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DMSB 728 - Indian Business Issues Credits: 1
Issues of doing business in India: business, economic, and political factors affecting the business climate.
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DMSB 729 - Japanese Business Issues Credits: 1
Issues of doing business in Japan: business, economic, and political factors affecting the business climate.
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DMSB 730 - African Business Issues Credits: 1
Issues of doing business in Africa: business, economic, and political factors affecting the business climate.
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DMSB 731 - Latin American Business Issues Credits: 1
Issues of doing business in Latin America: business, economic, and political factors affecting the business climate.
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DMSB 732 - Competition and Change in North America Credits: 1
Issues of doing business in North America: business, economic, and political factors affecting the business climate.
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DMSB 733 - Global Business Strategy Simulations Credits: 2
Examines the impact of strategic decisions on firm performance through realistic global industry simulations.
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DMSB 734 - International Tax Planning Credits: 2
Examines the tax issues facing international managers, including the avoidance of double taxation, benefits of incentives, outsourcing, corporate inversions, and transfer pricing.
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DMSB 735 - Western European Business Issues Credits: 1
Issues of doing business in Western Europe: business, economic, and political factors affecting the business climate.
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DMSB 736 - Central and Eastern European Business Issues Credits: 1
Issues of doing business in Central and Eastern Europe: business, economic, and political factors affecting the business climate.
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DMSB 740 - Management of Human Capital Credits: 2
Provides the general manager with an overview of theory, research, and practice in the formal management of an organization’s human capital. Topics include: strategic alignment of human capital talent acquisition (planning, recruiting, interviewing), effective compensation/incentive design, performance management, and global talent management issues.
Note: Effective: Summer I 2013
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DMSB 741 - Comparative Institutional Systems Credits: 3
Introduced conceptual perspectives for understanding dramatic economic events in the global economy; a comparative view of national institution-based systems.
Cross-listed Course: IBUS 707
Note: Effective: Summer I 2013
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DMSB 750 - Capstone Experience Credits: 3
Capstone experience course for the IMBA and AMBA programs will develop Integration and application of prior functional coursework (e,g, marketing finance operations etc,) to address simulated but realist strategic business issues. Working within cross functional teams students will also further refine critical leadership and interpersonal skills.
Note: Effective: Summer I 2013
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DMSB 798 - Field Consulting Program Credits: 6
Management decision making in the corporate environment. Projects assigned on a group basis with emphasis on teamwork, oral and written communication skills in business operations, planning, problem solving, and research.
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ECHE 520 - Chemical Engineering Fluid Mechanics Credits: 3
Multi-phase pressure drop, phase contacting, flow through porous media, fluidization, mixing, and turbulence.
Prerequisites: ECHE 320 or ENCP 360
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ECHE 521 - Computational Fluid Dynamics for Engineering Applications Credits: 3
Introduction to the use of computational fluid dynamics codes to analyze flow, heat, and mass transfer problems of practical engineering applications.
Prerequisites: ECHE 320 OR EMCH 360 OR ECIV 360 OR ENCP 360 OR AESP 265
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ECHE 550 - Chemical-Process Dynamics and Control Credits: 3
Fundamental physical and chemical principles in mathematically modeling the dynamic response of chemical processes; feedforward and feedback control systems; design of control schemes for selected chemical processes.
Prerequisites: grade of C or better in ECHE 300 and MATH 242
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ECHE 567 - Process Safety, Health, and Loss Prevention Credits: 3
Reliability, availability, and fault-tree analyses, risk indices, hazard evaluation, vapor cloud modeling, toxicology, material safety classification and regulations, individual/corporate ethical responsibilities.
Prerequisite or Corequisite:
ECHE 466
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ECHE 571 - Corrosion Engineering Credits: 3
Basic principles of corrosion engineering developed from a chemical engineering approach to thermodynamics, kinetics, mass transfer, and potential theory.
Prerequisites: ECHE 311
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ECHE 572 - Polymer Processing Credits: 3
Industrial polymers with emphasis on their characterization and on the modeling of the major polymer fabrication processes.
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ECHE 573 - Next Energy Credits: 3
An examination of energy technologies that will enable society to move from an economy based on fossil fuels to one based on sustainable energy.
Note: Effective: Fall 2012
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ECHE 589 - Special Advanced Topics in Chemical Engineering Credits: 3
Course content varies and will be announced in the schedule of classes by suffix and title. May be repeated as topic varies.
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ECHE 700 - Chemical Process Analysis Credits: 3
Quantitative analysis of industrial chemical operations. Equilibrium relations, material and energy balances, and reaction kinetics principles are used to analyze a variety of chemical processes and systems.
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ECHE 709 - Selected Topics in Industrial Stoichiometry Credits: 3
Special topics in industrial stoichiometry with emphasis on current research.
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ECHE 710 - Advanced Chemical Engineering Thermodynamics Credits: 3
Mass, energy, and entropy balance analysis of complex systems; evaluation of thermodynamic property changes of pure materials; solution thermodynamics of single-phase multicomponent systems; phase and chemical reaction equilibrium.
Prerequisites: ECHE 311
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ECHE 719 - Selected Topics in Chemical Engineering Thermodynamics Credits: 3
Special topics in chemical engineering thermodynamics with emphasis on current research.
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ECHE 720 - Advanced Fluid Flow Analysis Credits: 3
Theory and application of fluid flow phenomena; momentum equations, conformal mapping, empirical methods, boundary layers, dimensional analysis.
Prerequisites: ENCP 360 and MATH 242
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ECHE 721 - Advanced Heat Flow Analysis Credits: 3
Theory and application of heat flow phenomena; classical techniques and finite-difference numerical methods; conduction, convection, radiation, boiling.
Prerequisites: ECHE 321 and ECHE 720
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ECHE 722 - Advanced Mass Transfer Credits: 3
Diffusive and convective mass transfer. Applications of the Stefan-Maxwell equations, prediction of diffusion coefficients, convective mass transport, correlations for mass transfer coefficients, and combined mass transfer and reaction modeling.
Corequisite: Prereq or coreq: ECHE 720
Prerequisites: Prereq or coreq: ECHE 720
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ECHE 725 - Rheology Credits: 3
Rheological characteristics of viscous, elastic, viscoelastic, and plastic substances; non-Newtonian fluid flow, viscometry, and rheogoniometry; rheological equations of state; engineering applications.
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ECHE 728 - Selected Topics in Fluid Mechanics Credits: 3
Special topics in fluid mechanics with emphasis on current research.
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ECHE 729 - Selected Topics in Heat and Mass Transfer Credits: 3
Special topics in heat and mass transfer with emphasis on current research.
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ECHE 730 - Chemical Reactor Design Credits: 3
Optimum temperature sequencing. Modeling of non-ideal reactors. Theories of catalysis with emphasis on the rate of diffusion. Interpretation of experimental catalytic data and use of these data in reactor design.
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ECHE 739 - Selected Topics in Kinetics and Reactor Design Credits: 3
Special topics in kinetics and reactor design with emphasis on current research.
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ECHE 740 - Distillation Credits: 3
Analytical, shortcut, and computer techniques for plate contacting of multicomponent systems. Review of binary separations, V-L-E models, azeotropic and extractive distillation, effects of non-key components, computational schemes, and convergence criteria.
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ECHE 741 - Liquid-Liquid Extraction Credits: 3
Principles of modeling liquid-liquid extraction cascades. Evaluation of L-L-E, ternary systems, design applications for hydrometallurgical systems, interlinked cascade structures for multiple solute systems, efficiency of process equipment, and synergism.
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ECHE 742 - Adsorption Fundamentals and Processes Credits: 3
Advanced principles of adsorption and adsorption processes including adsorbents, thermodynamics, kinetics, fixed bed adsorption and cyclic adsorption processes.
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ECHE 749 - Selected Topics in Separations Credits: 3
Special topics in separations with emphasis on current research.
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ECHE 750 - Process Dynamics and Control Credits: 3
Advanced topics in chemical process dynamics and control. Multivariate analysis, system identification, sampling, optimal process control.
Prerequisites: ECHE 550
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ECHE 759 - Selected Topics in Process Control Credits: 3
Special topics in process control with emphasis on current research.
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ECHE 769 - Selected Topics in Chemical Engineering Design Credits: 3
Special topics in chemical engineering design with emphasis on current research.
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ECHE 770 - Electrochemical Engineering Credits: 3
Electrochemical engineering principles developed from thermodynamic, kinetic, mass transfer, and potential theory. Numerical analysis and design of electrochemical systems. Statistical analysis of experimental data and industrial experimental designs.
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ECHE 771 - Corrosion Engineering Credits: 3
Corrosion engineering principles developed from thermodynamic, kinetic, mass transfer, and potential theory. Numerical analysis of corroding systems, statistical analysis of experimental data, and industrial experimental designs.
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ECHE 772 - Principles of Polymer Systems Credits: 3
Theory and applications of polymer systems. Structure, physical properties, rheological, and mechanical behavior of polymers. Polymerization reactions and industrial polymerization processes. Fabrication techniques.
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ECHE 789 - Selected Topics in Chemical Engineering Credits: 3
Approved for special topic offerings.
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ECHE 797 - Research Credits: 1-12
Individual research to be arranged with instructor.
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ECHE 798 - Graduate Seminar in Chemical Engineering Credits: 1-2
Seminar on current topics in chemical engineering. Includes oral presentations by students on research projects.
Note: Pass-Fail grading. Restricted to chemical engineering students.
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ECHE 799 - Thesis Preparation Credits: 1-12
To be arranged by candidates for the master’s degree with the thesis advisor.
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ECHE 865 - Chemical Process Safety and Loss Prevention Credits: 3
Chemical process quantitative risk analysis, consequence modeling, risk estimation, and hazards assessment; design principles including inherent safety and mitigation techniques; elements of process safety management.
Prerequisites: ECHE 720
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ECHE 899 - Dissertation Preparation Credits: 1-12
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ECIV 503 - Structural Modeling and Experimental Methods Credits: 3
Introduction of structural modeling; strain gauge instrumentation; force, displacement, acceleration, pressure, temperature measurements; concrete and steel modeling; size effects; analysis of experimental data.
Prerequisites: ECIV 327
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ECIV 520 - Structural Analysis II Credits: 3
Advanced methods of structural analysis with emphasis on matrix methods. Development of the generalized matrix force and matrix displacement methods of static analysis, with applications to trusses and frames.
Prerequisites: ECIV 320
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ECIV 521 - Numerical Methods in Mechanics Credits: 3
Numerical modeling of typical engineering problems. Numerical solution of linear and nonlinear, boundary and initial value problems. Introduction to optimization.
Prerequisites: ECIV 201
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ECIV 524 - Structural Vibrations Credits: 3
Response of single- and multiple-degree of freedom structurally dynamic systems to impact, harmonic, wind, and seismic excitations.
Prerequisites: ECIV 320
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ECIV 526 - Timber and Masonry Design Credits: 3
Basic engineering properties of timber and masonry materials, design methods and philosophies for timber and masonry structures. Particular attention is paid to current codes, specifications and analysis.
Prerequisites: a grade of C or better required in ECIV 320
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ECIV 530 - Foundation Analysis and Design Credits: 3
Subsurface investigation procedures. Theoretical and practical aspects of the design of earth retaining structures, spread footings, and pile foundations.
Prerequisites: ECIV 330
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ECIV 531 - Design of Earth Structures Credits: 3
Geotechncial engineering problems associated with the behavior of earth masses. Soil shear strength, lateral earth pressure, design of retaining stuctures, slope stability, water flow through soils.
Prerequisites: ECIV 330
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ECIV 533 - Geosynthetics and Geotechnical Design of Landfills Credits: 3
Principles for the design, construction, and performance of waste containment systems. Characterization of barrier materials; geosynthetics; design of liner and leachate collection systems; stability and deformation analyses of landfills.
Prerequisites: ECIV 330
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ECIV 535 - Geotechnical Engineering in Transportation Credits: 3
Remote sensing and engineering geology. Field and laboratory testing. Design and maintenance methods for flexible and rigid pavements. Topics in tunnel design and buried conduit.
Prerequisites: ECIV 330
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ECIV 539 - Experimental Methods in Geotechnical Engineering Credits: 3
Overview of transducers, signal conditioning and data acquisition; test control methods, data analysis and measurement errors; testing systems to measure soil strength, stiffness, and hydraulic conductivity; laboratory projects and examinations.
Prerequisites: ECIV 330, 330L
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ECIV 540 - Transportation Systems Planning Credits: 3
Fundamental interactions between supply and demand in transportation systems. Modeling transportation demand and trip-making behavior. Evaluation of alternatives for decision making.
Prerequisites: ECIV 340
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ECIV 541 - Highway Design Credits: 3
Design of transportation facilities using relevant tools and guidelines with emphasis on physical and operational aspects of arterials, freeways, intersections, and interchanges, including geometry, capacity, control, and safety.
Prerequisites: ECIV 111 and 340
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ECIV 542 - Traffic Engineering Credits: 3
Capacity analysis of freeways and arterials. Traffic flow characteristics and basic relationships among traffic flow parameters. Signalized and unsignalized intersection control and signal timing design.
Prerequisites: ECIV 340
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ECIV 551 - Elements of Water and Wastewater Treatment Credits: 3
Unit operations and processes employed in the physical, chemical, and biological treatment of water and wastewater. Design of water and wastewater treatment systems.
Prerequisites: ECIV 350
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ECIV 555 - Principles of Municipal Solid Waste Engineering Credits: 3
Fundamentals and engineering principles of solid waste generation, characterization, collection and transport, source reduction and recycling, and physical, chemical, and biological treatment strategies.
Prerequisites: ECIV 350, graduate standing or approval of the instructor
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ECIV 556 - Air Pollution Control Engineering Credits: 3
Introduction to the sources of air pollution and the engineering principles used for control and prevention.
Prerequisites: ECIV 350
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ECIV 557 - Sustainable Construction for Engineers Credits: 3
Instruction to sustainable engineering design alternatives and principles for construction and site development from preconstruction through design and the construction phase
Prerequisites: ECIV 350, 570
Note: Minimum of junior standing required.
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ECIV 558 - Environmental Engineering Process Modeling Credits: 3
Modeling fate and transport phenomena in environmental processes with applications in engineered unit operators and natural systems.
Prerequisites: ECIV 350, MATH 242
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ECIV 560 - Open Channel Hydraulics Credits: 3
Steady and unsteady flows in single or multiple-channel systems.
Prerequisites: ECIV 360
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ECIV 562 - Engineering Hydrology Credits: 3
Applications of hydrologic techniques to design problems; stormwater simulation models; urban stormwater.
Prerequisites: ECIV 360
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ECIV 563 - Subsurface Hydrology Credits: 3
Hydrologic cycle, subsurface physical properties, equations of groundwater flow, well flow, well design, groundwater resource development, design of dewatering systems, groundwater contamination.
Prerequisites: ECIV 201 or ENCP 201 and ECIV 360 or ENCP 360
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ECIV 570 - Land Development for Engineers Credits: 3
Fundamentals of designing and permitting the conversion of land to new or altered states, including environmental issues, traffic and parking, utility resources, site engineering, ADA, safety, planning, and zoning requirements.
Prerequisites: three from ECIV 320, 330, 340, 350, and 362
Note: Restricted to upper division.
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ECIV 580 - Railway Engineering I Credits: 3
Introduction to the analysis and design of the railway infrastructure for freight and passenger systems to include track and track support systems, grade crossings, special trackwork, construction, inspection, assessment and compliance.
Prerequisite or Corequisite:
ECIV 303
Prerequisites: ECIV 320, ECIV 330, ECIV 340
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ECIV 582 - Operation and Logistics of Railway Systems Credits: 3
Principles of rail operations; Network management; Best practices for train planning, performance management and delivery of service; technical elements of a railway from an operations perspective (train controls, signaling, communications, yards, tractive power etc).
Prerequisites: ECIV 340
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ECIV 588 - Design of Railway Bridges and Structures Credits: 3
Introduction to railway infrastructure; Structural design considerations and criteria of railway structures; Bridge types and components; Planning and preliminary design of modern railway bridges; Loads and forces; Structural analysis and design of steel railway bridges and components.
Prerequisite or Corequisite:
ECIV 330; ECIV 325 or ECIV 327
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ECIV 705 - Deterministic Civil and Environmental Systems Engineering Credits: 3
Planning, design, and operation of large-scale, integrated civil and environmental engineering systems, with applications of mathematical programming and other search models.
Prerequisites: ECIV 405 or consent of instructor
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ECIV 706 - Probabilistic Civil and Environmental Systems Engineering Credits: 3
Civil and environmental systems engineering under uncertainty, including decision rules, decision theory, uncertainty propagation, stochastic programming, and conservative design.
Prerequisites: STAT 509 or consent of instructor
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ECIV 707 - Management of Engineering Projects Credits: 3
This course focuses in studying the life-cycle of a project using a systems engineering approach. Industry standards for engineering companies as well as practical considerations are studies through the semester.
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ECIV 708 - Engineering Risk and Reliability Credits: 3
Risk analysis is presented in the context of reliability in design including applications to mechanical and electrical systems with discussion of failure modes and life cycle costs.
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ECIV 712 - Boundary Element Methods in Engineering Credits: 3
Introduction to boundary element methods and their computer implementation. Steady-state and transient solutions of two- and three-dimensional problems of elasticity and potential flow.
Prerequisites: ENCP 260, MATH 242
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ECIV 720 - Advanced Structural Mechanics and Analysis Credits: 3
Development of concepts and practical applications of the finite element method of structural analysis with emphasis on the displacement method approach. Initial strains, specified displacements, numerical integration, and isoparametric elements are included.
Prerequisites: ECIV 520
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ECIV 722 - Theory and Design of Plates and Shells Credits: 3
Development of the fundamental differential equations for plates. Miscellaneous classic plate solutions. Membrane and bending solutions for shells of revolution, circular cylindrical shells, hyperbolic paraboloid shells and circular cylindrical barrel shells.
Prerequisites: MATH 242
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ECIV 724 - Dynamics of Structures Credits: 3
Lumped and continuous multidegree of freedom mechanical systems and structural assemblies. Steady-state, shock, and random excitation. Modal analysis, numerical methods. Introduction to wave propagation, earthquake engineering, and nonlinear vibrations.
Prerequisites: ENCP 260, MATH 242
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ECIV 725 - Advanced Analysis and Design in Structural Metals Credits: 3
Analysis and behavior of metal structural components under general loading combinations. Buckling phenomena of thin-walled open sections in the elastic and inelastic regions, and correlation with design code criteria. Behavior and design of plate girders.
Prerequisites: ECIV 325
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ECIV 726 - Repair and Retrofit of Structures Credits: 3
Analysis and modeling existing and repaired structures. Selection, modeling, and design of repair and/or retrofit measures.
Prerequisites: ECIV 520
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ECIV 727 - Advanced Analysis and Design of Reinforced Concrete Credits: 3
Design of multistory structures, two-way slabs, joints in buildings, pavement design, and miscellaneous topics.
Prerequisites: ECIV 327
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ECIV 728 - Prestressed Concrete Analysis and Design Credits: 3
Pre-stressing methods and materials; flexural analysis, shear and torsion, design of simple, composite and continuous beams. Deflections, slab design, and study of axially loaded members.
Prerequisites: ECIV 327
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ECIV 730 - Advanced Soil Mechanics Credits: 3
Course covers the mechanical properties of soil; analysis of the field and laboratory tests to determine soil properties required for foundation analysis and design; consolidation theory; and settlement analysis.
Prerequisites: ECIV 530
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ECIV 731 - Slope Stability, Retaining Systems, and Lateral Earth Pressure Credits: 3
Shear strength of soil and rock under effective stress. Slope stability analysis, tieback and reinforced earth systems. Computation of earth pressures for excavations and tunnels. Dewatering for construction.
Prerequisites: ECIV 530
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ECIV 732 - Theoretical and Numerical Methods in Geomechanics Credits: 3
Constitutive models and their numerical implementation. Elastic and plastic approaches to analysis. Finite element applications to geomechanics problems. Layer analysis, arching, and stability case studies.
Prerequisites: ECIV 530
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ECIV 733 - Physico-chemical Properties of Soils Credits: 3
Soil mineralogy, chemistry, and clay-water systems. Impact of soil fabric and microstructure on engineering behavior. Soil-contaminant interaction. Barriers and liners for containment.
Prerequisites: ECIV 530
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ECIV 734 - Dynamics of Soils and Foundations Credits: 3
Properties of soils under dynamic loading. Harmonic and periodic motion. Free and forced vibrations. Vibrations of footings on an elastic half-space. Cyclic loadings and liquefaction, earthquake response of soils.
Prerequisites: ECIV 330
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ECIV 736 - Ground Improvement Techniques Credits: 3
Application of soil mechanics principles to improving the engineering characteristics of soil and rock. Topics include mechanisms of soil densification, preconsolidation, grouting, ground freezing, reinforced earth, and soil nailing.
Prerequisites: ECIV 530
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ECIV 737 - Advanced Foundation Design Credits: 3
Application of soil mechanics to design and analysis of foundations. Shallow foundations, bearing capacity, settlement. Deep foundations, axial and lateral loading, wave equation analysis, drilled shafts. Design and construction issues.
Prerequisites: ECIV 530
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ECIV 748 - Traffic Flow Theory Credits: 3
Survey of statistical techniques useful in traffic engineering. Deterministic and stochastic models of traffic flow. Operations research techniques. Simulation by digital computer. Applications to highway problems.
Prerequisites: ECIV 541, STAT 509
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ECIV 750 - Principles of Environmental Engineering Process Credits: 3
Basic physical, chemical, and biological processes applied to aqueous systems.
Prerequisites: CHEM 112 and MATH 142
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ECIV 751 - Water and Wastewater Treatment Theory I Credits: 3
Physical and chemical water and wastewater treatment processes. Topics include mixing, coagulation, sedimentation, filtration, oxidation, absorption, and ion exchange.
Prerequisites: ECIV 750
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ECIV 752 - Water and Wastewater Treatment Theory II Credits: 3
Biological water and wastewater treatment process. Topics include activated sludge, biofilms, nutrient removal, lagoons, and sludge treatment and disposal.
Prerequisites: ECIV 750
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ECIV 753 - Unit Operations Laboratory for Water and Wastewater Treatment Credits: 3
Laboratory experiments in selected processes for water and wastewater treatment.
Prerequisites: ECIV 350L
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ECIV 755 - Industrial Wastewater Treatment Credits: 3
Industrial sources, characteristics, and treatment plant design.
Prerequisites: ECIV 751 or 752
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