPM 2350, APPM 2360, and CVEN 3313. Requisites: Restricted to graduate students 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 hydrology as a quantitative science describing the occurrence, distribution and movement of water at and near the surface of the earth. Develops a quantitative understanding of atmospheric water, infiltration, evapotranspiration and surface runoff. Studies global climatology and large scale climate drivers of regional hydrology at interannual time scales. Solves engineering problems related to water resources. Department enforced prereqs., CVEN 4333, 5454, and 5537. Requisites: Restricted to graduate students only.
Studies transport and dispersion of introduced contaminants in turbulent surface water flows. Emphasizes developing a physical understanding of fluid processes responsible for turbulent dispersion. Includes analytical development, numerical modeling, and experimental approaches to the problem.
Explores organizational and managerial issues and concerns facing executives in engineering and construction organizations. Through readings, case studies, simulation exercises, and projects, students are introduced to and apply concepts of strategy, core competencies, vision, innovation, team dynamics, interpersonal influence, organizational design issues, and global projects to engineering and construction organizations.
Studies the occurrence, movement, extraction for use, and quantity and quality aspects of groundwater. Introduces and uses basic concepts to solve engineering and geohydrologic problems. Department enforced prereqs., CVEN 3313 or AREN 2120 or CHEN 3200 or GEEN 3853 or MCEN 3021, and APPM 2360. Requisites: Restricted to graduate students only.
Introduces students to modeling techniques. Focus areas include physical hydrology and hydrometeorology; measurement and inference; climate change impacts; role of scale in hydrology; uncertainty analysis; and a case study project. Projects will examine hydrologic impacts of various drivers such as climate warming or land cover change, utilizing an assessment of historic conditions to better understand and model future disturbance scenarios.
Discusses contemporary issues in water management based on legal doctrine. Identifies legal issues in water resources problems and discusses in close relationship with technical, economic, and political considerations. Requisites: Restricted to students with 87-180 credits (Seniors) or graduate students only.
Studies analytical and numerical methods for solving problems of groundwater flow and chemical transport. Emphasizes fundamental modeling techniques and the relationship between the physical system and the model results. Applies models and modeling techniques to solve problems in ground water hydrology using contemporary software. Same as CVEN 4383. Department enforced prereqs., APPM 2360 and CVEN 4353 or CVEN 5353.
Introduces water resources planning and management as an integrated systems problem that satisfies multiple competing obejctives under constraints and uncertainty. Includes problem formulation and solution using decision support systems, optimization with and without uncertainty, stochastic simulation, and multiobjective optimization. Introduces water resources economics and planning under uncertainties such as climate change and increasing urbanization. Requisites: Restricted to students with 87-180 credits (Seniors) or 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.