Course Listings

CORE ELECTIVES 

ARCHITECTURAL 

ARCE 101 Introduction to Architectural Engineering
An introduction to the study of and careers in architectural engineering. Topics include problem solving and study skills, the building design and construction process, design documents, and professional practice issues such as licensing requirements and ethics. LEC.

The class is not offered for the Spring 2018 semester.

ARCE 217 Computer-Assisted Building Design
Introduction to computer-aided design (CAD) tools for architectural engineering practice. The course covers building information modeling (BIM) including object-oriented 3D modeling, databases, virtual walkthroughs, basic customization, and creating BIM families. Prerequisite: ARCE 101 and MATH 104, or consent of instructor. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Xie, Kun
McFarlane, Matthew
TuTh 06:00-07:15 PM EATN 1014 - LAWRENCE
TuTh 06:00-07:15 PM EATN 1018 - LAWRENCE
3 50232
LEC Xie, Kun
McFarlane, Matthew
TuTh 11:00-12:15 PM EATN 1014 - LAWRENCE
TuTh 11:00-12:15 PM EATN 1018 - LAWRENCE
3 68034
ARCE 350 Building Materials Science
An introduction to the structural, thermal, electrical, and optical properties of building materials. Manufacturing, testing, integration, and specification of materials with emphasis on commercial, institutional, and industrial buildings. Prerequisite: PHSX 212 and CHEM 130 or CHEM 150, or consent of instructor. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Medina, Mario
MWF 09:00-09:50 AM LEEP2 2425 - LAWRENCE
3 57211
ARCE 390 Special Problems
Special problems in architectural engineering. The study of a particular problem involving individual research and report. Prerequisite: Students must submit, in writing, a proposal including a statement of the problem the student wishes to pursue, the methodology the student plans to use in the program, and objectives of the special problems. The student must also have a signed agreement with the faculty member proposed as instructor for the course. Consent of the instructor. IND.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
IND Cai, Hongyi
APPT- KULC APPT - LAWRENCE
1-3 57809
IND Lines, Brian
APPT- KULC APPT - LAWRENCE
1-3 50233
IND Medina, Mario
APPT- KULC APPT - LAWRENCE
1-3 50234
IND Panethiere, Michael
APPT- KULC APPT - LAWRENCE
1-3 62128
IND Rock, Brian
APPT- KULC APPT - LAWRENCE
1-3 50235
IND Tran, Dai
APPT- KULC APPT - LAWRENCE
1-3 60486
ARCE 640 Power Systems Engineering I
This course introduces the design of commercial and industrial power systems. Emphasis is placed on the proper selection, specification, and installation of materials and equipment that comprise commercial and industrial power systems. This course covers the application of materials and equipment in accordance with industry standards, independent laboratory testing, and the National Electrical Code. Prerequisite: EECS 315 or consent of instructor. LEC.

The class is not offered for the Spring 2018 semester.

ARCE 641 Power Systems Engineering II
A continuation of ARCE 640 that integrates system components into functional, safe, and reliable power distribution systems for commercial, industrial, and institutional (CII) facilities. Service entrance design, distribution system layout and reliability, emergency and standby power system design, medium-voltage distribution systems, symmetrical fault analysis, and special equipment and occupancies . (Same as EECS 441.) Prerequisite: ARCE 640, or EECS 212 and Upper-Level EECS Eligibility. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Panethiere, Michael
MWF 12:00-12:50 PM LEEP2 2420 - LAWRENCE
3 62116
ARCE 642 Power System Protection
This course introduces techniques and methods used to analyze and predict the performance of commercial and industrial power systems and equipment under balanced and unbalanced fault conditions. Emphasis is placed on the selection, application, and coordination of protective devices to detect and clear power system faults in a safe and reliable manner. Prerequisite: ARCE 640 or EECS 212 or consent of instructor. LEC.

The class is not offered for the Spring 2018 semester.

ARCE 644 Electric Machines and Drives
Introduction to electric machine theory, operation, and control. Electric machine covered include DC generators and motors, AC synchronous generators and motors, AC induction generators and motors, as well as fractional horsepower and special purpose motors. Motor starting and controls for both DC and AC machines are also covered including as introduction to power electronics and variable frequency drives (VFD). (Same as EECS 544.) Prerequisite: ARCE 640, or EECS 212 and Upper-Level EECS Eligibility. LEC.

The class is not offered for the Spring 2018 semester.

ARCE 645 Electric Energy Production and Storage
An introduction to the design of utility scale and small scale (distributed generation) electric energy production and storage systems. This course addresses the technical, operational, economic, and environmental characteristics associated with both traditional and nontraditional electric energy production systems along with associated grid integration, energy delivery, and regulatory issues. Traditional energy production systems covered include fossil fuel, hydroelectric, and nuclear power plants. Non-traditional energy productions systems covered include fuel cells, photovoltaics (PV), concentrated solar power (CSP), wind, geothermal, and other emerging technologies. (Same as EECS 545.) Prerequisite: ARCE 640, or EECS 212 and Upper-Level EECS Eligibility. LEC.

The class is not offered for the Spring 2018 semester.

ARCE 647 Power System Analysis I
Introduction to the analysis of commercial, industrial, and utility power systems. Emphasis is placed on modeling system components which include transmission and distribution lines, transformers, induction machines, and synchronous machines and the development of a power system model for analysis from these components. System modeling will be applied to short-circuit studies and used to analyze symmetrical faults, to develop sequence networks using symmetrical components, and analyze unsymmetrical faults. (Same as EECS 547.) Prerequisite: ARCE 640, or EECS 212 and Upper-Level EECS Eligibility. LEC.

The class is not offered for the Spring 2018 semester.

ARCE 648 Power System Analysis II
Continuation of ARCE 647 that uses power system modeling developed in ARCE 647 to analyze power system load flow, operation and economic dispatch, stability, and transient response. The impact of alternative energy sources, energy storage, DC transmission and interties, and other emerging technologies on power system operation and reliability will be addressed throughout the course. (Same as EECS 548.) Prerequisite: ARCE 647 or consent of instructor. LEC.

The class is not offered for the Spring 2018 semester.

ARCE 650 Illumination Engineering
Students are introduced to lighting fundamentals, measurement, and technology and to their application in the analysis and design of architectural lighting systems. Prerequisite: PHSX 212 or consent of instructor. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Cai, Hongyi
MWF 09:00-09:50 AM LEA 2112 - LAWRENCE
3 50236
ARCE 660 Building Thermal Science
The fundamentals of moist air processes, air and moisture exchange, and building heat transfer. Determination of heating and cooling loads under steady-state and transient conditions. Prerequisite: ARCE 217, ME 312, and either ME 510, AE 345, CE 330, or C&PE 511, or consent of instructor. LEC.

The class is not offered for the Spring 2018 semester.

ARCE 661 HVAC&R Systems Design
Analysis and design of heating, ventilating, air-conditioning, and refrigeration equipment and systems. Prerequisite: ARCE 660 or consent of the instructor. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Rock, Brian
MWF 11:00-11:50 AM LEA 2133 - LAWRENCE
3 50237
ARCE 662 Water Systems Design
The analysis and design of hydronic systems for buildings including piping, plumbing, pumping, and the water-side of heating, ventilating, and air-conditioning (HVAC). Prerequisite: ME 510, AE 345, CE 330, or C&PE 511, or consent of the instructor. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Rock, Brian
TuTh 09:30-10:45 AM LEEP2 2410 - LAWRENCE
3 65835
ARCE 663 Energy Management
Energy usage in commercial buildings and industry, energy auditing methodology, utility analysis, management measures, and economic evaluation are covered. Includes fieldwork. Prerequisite: Corequisite: ARCE 660, or consent of instructor. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC
MWF 01:00-01:50 PM LEEP2 2404 - LAWRENCE
3 69476
ARCE 664 Fire Protection Engineering
An introduction to human response, fire science, combustion calculations, compartment fires, piping and sprinkler design, and smoke management. Analytical methods, experimental data, codes, case-studies, and videos are presented in this engineering design course. Prerequisite: ME 312 or C&PE 221, and ME 510, AE 345, CE 330, or C&PE 511, or consent of instructor. LEC.

The class is not offered for the Spring 2018 semester.

ARCE 665 Solar Energy Systems Design
A quantitative and qualitative study of active, passive, wind, and photovoltaic energy conversion systems for buildings. Solar radiation and system performance prediction. Prerequisite: ME 312 or C&PE 221, or consent of instructor. LEC.

The class is not offered for the Spring 2018 semester.

ARCE 675 Sound and Vibration Control
An introduction to the physics and measurement of sound, wave phenomena, acoustics, and methods of noise and excessive vibration control for various applications. Prerequisite: PHSX 212 and MATH 220 or MATH 320, or consent of instructor. LEC.

The class is not offered for the Spring 2018 semester.

ARCE 680 Architectural Engineering Design I
Capstone engineering design course that includes the analysis, design, and integration of structural, mechanical, electrical, and lighting systems for a commercial, industrial, or institutional building. Prerequisite: CMGT 500, ARCE 640, ARCE 650, ARCE 661, CE 562, and CE 563, or consent of instructors. Fifth year senior standing in architectural engineering. LAB.

The class is not offered for the Spring 2018 semester.

ARCE 681 Architectural Engineering Design II
Comprehensive architectural engineering design project in a specific area of professional practice. Prerequisite: ARCE 680 or consent of instructor. Fifth year senior standing in architectural engineering. LAB.

The class is not offered for the Spring 2018 semester.

ARCE 690 Special Problems
The study of a particular problem in architectural engineering involving individual research and presentation. Prerequisite: Student must submit, in writing, a proposal including a statement of the problem the student wishes to pursue, the methodology the student plans to use in the program, and objectives of the special problems. The student must also have a signed agreement with the faculty member proposed as instructor for the course. Consent of instructor. IND.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
IND Cai, Hongyi
APPT- KULC APPT - LAWRENCE
1-3 57810
IND
M 06:00-08:50 PM LEEP2 1420 - LAWRENCE
3 59025
IND Lines, Brian
APPT- KULC APPT - LAWRENCE
1-3 50238
IND Medina, Mario
APPT- KULC APPT - LAWRENCE
1-3 50239
IND Panethiere, Michael
APPT- KULC APPT - LAWRENCE
1-3 62129
IND Rock, Brian
APPT- KULC APPT - LAWRENCE
1-3 50240
IND Tran, Dai
APPT- KULC APPT - LAWRENCE
1-3 60487
ARCE 691 Honors Research
Research a particular architectural engineering problem. Research will involve defining the problem, developing a research methodology, applying the research methodology and gathering data, analyzing and interpreting the data, and presenting the results of the research. The student must have a faculty sponsor and submit a proposal in writing stating the objective of the research, the planned research method that will be used, and the method of reporting the results. Prerequisite: Participation in the University Honors Program, consent of instructor, and approval of the chair are required. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Cai, Hongyi
APPT- KULC APPT - LAWRENCE
3 57811
LEC Lines, Brian
APPT- KULC APPT - LAWRENCE
3 50241
LEC Medina, Mario
APPT- KULC APPT - LAWRENCE
3 57812
LEC Panethiere, Michael
APPT- KULC APPT - LAWRENCE
3 62130
LEC Rock, Brian
APPT- KULC APPT - LAWRENCE
3 57813
LEC Tran, Dai
APPT- KULC APPT - LAWRENCE
3 60488
ARCE 698 Comprehensive Design Project
Capstone architectural engineering design course that includes the analysis, design, and integration of a building's structural, mechanical, electrical, and lighting systems. Building codes, standards, performance, and sustainability are addressed, and BIM software utilized. Prerequisite: CMGT 357, CMGT 500, ARCE 640, ARCE 650, ARCE 661, and CE 562. LAB.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LAB Panethiere, Michael
Rock, Brian
Cai, Hongyi
MWF 02:00-03:50 PM LEA 3101 - LAWRENCE
3 60856
ARCE 700 Directed Readings in Architectural Engineering
Individual study of special topics and problems. May be repeated for credit. Prerequisite: Student must submit, in writing, a proposal including a statement of the problem the student wishes to pursue and a bibliography of the articles and books required to complete the project. The student must also have a signed agreement with the faculty member proposed as instructor for the course. Consent of instructor. RSH.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
RSH Cai, Hongyi
APPT- KULC APPT - LAWRENCE
1-3 57806
RSH Lines, Brian
APPT- KULC APPT - LAWRENCE
1-3 50242
RSH Medina, Mario
APPT- KULC APPT - LAWRENCE
1-3 50243
RSH Panethiere, Michael
APPT- KULC APPT - LAWRENCE
1-3 62131
RSH Rock, Brian
APPT- KULC APPT - LAWRENCE
1-3 50244
RSH Tran, Dai
APPT- KULC APPT - LAWRENCE
1-3 60489
ARCE 750 Daylighting
This course will cover daylighting design concepts, solar position, daylight availability, sky luminance distribution models, daylight delivery methods, integration of daylighting and electric lighting controls, physical modeling, and computer analysis techniques. Prerequisite: PHSX 212, or ARCH 531, or consent of instructor LEC.

The class is not offered for the Spring 2018 semester.

ARCE 751 Advanced Lighting Design
Advanced analysis, design, and modeling of luminous environments. It covers impact of lighting on human perception and interaction with space, human factors in lighting, camera-aided light measurement technologies, advanced computer-aided lighting simulations, effective and efficient integration of natural and artificial lighting, modeling and analysis of light sources and spaces, simulation of lighting systems, and design of lighting control systems. Prerequisite: ARCE 217 and ARCE 650 or consent of instructor. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Cai, Hongyi
MWF 12:00-12:50 PM LEEP2 2400 - LAWRENCE
3 61486
ARCE 752 Lighting Measurement and Design
This course will cover conventional lighting and solid-state lighting measurement, daylighting measurement, camera-aided lighting measurement technologies and applications, and design and development of custom luminaries in an LED workshop and innovative daylighting devices. Prerequisite: ARCE 650, or consent of instructor LEC.

The class is not offered for the Spring 2018 semester.

ARCE 760 Automatic Controls for Building Mechanical Systems
An introduction to controls for building mechanical systems. Discussions of the theory, design, and equipment used for control systems. The benefits of pneumatic, electrical, and electronic (DDC) controls will be examined. Prerequisite: ARCE 660 or consent of instructor. LEC.

The class is not offered for the Spring 2018 semester.

ARCE 764 Advanced Thermal Analysis of Buildings
Manual and computational methods for determining steady-state and transient thermal loads in buildings. Advanced analysis of energy consumption given choices in building materials and mechanical systems. Prerequisite: ARCE 217 and ARCE 660, or consent of instructor. LEC.

The class is not offered for the Spring 2018 semester.

ARCE 890 Architectural Engineering Seminar: _____
Individual or group studies in building engineered systems or construction engineering. Prerequisite: Graduate standing in Architectural Engineering and consent of instructor. RSH.

The class is not offered for the Spring 2018 semester.

ARCE 895 Master's Project
Directed study and reporting of a specialized topic of interest to the architectural engineering profession. Prerequisite: Consent of instructor. RSH.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
RSH Cai, Hongyi
APPT- KULC APPT - LAWRENCE
1-3 57807
RSH Lines, Brian
APPT- KULC APPT - LAWRENCE
1-3 50245
RSH Medina, Mario
APPT- KULC APPT - LAWRENCE
1-3 50246
RSH Panethiere, Michael
APPT- KULC APPT - LAWRENCE
1-3 62132
RSH Rock, Brian
APPT- KULC APPT - LAWRENCE
1-3 50247
RSH Tran, Dai
APPT- KULC APPT - LAWRENCE
1-3 60490
ARCE 899 Master's Thesis
Directed research and reporting of a specialized topic of interest to the architectural engineering profession. Prerequisite: Consent of instructor. THE.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
THE Cai, Hongyi
APPT- KULC APPT - LAWRENCE
1-6 57808
THE Lines, Brian
APPT- KULC APPT - LAWRENCE
1-6 50248
THE Medina, Mario
APPT- KULC APPT - LAWRENCE
1-6 50249
THE Panethiere, Michael
APPT- KULC APPT - LAWRENCE
1-6 62133
THE Rock, Brian
APPT- KULC APPT - LAWRENCE
1-6 50250
THE Tran, Dai
APPT- KULC APPT - LAWRENCE
1-6 60491

CIVIL

CE 191 Introduction to Civil Engineering
A discussion of engineering logic through examination of current concepts in engineering education, practice and professional development. Not open to juniors and seniors. LEC.

The class is not offered for the Spring 2018 semester.

CE 192 Civil Engineering Graphics
Introduction to computer-aided design (CAD) tools for civil and environmental engineering practice. This course covers 2D drafting and 3D modeling. Prerequisite: MATH 104. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Xie, Kun
McFarlane, Matthew
TuTh 06:00-07:15 PM EATN 1014 - LAWRENCE
TuTh 06:00-07:15 PM EATN 1018 - LAWRENCE
3 54939
LEC Xie, Kun
McFarlane, Matthew
TuTh 11:00-12:15 PM EATN 1014 - LAWRENCE
TuTh 11:00-12:15 PM EATN 1018 - LAWRENCE
3 68033
CE 201 Statics
The principles of statics, with particular attention to engineering applications. Prerequisite: PHSX 210 or PHSX 211 or PHSX 201, and MATH 121 or MATH 125. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Lyon, Robert
MTuWThF 10:00-10:50 AM LEEP2 G411 - LAWRENCE
2 60118
CE 240 Geomatics
This course introduces engineering applications of surveying and geographic information systems GIS) using surveying instruments and ArcGIS. The focus of this course is on practical application of geomatics to civil engineering problems. Two lectures periods and one lab period per week. Prerequisite: MATH 121 or MATH 125, CE 192 or ARCE 217 or consent of instructor. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Mohammed, Hemin
Ahuja, Akshit
TuTh 08:00-09:15 AM LEEP2 1420 - LAWRENCE
3 50800
LBN Mohammed, Hemin
Tu 02:00-02:50 PM KS-ST LAWR - LAWRENCE
Tu 02:50-04:50 PM LEA 3101 - LAWRENCE
3 69420
LBN Mohammed, Hemin
Ahuja, Akshit
W 02:00-02:50 PM EATN 1010 - LAWRENCE
W 02:50-04:50 PM KS-ST LAWR - LAWRENCE
3 50801
LBN Mohammed, Hemin
Ahuja, Akshit
Th 02:50-04:50 PM KS-ST LAWR - LAWRENCE
Th 02:00-02:50 PM LEA 3101 - LAWRENCE
3 55938
CE 300 Dynamics
The principles of kinematics and kinetics, with particular attention to engineering applications. Prerequisite: CE 201 or ME 201 or ME 211, and MATH 122 or MATH 126. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Lyon, Robert
MTuWThF 10:00-10:50 AM LEEP2 G411 - LAWRENCE
3 50802
CE 301 Statics and Dynamics
A combination of statics and dynamics covered in CE 201 and CE 300. This course must be taken as a five-hour unit. Prerequisite: PHSX 210 or PHSX 211, and MATH 122 or MATH 126. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Lyon, Robert
Mudaliar, Triveni
MTuWThF 10:00-10:50 AM LEEP2 G411 - LAWRENCE
5 50803
CE 310 Strength of Materials
Three one-hour lectures and one two-hour laboratory. Principles of stress and deformation in structures and machines. Prerequisite: CE 201 or ME 201 or ME 211 or CE 301, ENGL 102 or ENGL 105 or consent of instructor. Corequisite: MATH 220. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Fadden, Matthew
MWF 12:00-12:50 PM LEEP2 2415 - LAWRENCE
4 50804
LBN Ameen, Shahedreen
Fadden, Matthew
Tu 03:30-05:00 PM EATN 2 - LAWRENCE
Tu 03:30-05:00 PM LEEP2 1421 - LAWRENCE
4 50805
CE 311 Strength of Materials
A course that includes a basic treatment of stress and deformation in elastic bodies. Prerequisite: CE 201 or ME 201, MATH 220 and MATH 290 or consent of instructor. LEC.

The class is not offered for the Spring 2018 semester.

CE 312 Strength of Materials, Honors
Three one-hour lectures and one two-hour laboratory. Principles of stress and strain in deformable bodies under load. Prerequisite: CE 201 or ME 201 or ME 211 or CE 301, ENGL 102 or ENGL 105 or consent of instructor. Corequisite: MATH 220. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Fadden, Matthew
MWF 12:00-12:50 PM LEEP2 2415 - LAWRENCE
4 69037
LBN Ameen, Shahedreen
Fadden, Matthew
Tu 03:30-05:00 PM EATN 2 - LAWRENCE
Tu 03:30-05:00 PM LEEP2 1421 - LAWRENCE
4 69038
CE 330 Fluid Mechanics
This course covers the fundamentals of fluid mechanics and includes the topics fluid properties, hydrostatics, applications of conservation of mass, energy and momentum equations, pipe flow, dimensional analysis and open channel flow. Prerequisite: ENGL 101, ENGL 102, CE 300 or CE 301. LEC.

The class is not offered for the Spring 2018 semester.

CE 331 Fluid Mechanics Lab
This is an experimental course that consists of several laboratory experiments intended to illustrate the concepts presented in CE 330, Fluid Mechanics. Prerequisite: ENGL 101, ENGL 102, CE 300 or CE 301. Corequisite: CE 330. LAB.

The class is not offered for the Spring 2018 semester.

CE 412 Structural Engineering Materials
Study of the engineering properties of structural materials and their control with emphasis on timber, concrete, and steel. Two one-hour lectures and one three-hour laboratory. Prerequisite: CE 310 or consent of instructor and ENGL 102. LEC.

The class is not offered for the Spring 2018 semester.

CE 413 Structural Engineering Materials, Honors
Study of the engineering properties of structural materials and their control with emphasis on timber, concrete, and steel. Two one-hour lectures and one three-hour laboratory. Prerequisite: CE 310 or consent of instructor, and ENGL 102. Open only to students admitted to the University Honors Program or by consent of instructor. LEC.

The class is not offered for the Spring 2018 semester.

CE 450 Sustainability: Population, Energy and Water
The course will examine the concepts regarding the continued advancement of humankind while maintaining our ecological niche on earth. Key topics include: population growth, poverty, and impacts of development; energy consumption, sources, storage, conservation and policy; water quality and quantity; materials and building; and policy implications. Prerequisite: Junior standing or participation in KU Honors Program. LEC.

The class is not offered for the Spring 2018 semester.

CE 455 Hydrology
An introduction to the fundamentals of hydrologic analysis. Subjects covered include collection and initial reduction of hydrologic data; rainfall-runoff relationships, hydrograph development; hydrologic routing, well equations and their application and hydrologic frequency analysis. Prerequisite: ENGL 101, ENGL 102, and CE 330. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Roundy, Joshua
TuTh 01:00-02:15 PM LEEP2 G415 - LAWRENCE
3 50807
CE 461 Structural Analysis
Three one-hour lectures and one two-hour laboratory. Analysis of statically determinate and indeterminate beams, frames, and trusses using classical methods and introducing computer-based methods. Prerequisite: CE 310. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Li, Jian
MWF 12:00-12:50 PM LEEP2 1420 - LAWRENCE
4 50808
LBN Li, Jian
M 02:00-03:50 PM LEEP2 2425 - LAWRENCE
4 60809
CE 477 Introduction to Environmental Engineering and Science
Application of fundamental scientific principles to the protection of atmospheric, aquatic, and terrestrial environments through the use of pollution abatement processes, with consideration also given to economic, social, political, and legal aspects of pollution control. Prerequisite: ENGL 102, MATH 101 or MATH 104, and CHEM 135 or CHEM 150. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Sturm, Belinda
TuTh 11:00-12:15 PM LEEP2 2415 - LAWRENCE
3 50809
CE 480 Introduction to Transportation Engineering
An introductory study of the various modes of transportation, emphasizing highways, railroads, and air transport. The planning, design and operations of these modes are discussed. There is a multimodal project included in this course. Prerequisite: CE 240. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Kondyli, Alexandra
Shehada, Mohammad
MWF 08:00-08:50 AM LEEP2 G411 - LAWRENCE
3 57858
CE 484 Material for Transportation Facilities
Principles involved in the testing, behavior, and selection of materials for use in the transportation field. Emphasis is on bituminous materials, aggregate, and soil stabilization. Prerequisite: CE 310. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Darabi, Masoud
TuTh 10:00-10:50 AM LEA 1136 - LAWRENCE
3 54429
LBN Kola, Rashmi
Darabi, Masoud
Tu 02:30-05:15 PM LEA 1178 - LAWRENCE
3 54887
LBN Kola, Rashmi
Darabi, Masoud
M 04:00-06:50 PM LEA 1178 - LAWRENCE
3 58874
CE 487 Soil Mechanics
Three lecture periods and one laboratory period. Fundamental theories of soil mechanics and their applications in engineering. Prerequisite: CE 310, CE 330 or concurrent enrollment. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Parsons, Robert
MWF 09:00-09:50 AM LEA 3152 - LAWRENCE
4 50810
LBN Parsons, Robert
Kakrasul, Jamal
Th 02:30-04:50 PM LEA 1176 - LAWRENCE
4 50811
LBN Parsons, Robert
Kakrasul, Jamal
F 01:00-03:50 PM LEA 1176 - LAWRENCE
4 50813
CE 490 Special Problems
An advanced study related to a special problem in the field of civil engineering or allied fields, for upper-division undergraduate students. IND.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
IND Bennett, Caroline
APPT- KULC APPT - LAWRENCE
1-5 56566
IND Collins, William
APPT- KULC APPT - LAWRENCE
1-5 63252
IND Darabi, Masoud
APPT- KULC APPT - LAWRENCE
1-5 50814
IND Darwin, David
APPT- KULC APPT - LAWRENCE
1-5 50815
IND Fadden, Matthew
APPT- KULC APPT - LAWRENCE
1-5 63253
IND Han, Jie
APPT- KULC APPT - LAWRENCE
1-5 54954
IND Kondyli, Alexandra
APPT- KULC APPT - LAWRENCE
1-5 60966
IND Lane, Dennis
APPT- KULC APPT - LAWRENCE
1-5 50816
IND Lepage, Andres
APPT- KULC APPT - LAWRENCE
1-5 60715
IND Lequesne, Remy
APPT- KULC APPT - LAWRENCE
1-5 60716
IND Li, Jian
APPT- KULC APPT - LAWRENCE
1-5 60717
IND Lines, Brian
APPT- KULC APPT - LAWRENCE
1-5 60967
IND McEnroe, Bruce
APPT- KULC APPT - LAWRENCE
1-5 50818
IND Misra, Anil
APPT- KULC APPT - LAWRENCE
1-5 57861
IND O'Reilly, Matt
APPT- KULC APPT - LAWRENCE
1-5 60718
IND Panethiere, Michael
APPT- KULC APPT - LAWRENCE
1-5 63254
IND Parr, Alfred
APPT- KULC APPT - LAWRENCE
1-5 50819
IND Parsons, Robert
APPT- KULC APPT - LAWRENCE
1-5 50820
IND Peltier, Edward
APPT- KULC APPT - LAWRENCE
1-5 56025
IND Randtke, Stephen
APPT- KULC APPT - LAWRENCE
1-5 50821
IND Roundy, Joshua
APPT- KULC APPT - LAWRENCE
1-5 63255
IND Schrock, Steven
APPT- KULC APPT - LAWRENCE
1-5 57862
IND Sturm, Belinda
APPT- KULC APPT - LAWRENCE
1-5 56036
IND Sutley, Elaina
APPT- KULC APPT - LAWRENCE
1-5 63256
IND Tran, Dai
APPT- KULC APPT - LAWRENCE
1-5 60492
IND Young, C
APPT- KULC APPT - LAWRENCE
1-5 50822
CE 495 Special Topics: _____
A course or colloquium to present topics of special interest. Prerequisite: Varies by topic. LEC.

The class is not offered for the Spring 2018 semester.

CE 498 Engineering Honors Seminar
Prerequisite: Participation in or eligibility for the University Honors Program. Sophomore or higher standing. LEC.

The class is not offered for the Spring 2018 semester.

CE 499 Seminar
Concepts of professional development. LEC.

The class is not offered for the Spring 2018 semester.

CE 535 Engineering Applications of GIS
This course introduces engineering applications of geographic information system (GIS) using ArcGIS. The focus of this course is on practical application of GIS to civil engineering problems. Prerequisite: Junior or Senior standing, or consent of instructor. LEC.

The class is not offered for the Spring 2018 semester.

CE 550 Life Cycle Assessment
Life cycle assessment (LCA) is a tool used across engineering fields to determine the life cycle, cradle-to-grave environmental impacts of a product or process. LCA practice helps develop a systems-thinking perspective and a deeper understanding of sustainability. Students will evaluate LCA methods and design appropriate LCA frameworks. Prerequisite: CE 477 or C&PE 211. LEC.

The class is not offered for the Spring 2018 semester.

CE 552 Water Resources Engineering Design
Three one-hour lectures and one three-hour laboratory. Study of water resources structures and systems with design emphasis on the hydraulic features: dams, drainage, river engineering, pipelines, channels and hydraulic machinery. Prerequisite: CE 330 and CE 455. LEC.

The class is not offered for the Spring 2018 semester.

CE 562 Design of Steel Structures
Two one-hour lectures and one three-hour laboratory. Fundamentals of structural design with steel. Prerequisite: CE 461. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Bennett, Caroline
TuTh 08:00-09:15 AM LEEP2 2425 - LAWRENCE
3 50823
LBN Bennett, Caroline
Andalib, Zahra
Th 02:30-05:15 PM LEA 3151 - LAWRENCE
3 50824
CE 563 Design of Reinforced Concrete Structures
Two one-hour lectures and one three-hour laboratory. Fundamentals of structural design with reinforced concrete. Prerequisite: CE 461; CE 412 or CE 484 or consent of the instructor. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Lepage, Andres
MWF 10:00-10:50 AM LEEP2 2420 - LAWRENCE
3 50825
LBN Lepage, Andres
M 04:00-05:50 PM LEEP2 2425 - LAWRENCE
3 50826
CE 570 Concepts of Environmental Chemistry
The fundamentals of aquatic chemistry, with emphasis on application to water purification and wastewater treatment. Prerequisite: Undergraduate standing, CE 477, and MATH 115 or MATH 121 or MATH 125. LEC.

The class is not offered for the Spring 2018 semester.

CE 571 Environmental Chemical Analysis
A laboratory introducing the basic chemical tests used in the water and wastewater fields of environmental engineering and science. Prerequisite: Undergraduate standing, and credit or co-enrollment in CE 570. LAB.

The class is not offered for the Spring 2018 semester.

CE 573 Biological Principles of Environmental Engineering
A basic study of the microorganisms of importance in environmental engineering. Emphasis is placed on the microbiology of dilute nutrient solutions. Microbial physiology, microbial ecology, and biochemistry will be discussed as they pertain to environmental engineering and science. Both biodegradation and public health aspects are included. (Two lecture hours and one three-hour laboratory per week.) Prerequisite: Undergraduate standing, CE 477 or equivalent, and MATH 115 or MATH 121 or MATH 125. LEC.

The class is not offered for the Spring 2018 semester.

CE 574 Design of Air Pollution Control Systems
This course emphasizes understanding of air pollution problems and their solution through engineering design and science. Topics covered include: types of air pollutants; monitoring of air pollutants; transport of air pollutants in the atmosphere; and control of air pollution emissions from both stationary and mobile sources. Prerequisite: CE 330, CE 477, MATH 122, PHSX 212; or consent of instructor. LEC.

The class is not offered for the Spring 2018 semester.

CE 576 Municipal Water Supply and Wastewater Treatment
The principles of public water supply design, including source selection, collection, purification, and distribution; for municipal wastewater, collection, treatment, and disposal. Prerequisite: CE 330, CE 455, and CE 477. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Peltier, Edward
MWF 01:00-01:50 PM LEEP2 2425 - LAWRENCE
4 54430
LBN Peltier, Edward
Bui, Mai
W 02:00-03:50 PM LEA 3151 - LAWRENCE
4 54431
CE 577 Industrial Water and Wastes
A review of the methods of industrial water treatment and the fundamentals of industrial water pollution control. Topics include: water budgets, cooling tower and boiler treatment, corrosion control, government regulations, wastewater characterization, waste minimization, pilot plants, pretreatment, final treatment, and site selection. Prerequisite: Undergraduate standing, and CE 477 or equivalent. LEC.

The class is not offered for the Spring 2018 semester.

CE 580 Transportation Planning and Management
The course covers the major technical aspects of traditional planning methodologies, computer applications in transportation and the impact of technology on the management and planning processes. Topics discussed will include origin-destination surveys, demand analysis models, supply analysis, traffic impact studies, computer simulation and modeling, economics, management systems, intelligent transportation systems (ITS), and geographic information systems (GIS). Prerequisite: CE 390 and senior standing. LEC.

The class is not offered for the Spring 2018 semester.

CE 582 Highway Engineering
A comprehensive study of the planning, design, construction, operations, and maintenance of highway systems with emphasis on the design aspects of a highway. Prerequisite: CE 455 and CE 480. LEC.

The class is not offered for the Spring 2018 semester.

CE 588 Foundation Engineering
A study of the interaction of the characteristics of soil or rocks and structures. The estimation of settlement and bearing capacity of foundation elements. Principles governing the choice and design of footings, rafts, piers, and piles. Prerequisite: CE 487. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Misra, Anil
MWF 11:00-11:50 AM LEEP2 G411 - LAWRENCE
3 50827
CE 625 Applied Probability and Statistics
Course topics include data description, measures of central tendency and dispersion, sampling and sampling designs, quality control, persistence, periodicity, sampling distributions, hypothesis testing, ANOVA, correlation, linear regression, multiple correlation, and multiple regression. Applications and real world problems are stressed. Prerequisite: MATH 121 or MATH 115 and MATH 116. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Roundy, Joshua
M 06:00-08:50 PM EATN 1010 - LAWRENCE
3 69276
CE 684 Materials for Transportation Facilities
Principles involved in the testing, behavior, and selection of materials for use in the transportation field. Emphasis is on bituminous materials, aggregate, and soil stabilization. Readings. Prerequisite: CE 310 and CE 487. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Darabi, Masoud
TuTh 10:00-10:50 AM LEA 1136 - LAWRENCE
3 56089
LBN Kola, Rashmi
Darabi, Masoud
Tu 02:30-05:15 PM LEA 1178 - LAWRENCE
3 56090
LBN Kola, Rashmi
Darabi, Masoud
M 04:00-06:50 PM LEA 1178 - LAWRENCE
3 58875
CE 704 Dynamics and Vibrations
Problems in engineering dynamics and vibrations. Topics include applications of generalized forces and coordinates, Lagrange equations, and a study of the performance of single and multiple degree of freedom vibrational systems. (Same as AE 704.) LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Li, Jian
MW 05:00-06:15 PM LEA 3154 - LAWRENCE
3 58582
CE 710 Structural Mechanics
Basic concepts in the analysis of stress and strain and the behavior of materials. Topics include elementary theory and problems in elasticity, theories of failure of materials including fracture mechanics and introduction to plasticity. LEC.

The class is not offered for the Spring 2018 semester.

CE 712 Structural Engineering Materials
Study of the engineering properties of structural materials and their control with emphasis on timber, concrete, and steel. Two one-hour lectures and one three-hour laboratory. Not open for credit to students with credit in CE 412 or CE 413. Prerequisite: CE 310 or equivalent, and ENGL 102 or equivalent, or consent of instructor. LEC.

The class is not offered for the Spring 2018 semester.

CE 715 Corrosion Engineering
Electrochemical basis of corrosion. Estimating probability and rate of corrosion. Identifying different conditions likely to cause specific types of corrosion. Corrosion mitigation techniques. Prerequisite: CHEM 135, CHEM 150 or equivalent. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC O'Reilly, Matt
MWF 09:00-09:50 AM LEA 3153 - LAWRENCE
3 60597
CE 721 Experimental Stress Analysis
Introduction to experimental stress-analysis techniques. Theory and application of mechanical strain gages, electrical strain gages, photoelastic techniques, and brittle coatings. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC O'Reilly, Matt
MW 02:00-03:45 PM LEA 1131 - LAWRENCE
F 02:00-02:50 PM LEA 1131 - LAWRENCE
F 02:00-02:50 PM LEEP2 1421 - LAWRENCE
3 63559
CE 730 Intermediate Fluid Mechanics
Fall semester. Principles of steady and unsteady flows, theories of potential, viscous, and turbulent flows, and applications in water resources engineering. Prerequisite: CE 330 and MATH 320. LEC.

The class is not offered for the Spring 2018 semester.

CE 735 Engineering Applications of GIS
This course introduces engineering applications of geographic information system (GIS) using ArcGIS. The focus of this course is on practical application of GIS to civil engineering problems. LEC.

The class is not offered for the Spring 2018 semester.

CE 746 Pavement Construction
Introduction to the equipment, materials, and construction practices employed in the construction of flexible and rigid highway and airfield pavements, and the relationship of each to pavement design and performance. The principles of statistical based quality control and quality assurance methods and specification writing will be introduced. Prerequisite: CE 484 or CE 412, CE 582, and CE 625 or equivalent. LEC.

The class is not offered for the Spring 2018 semester.

CE 748 Asphalt Technology
An introduction to the production of asphalt cements and its use in pavement construction and maintenance applications. Pavement distress identification. Design and use of bituminous pavements and materials for other than highway applications. Prerequisite: CE 484 or consent of instructor. LEC.

The class is not offered for the Spring 2018 semester.

CE 751 Physical Hydrology
In this course students will develop a land surface model based on the underlying physics and mechanisms of radiative transfer, precipitation, snow processes, evapotranspiration, infiltration and runoff generation. The course will also cover numerical and uncertainty issues associated with hydrologic modeling and its application to real world problems. Prerequisite: CE 455 or equivalent. LEC.

The class is not offered for the Spring 2018 semester.

CE 752 Physical Hydrogeology
Study of fluid flow in subsurface hydrologic systems. Investigation of the ground water environment including porosity, and hydraulic conductivity and their relationship to typical geologic materials. Examination of Darcy's law and the continuity equation leading to the general flow equations. Discussion of typical hydraulic testing methods to estimate aquifer parameters in various situations and apply these to water resource problems. Study of the basic mechanisms that determine the behavior of typical regional flow systems. (Same as GEOL 751.) LEC.

The class is not offered for the Spring 2018 semester.

CE 753 Chemical and Microbial Hydrogeology
Lecture and discussion of chemical and microbiological controls on groundwater chemistry. Topics include thermodynamic and microbiological controls on water-rock reactions; kinetics; and microbiological, chemical and isotopic tools for interpreting water chemistry with respect to chemical weathering and shallow diagenesis. Origins of water chemistry, changes along groundwater flow paths, and an introduction to contaminant biogeochemistry will be discussed through the processes of speciation, solubility, sorption, ion exchange, oxidation-reduction, elemental and isotopic partitioning, microbial metabolic processes and microbial ecology. An overview of the basics of environmental microbiology, including cell structure and function, microbial metabolism and respiration, microbial genetics and kinetics of microbial growth will be covered. (Same as GEOL 753.) Prerequisite: One year of chemistry, one year of calculus, one year of biology, an introductory course in hydrogeology, or consent of the instructors. LEC.

The class is not offered for the Spring 2018 semester.

CE 754 Contaminant Transport
A study of the transport of conservative and non-conservative pollutants in subsurface waters. Case studies are used to illustrate and develop a conceptual understanding of such processes as diffusion, advection, dispersion, retardation, chemical reactions, and biodegradation. Computer models are developed and used to quantify these processes. (Same as GEOL 754.) Prerequisite: Introductory Hydrogeology or consent of instructor. LEC.

The class is not offered for the Spring 2018 semester.

CE 755 Free Surface Flow I
A study of uniform and non-uniform steady flow of water in open channels, including backwater curves, the hydraulic jump, and the delivery of canals. Prerequisite: CE 330. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Parr, Alfred
W 06:00-08:50 PM LEEP2 G415 - LAWRENCE
3 59267
CE 756 Wetlands Hydrology and Introduction to Management
A study of the basic structure and functions of wetlands; the physical, chemical, and biological processes involved; and an introduction to the management of wetlands. Also a brief introduction to the legal aspects of wetlands, the Section 404 permitting processes, and mitigation requirements. Prerequisite: Senior or graduate standing in engineering or a science area, or consent of instructor. LEC.

The class is not offered for the Spring 2018 semester.

CE 757 Pipe-Flow Systems
Hydraulic analysis and design of pipelines, pipe networks, and pumping systems. Analysis and control of hydraulic transients. Engineering of water distribution systems. Prerequisite: CE 330 or equivalent. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC McEnroe, Bruce
Tu 06:00-08:50 PM LEA 2133 - LAWRENCE
3 58809
CE 759 Water Quality Modeling
Analytical and numerical modeling of transport and transformation processes in the aquatic environment. Mass balance principles and transport phenomena. Eutrophication of lakes. Transport and fate of conventional pollutants and toxic organic chemicals in rivers, lakes, and estuaries. Prerequisite: CE 330 and CE 477 or equivalent. LEC.

The class is not offered for the Spring 2018 semester.

CE 760 Stochastic Hydrology
This methods-based course includes probability models, parameter estimation, ensemble forecasting and verification, time series analysis, multivariate distributions, principal component analysis along with other stochastic methods imperative to hydrologic analysis and prediction. The application of these methods will be explored through examples in hydrology related to rainfall, streamflow, groundwater and land-atmosphere interactions. Prerequisite: CE 455, MATH 290 or equivalent. LEC.

The class is not offered for the Spring 2018 semester.

CE 761 Matrix Analysis of Framed Structures
Analysis of 2-D and 3-D frame and truss structures by the direct stiffness method. Computer techniques required to implement the analysis procedure. LEC.

The class is not offered for the Spring 2018 semester.

CE 762 Plastic Analysis and Design of Structures
Investigate the inelastic behavior of materials and cross sections. Study plastic analysis methods and identify the fundamental assumption and theorems to study structures up to collapse. Design ductile structures for extreme loads using plastic design methods. Two lectures one hour and fifteen minute lectures per week. Prerequisite: CE 562 or consent of instructor. LEC.

The class is not offered for the Spring 2018 semester.

CE 763 Design of Prestressed Concrete Structures
The theory and design of prestressed concrete structures based on service load and strength criteria. Prerequisite: CE 563. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Lyon, Robert
MWF 01:00-01:50 PM LEA 2115 - LAWRENCE
3 67874
CE 764 Advanced Design of Reinforced Concrete Structures
The theory and design of reinforced concrete members and structures with emphasis on frames and slabs. Introduction to bridge design and earthquake design. Prerequisite: CE 563. LEC.

The class is not offered for the Spring 2018 semester.

CE 765 Advanced Steel Design - Building Structures
The theory and design of standard steel framed structures (primarily buildings). Design philosophies, stability, composite design, structural behavior, preliminary design, and connections. Prerequisite: CE 562 or equivalent. LEC.

The class is not offered for the Spring 2018 semester.

CE 766 Advanced Steel Design - Bridge Structures
Introduction to simple plastic design principles. Analysis and design of steel bridges including composite and noncomposite plate girders, curved girders, box girders, and other specialized bridge types. Fatigue and connection design considered. Prerequisite: CE 562 or equivalent. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Lyon, Robert
Tu 06:00-08:50 PM BEST 330 - EDWARDS
3 63568
LEC Collins, William
TuTh 02:00-03:15 PM LEA 2111 - LAWRENCE
3 65740
CE 767 Introduction to Fracture Mechanics
Theories and modes of structural failure as related to structural design. Application of fracture mechanics to failure analysis, fracture control plans, fatigue crack growth, and stress-corrosion crack growth. Prerequisite: CE 310 or CE 311 plus a structural or mechanical design course. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Collins, William
MW 11:30-12:45 PM LEEP2 2425 - LAWRENCE
3 63561
CE 768 Design of Timber Structures
Provide an introduction to behavior, analysis and design of timber components and systems. Prerequisite: CE 461. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Sutley, Elaina
TuTh 11:00-12:15 PM LEA 1136 - LAWRENCE
3 63305
CE 769 Design of Masonry Structures
Provide an introduction to behavior, analysis and design of masonry components and systems. Prerequisite: CE 461. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Kirkham, William
M 06:00-08:50 PM BEST 320 - EDWARDS
3 65729
CE 770 Concepts of Environmental Chemistry
The fundamentals of aquatic chemistry, with emphasis on application to water purification and wastewater treatment. May not be taken for credit by students with credit in CE 570. Prerequisite: CE 477 or equivalent, calculus, and five hours of chemistry. LEC.

The class is not offered for the Spring 2018 semester.

CE 771 Environmental Chemical Analysis
A laboratory introducing the basic chemical tests used in the water and wastewater fields of environmental engineering and science. May not be taken for credit by students with credit in CE 571. Prerequisite: Credit or co-enrollment in CE 770. LAB.

The class is not offered for the Spring 2018 semester.

CE 772 Physical Principles of Environmental Engineering Processes
Physical principles of suspensions, kinetics, fluid flow, filtration, and gas transfer are applied to various environmental physical processes. Prerequisite: CE 477 or equivalent, calculus, and four hours of physics. LEC.

The class is not offered for the Spring 2018 semester.

CE 773 Biological Principles of Environmental Engineering
A basic study of the microorganisms of importance in environmental engineering. Emphasis is placed on the microbiology of dilute nutrient solutions. Microbial physiology, microbial ecology, and biochemistry will be discussed as they pertain to environmental engineering and science. Both biodegradation and public health aspects are included. (Two lectures and one three-hour laboratory per week.) May not be taken for credit by students with credit in CE 573. Prerequisite: CE 477 or equivalent, calculus, and five hours of chemistry. LEC.

The class is not offered for the Spring 2018 semester.

CE 774 Chemical Principles of Environmental Engineering Processes
Chemical principles of stoichiometry, thermodynamics, and kinetics are applied to various chemical processes having application in the field of environmental engineering and science, including adsorption, ion exchange, coagulation, oxidation, and precipitation. Prerequisite: CE 477 or equivalent, calculus, and credit or registration in CE 570 or CE 770. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Randtke, Stephen
TuTh 08:00-09:15 AM LEA 3152 - LAWRENCE
3 62078
CE 775 Stormwater Treatment Systems Design
This course will address the design of stormwater treatment systems to provide hydrological control and water quality improvement. Specific topics include common stormwater pollutants, contaminant loading during storm events, design of structural BMPs (detention basins, traps, filters, and vegetated control systems) and low impact development practices. Prerequisite: CE 477, either CE 455 or C&PE 511 or consent of instructor. LEC.

The class is not offered for the Spring 2018 semester.

CE 776 Water Reuse
This course addresses past and current water reclamation and reuse practices; health and environmental concerns associated with water reuse; technologies and systems for water treatment, reclamation, and reuse; water reuse applications, including agricultural reuse, direct and indirect potable reuse, landscape irrigation, industrial uses, urban non-irrigation applications, environmental and recreational uses, and groundwater recharge; and planning and implementation of water reuse systems. Prerequisite: CE 477 or equivalent. LEC.

The class is not offered for the Spring 2018 semester.

CE 777 Industrial Water and Wastes
A review of the methods of industrial water treatment and the fundamentals of industrial wastewater pollution control. Topics include: water budgets, cooling tower and boiler treatment, corrosion control, government regulations, wastewater characterization, waste minimization, pilot plants, pretreatment, final treatment, and site selection. May not be taken for credit by students with credit in CE 577. Prerequisite: CE 477 or equivalent. LEC.

The class is not offered for the Spring 2018 semester.

CE 778 Air Quality
The course is intended to provide a working knowledge of pollutant sources, effects, meteorological factors, measurements, modeling approaches, legislation and controls associated with air quality problems. Students work on problems drawn from typical industrial situations, and use models to address specific air pollution scenarios. Prerequisite: CE 477 or equivalent, and MATH 115 or MATH 121. LEC.

The class is not offered for the Spring 2018 semester.

CE 779 Water Quality
Examination of water quality principles, policy, processes, practices, computer programs, laws and regulations as they relate to the integrated planning and control of point and nonpoint sources of pollution. Prerequisite: MATH 121 or equivalent, CE 477, and CE 570 or CE 770. LEC.

The class is not offered for the Spring 2018 semester.

CE 780 Environmental Instrumental Analysis
The course will provide a basis for theoretical understanding and practical experience with state-of-the-art environmental analytical methods organic and inorganic analytes in aqueous matrices. Methods to be covered include liquid, gas and ion chromatography; mass spectrometry; spectrophotometric, FID, EC, and conductivity detection; atomic absorption; spectrophotometic methods; and potentiometric analysis. Statistical methods for analytical methods development, validation and interpretation will also be covered. Prerequisite: General chemistry, and graduate standing. Senior level undergraduates may enroll with consent of instructor. LEC.

The class is not offered for the Spring 2018 semester.

CE 781 Traffic Engineering Characteristics
A study of fundamental traits and behavior patterns of the road user and his or her vehicle in traffic. The major content involves techniques for obtaining data, analyzing data and interpreting data on traffic speed, volume, streamflow, parking and accidents. Capacity analyses using the most up to date procedures for major traffic facilities such as undivided highways, city streets, freeways, interchanges and intersections are also discussed at length. Prerequisite: CE 582 or equivalent. LEC.

The class is not offered for the Spring 2018 semester.

CE 782 Public Works Engineering
The functions of a public works director are presented. Topics discussed are concerns with the environment, solid waste, traffic drainage, maintenance of facilities, personnel, etc. LEC.

The class is not offered for the Spring 2018 semester.

CE 783 Railroad Engineering
A comprehensive study of the railroad industry, including the development of the railway system, an overview of the railroad industry, basic track work, right-of-way and roadway concerns, drainage, track design, railroad structures, electrification, and rail passenger service. A final design project is required. Prerequisite: CE 240; CE 582 or equivalent. LEC.

The class is not offered for the Spring 2018 semester.

CE 784 Airport Planning and Design
A comprehensive study of the planning design and operations of airports. Both ground side and air side capacity and design elements will be presented. Other topics covered are airport master planning, air traffic control passenger terminal design, and environmental impacts of airports. Prerequisite: CE 240, CE 582 or equivalent. LEC.

The class is not offered for the Spring 2018 semester.

CE 785 Terrain Analysis
A study of the applications of the science of aerial-photographic interpretation as it pertains to the field of civil engineering including the recognition of soil types and classes, engineering materials surveys, route location, and the delineation of watersheds and estimates of runoff there from. Prerequisite: CE 487 or equivalent. LEC.

The class is not offered for the Spring 2018 semester.

CE 786 Highway Safety
Several topics dealing with highway safety are presented and discussed. Typical topics are railroad/highway crossings, accident reconstruction, distractions to the drivers, speed and crashes, elderly drivers, traffic control devices, roadside design, access management, traffic calming devices, and crash rates. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Schrock, Steven
Tu 06:00-08:50 PM LEA 2112 - LAWRENCE
3 65727
CE 787 Advanced Soil Mechanics
Three lecture periods. A study of the strength and compression characteristics of cohesive and noncohesive soils under various loading conditions. Prerequisite: CE 487 or equivalent. LEC.

The class is not offered for the Spring 2018 semester.

CE 788 Geotechnical Engineering Testing
Three lectures. Field testing techniques, sampling methods, and laboratory testing procedures used to determine soil properties for engineering projects. Prerequisite: CE 487. LAB.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LAB Han, Jie
M 03:00-05:50 PM LEA 2115 - LAWRENCE
3 65738
CE 789 Pavement Management Systems
Basic components of pavement management systems. Emphasis is given to pavement evaluation, planning pavement investment, rehabilitation design alternatives, and pavement management program implementation. Prerequisite: CE 487, CE 484 or equivalent. LEC.

The class is not offered for the Spring 2018 semester.

CE 791 Waste Facility Siting and Design
A review of current site characterization and design methods for solid and hazardous waste facilities with particular emphasis on working within the modern regulatory environment. Prerequisite: CE 487 or equivalent. LEC.

The class is not offered for the Spring 2018 semester.

CE 792 Knowledge Based/Expert Systems in Engineering
Introduction to the use of knowledge-based systems for engineering problem solving. These systems have a separation between the facts and concepts (the knowledge base) and the reasoning process used to draw conclusions (the inference mechanism). A wide variety of applications are addressed including civil, chemical and petroleum, computer, and aerospace engineering. Prerequisite: Computer literacy, bachelor's degree in engineering, or consent of instructor. LEC.

The class is not offered for the Spring 2018 semester.

CE 793 Advanced Concepts in CADD
Advanced concepts related to the application of computer aided design and drafting to the practice of civil engineering are presented. This includes: developing macros, understanding CADD programming languages, and relating CADD and other civil engineering based programs. An engineering approach to Geographical Information Systems (GIS) will be presented. Prerequisite: Working knowledge of one computer aided design graphics software package. LEC.

The class is not offered for the Spring 2018 semester.

CE 794 Environmental Graduate Student Orientation
An introductory graduate level course with emphasis on selecting a research topic and preparing a thesis or special problem report, technical reports, oral presentations, papers, and grant proposals. This course will also provide orientation information for new students and advice on preparing a plan of study. LEC.

The class is not offered for the Spring 2018 semester.

CE 795 Scanning Electron Microscopy and X-Ray Microanalysis
The course covers electron optics, electron beam-specimen interaction, image formation, x-ray spectral measurement, qualitative and quantitative x-ray microanalysis, practical techniques of x-ray analysis and specimen preparation techniques. Emphasis is placed on materials, but most techniques apply to biological specimens as well. Prerequisite: PHSX 212. LEC.

The class is not offered for the Spring 2018 semester.

CE 797 Environmental Engineering and Science in Developing Countries
This course begins with a focus on basic sanitation, including control of infectious diseases, water supply and treatment, and proper disposal of excreta, wastewater, and solid wastes. The course then delves into other environmental topics such as sustainability, wastewater reuse, project planning and implementation, air pollution, deforestation, hazardous waste disposal, and the roles of various governmental and non-governmental organizations in addressing environmental issues. The course topics are addressed by a combination of lectures, guest lectures, and student presentations, with each student choosing a presentation topic of personal or professional interest that is relevant to the course. Prerequisite: CE 477 or permission of instructor. LEC.

The class is not offered for the Spring 2018 semester.

CE 800 Theory of Elasticity
The basic equations of the theory of elasticity; stress and strain transformation, strain-displacement, compatibility and stress-strain relations. Formulation of problems and exact solutions. Introduction to approximate solution methods based on energy methods and finite elements. LEC.

The class is not offered for the Spring 2018 semester.

CE 801 Energy Methods
The methods of analysis by energy methods of mechanics problems. Includes variational energy principles, calculus of variations, stationary energy and complementary energy principles, and the principle of virtual work. Applications. Prerequisite: CE 310 and MATH 320. LEC.

The class is not offered for the Spring 2018 semester.

CE 802 Nondestructive Evaluation of Materials and Structures
This course covers nondestructive methods and their application to engineered structures and components. Methods covered include: ultrasonic testing, acoustic emission, vibration, impact-echo, visual inspection, and frequency response. LEC.

The class is not offered for the Spring 2018 semester.

CE 810 Theory of Elastic Stability
Buckling of columns in the elastic or hyperelastic region. Lateral and torsional buckling of straight and curved members. Buckling of plates and shells. LEC.

The class is not offered for the Spring 2018 semester.

CE 815 Viscoelasticity of Solids
This course provides the basics of mechanical and mathematical modeling and characterization of linear viscoelastic materials. Topics include different viscoelastic models, experimental methods for characterization of viscoelastic materials, design methods for viscoelastic members, and introduction to temperature effects and nonlinear viscoelastic response of materials. Prerequisite: CE 310 or equivalent. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Darabi, Masoud
Th 02:30-05:15 PM LEA 2115 - LAWRENCE
3 63676
CE 848 Pavement Materials Characterization
Laboratory and field test methods for determining engineering properties of bituminous pavements. Asphalt mix design methods and the relationship between mix design and pavement structural design and performance. Prerequisite: CE 484 or consent of instructor. LEC.

The class is not offered for the Spring 2018 semester.

CE 855 Free Surface Flow II
The course addresses computer modeling of open channel flow using HEC-RAS (Hydraulic Engineering Center - River Analysis System). 1D, 2D and mixed 1D-2D HEC-RAS models will be developed for steady and unsteady flow conditions. ArcGIS will be used to develop HEC-RAS geometric input files and to process model results. Other 2D programs will also be introduced. Topics addressed are flood delineation, bridge hydraulics, bridge scour, sediment transport and stable channel design. Some knowledge of ArcGIS is desirable. Prerequisite: CE 330 or equivalent. LEC.

The class is not offered for the Spring 2018 semester.

CE 856 Wetland Design, Engineering, and Management
Introduction of design concepts in creating and restoring wetland systems. Review of wetland hydrology and hydraulics. Interaction of wetland hydrology, soils, and vegetation providing environmental benefits. Considerations in project planning, site selection and preparation, construction and operation, and maintenance. Use of state and local legal and management tools to protect and restore wetlands. Emerging concepts of mitigation and banking. Prerequisite: CE 756 or equivalent. LEC.

The class is not offered for the Spring 2018 semester.

CE 857 Sediment Transport
A study of the transport of sediment in alluvial channels. Specific topics include properties of sediment, mechanics of bed forms, particle entrainment, scour analysis, prediction of suspended load and bed load, design of stable channels and diversion works, and sedimentation of reservoirs. Prerequisite: CE 755 or consent of instructor. LEC.

The class is not offered for the Spring 2018 semester.

CE 858 Urban Hydrology and Stormwater Management
Hydrology of urban watersheds; floodplain management; hydrologic modeling; storm drainage; stormwater detention; water quality improvement; geomorphology of urban streams; stream corridor management and stream restoration. Prerequisite: CE 751. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC McEnroe, Bruce
Th 06:00-08:50 PM LEA 3151 - LAWRENCE
3 63659
CE 861 Finite Element Methods for Solid Mechanics
Stress analysis of 2-D and 3-D solids, plates, and shells by the finite element method. Element formulations and behavior with emphasis on the isoparametric concept. Computer modeling and interpretation of results. Introduction to material and geometric nonlinear analysis of solids. Prerequisite: CE 761 or equivalent. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Kirkham, William
W 06:00-08:50 PM BEST 320 - EDWARDS
3 65190
LEC Misra, Anil
MWF 10:00-10:50 AM LEA 3151 - LAWRENCE
3 68952
CE 862 Behavior of Reinforced Concrete Members
This mechanics course covers in detail the constitutive behavior of reinforced concrete members subjected to various types of loading and presents the basis for modeling the response of reinforced concrete structures in the nonlinear range of response. Topics covered include: stress-strain behavior of concrete under multi axial states of stress; moment-curvature analysis; advanced analysis of r/c members subjected to shear (variable angel truss models, modified compression field theory, strut-and-tie models); behavior of r/c members subjected to cyclic loading; modeling and effects of slip at the interface between reinforcing steel and concrete. Suggested prerequisite CE 764 or equivalent. Prerequisite: CE 563. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Lequesne, Remy
MW 08:00-09:15 AM LEEP2 1420 - LAWRENCE
3 65954
CE 864 Seismic Performance of Structures
This course builds on topics from structural dynamics to introduce principles of structural performance during earthquake events. Emphasis is placed on estimating the response of building structures as represented by simple and complex models. Topics covered include strong ground motion, response of simple systems to ground motion, nonlinear response of building systems, and performance-based earthquake engineering. Prerequisite: CE 704. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Kirkham, William
Th 06:00-08:50 PM BEST 335 - EDWARDS
3 65746
CE 865 Structural Design for Dynamic Loads
The behavior and design of structural systems subjected to dynamic forces such as blasts, earthquakes, and wind loads. Prerequisite: CE 704 or equivalent. LEC.

The class is not offered for the Spring 2018 semester.

CE 869 Plates and Shells
The analysis and design of plates and shells including thin and thick plates, membrane theory of shells and bending theories of shells. LEC.

The class is not offered for the Spring 2018 semester.

CE 870 Life Cycle Assessment
Life cycle assessment (LCA) is a tool used across engineering fields to determine the life cycle, cradle-to-grave environmental impacts of a product or process. LCA practice helps develop a systems-thinking perspective and a deeper understanding of sustainability. Students will evaluate LCA methods and design appropriate LCA frameworks. Not open to students with credit in CE 560. Prerequisite: CE 477 or C&PE 211 or equivalent. LEC.

The class is not offered for the Spring 2018 semester.

CE 871 Fundamentals of Bioremediation
A study of microbial ecology and physiology as they relate to the degradation of environmental contaminants. Emphasis is placed on the interrelationship between the physiological traits or microorganisms, and the physical and chemical properties of the contaminants and the treatment environments. Case studies involving in-situ bioremediation and reactor design are discussed. Prerequisite: CE 573 or CE 773 or equivalent, and five hours of chemistry. LEC.

The class is not offered for the Spring 2018 semester.

CE 873 Environmental Monitoring
A lecture-laboratory course to familiarize students with environmental monitoring techniques, regulations, and systems. Dimensions of environmental monitoring will be considered for air, soil, and water measurements. The major emphasis will be on monitoring techniques and their principles, utility, and limitations. LEC.

The class is not offered for the Spring 2018 semester.

CE 874 Air Pollution Control
The design of control devices for the abatement of air pollutants, both gaseous and particulate, emitted from stationary sources. This includes the basic theory of control device operation and economic factors associated with each type of control device design. Prerequisite: CE 772 and CE 778 or equivalent. LEC.

The class is not offered for the Spring 2018 semester.

CE 875 Solid and Hazardous Wastes
Fundamental issues associated with solid and hazardous wastes are presented. Topics include government regulations, waste characteristics and quantities, the transport and attenuation of wastes in the environment, risk assessment, and handling, treatment and disposal techniques. Special emphasis is placed on hazardous waste remediation strategies in terrestrial systems. Prerequisite: Graduate standing in the Environmental Science and Engineering program, or consent of instructor. CE 770 and CE 773 are recommended. LEC.

The class is not offered for the Spring 2018 semester.

CE 876 Wastewater Treatment Plant Design
Application of physical, chemical, and biological principles to the design of wastewater treatment systems for domestic and other wastewaters. Special emphasis is placed on biological treatment processes. Prerequisite: CE 576 or equivalent, or CE 573 or CE 773 or equivalent. LEC.

The class is not offered for the Spring 2018 semester.

CE 877 Water Treatment Plant Design
Application of physical, chemical, and biological principles to the design of water treatment plants and processes for domestic water supply from surface and ground water sources. Prerequisite: CE 774, or concurrent enrollment. LEC.

The class is not offered for the Spring 2018 semester.

CE 878 Air Quality Modeling
Fundamental physical and mathematical principles applied to air quality modeling; considered are factors that influence the choice and application of air quality models, as well as the interpretation of model output data. Practical applications are stressed using standard models. Prerequisite: CE 778 or equivalent and MATH 121 or CE 625. LEC.

The class is not offered for the Spring 2018 semester.

CE 879 Environmental Research Seminar
Discussion of current topics in environmental engineering and science and related fields by staff, students, and visiting lecturers. May be taken only once for credit. LEC.

The class is not offered for the Spring 2018 semester.

CE 881 Traffic Engineering Operations
A study of theory and practical applications of a number of traffic operational and management tools to achieve the convenient, safe and efficient movement of people and goods in urban street networks. The major content involves signalized intersection capacity, design and operation; signalized intersection coordination; and modern roundabout design. Prerequisite: CE 582 or equivalent. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC
M 06:00-08:50 PM LEEP2 2420 - LAWRENCE
3 65728
CE 882 Geometric Design of Traffic Facilities
A study of basic principles in the design of freeways, urban street systems, parking terminal and other traffic facilities with emphasis on capacity, safety, level of service, and dynamic design concept. Prerequisite: CE 781 or equivalent. LEC.

The class is not offered for the Spring 2018 semester.

CE 883 Urban Transportation Planning
A detailed study of the comprehensive transportation planning process which involves the determination of urban travel characteristics and needs from studies of traffic, social-economical, and environmental factors, as well as the applications of land use, trip generation, trip distribution, model split, and traffic assignment models. Prerequisite: CE 781 or equivalent. LEC.

The class is not offered for the Spring 2018 semester.

CE 884 Principles of Pavement Design
A study of the scientific principles of pavement design as applied to airfield and highway pavements, considering loading conditions, stress distribution, and the properties of the various pavement components, for both rigid and flexible pavements. Prerequisite: CE 487 or equivalent. LEC.

The class is not offered for the Spring 2018 semester.

CE 885 Advanced Foundation Engineering
A study in the design, construction, and behavior of footings and rafts, piles and drilled shafts founded on soils and rocks. Prerequisite: CE 588 or equivalent. LEC.

The class is not offered for the Spring 2018 semester.

CE 886 Engineering Rock Mechanics
Rock properties and behavior; theories of failure of brittle, jointed, and anisotropic rocks; rock support; laboratory and in-situ testing techniques. Prerequisite: A course in physical geology and CE 487 or equivalent. LEC.

The class is not offered for the Spring 2018 semester.

CE 887 Earth Structures
Current theory and practice relating to the design of retaining walls, earth slopes, large embankments, and landslide mitigation. Application of geotextiles to the design of earth retaining structures and slope stabilization. Prerequisite: CE 588 or consent of instructor. LEC.

The class is not offered for the Spring 2018 semester.

CE 888 Ground Improvement
Basic descriptions, classification, principles, advantages, and limitations of ground improvement techniques. Design, construction, and quality assurance/control of ground improvement techniques. Prerequisite: CE 588 or equivalent. LEC.

The class is not offered for the Spring 2018 semester.

CE 889 Designing with Geosynthetics
Basic description and properties of geosynthetics including geotextiles, geogrids, geomembranes, geonets, geocomposites, and geosynthetic clay liners. Geosynthetic functions and mechanisms including separation, filtration, drainage, reinforcement, and containment. Design with geosynthetics for roadways, embankments/slopes, earth retaining structures, and landfills. Prerequisite: CE 588 or equivalent. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Han, Jie
W 03:00-05:50 PM LEA 2111 - LAWRENCE
3 65739
CE 890 Master's Project
Directed study and reporting of a specialized topic of interest in civil engineering or an allied field. Prerequisite: Consent of instructor. RSH.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
RSH Bennett, Caroline
APPT- KULC APPT - LAWRENCE
1-4 56536
RSH Cai, Hongyi
APPT- KULC APPT - LAWRENCE
1-4 58583
RSH Collins, William
APPT- KULC APPT - LAWRENCE
1-4 63257
RSH Darabi, Masoud
APPT- KULC APPT - LAWRENCE
1-4 50837
RSH Darwin, David
APPT- KULC APPT - LAWRENCE
1-4 50838
RSH Fadden, Matthew
APPT- KULC APPT - LAWRENCE
1-4 63258
RSH Han, Jie
APPT- KULC APPT - LAWRENCE
1-4 54955
RSH Kondyli, Alexandra
APPT- KULC APPT - LAWRENCE
1-4 58795
RSH Lane, Dennis
APPT- KULC APPT - LAWRENCE
1-4 50839
RSH Lequesne, Remy
APPT- KULC APPT - LAWRENCE
1-4 60719
RSH Lines, Brian
APPT- KULC APPT - LAWRENCE
1-4 60720
RSH Li, Jian
APPT- KULC APPT - LAWRENCE
1-4 60721
RSH Lyon, Robert
APPT- KULC APPT - LAWRENCE
1-4 57599
RSH McEnroe, Bruce
APPT- KULC APPT - LAWRENCE
1-4 50836
RSH Medina, Mario
APPT- KULC APPT - LAWRENCE
1-4 58584
RSH Misra, Anil
APPT- KULC APPT - LAWRENCE
1-4 57871
RSH Panethiere, Michael
APPT- KULC APPT - LAWRENCE
1-4 63259
RSH O'Reilly, Matt
APPT- KULC APPT - LAWRENCE
1-4 60722
RSH Parr, Alfred
APPT- KULC APPT - LAWRENCE
1-4 50840
RSH Parsons, Robert
APPT- KULC APPT - LAWRENCE
1-4 50835
RSH Peltier, Edward
APPT- KULC APPT - LAWRENCE
1-4 56026
RSH Randtke, Stephen
APPT- KULC APPT - LAWRENCE
1-4 50841
RSH Rock, Brian
APPT- KULC APPT - LAWRENCE
1-4 58185
RSH Roundy, Joshua
APPT- KULC APPT - LAWRENCE
1-4 63260
RSH Schrock, Steven
APPT- KULC APPT - LAWRENCE
1-4 57058
RSH Sturm, Belinda
APPT- KULC APPT - LAWRENCE
1-4 56037
RSH Sutley, Elaina
APPT- KULC APPT - LAWRENCE
1-4 63261
RSH Tran, Dai
APPT- KULC APPT - LAWRENCE
1-4 60723
RSH Young, C
APPT- KULC APPT - LAWRENCE
1-4 50842
RSH Darwin, David
APPT- KUEC APPT - EDWARDS
1-4 50830
RSH Lane, Dennis
APPT- KUEC APPT - EDWARDS
1-4 50831
RSH Marotz, Glen
APPT- KUEC APPT - EDWARDS
1-4 50832
RSH McEnroe, Bruce
APPT- KUEC APPT - EDWARDS
1-4 50833
RSH Parr, Alfred
APPT- KUEC APPT - EDWARDS
1-4 50828
RSH Randtke, Stephen
APPT- KUEC APPT - EDWARDS
1-4 50829
RSH Tran, Dai
APPT- KUEC APPT - EDWARDS
1-4 60493
RSH Young, C
APPT- KUEC APPT - EDWARDS
1-4 50834
CE 891 Advanced Special Problems
A directed study of a particular complex problem in an area of civil engineering or allied field. Prerequisite: Varies by topic, or with consent of instructor. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Bennett, Caroline
APPT- KULC APPT - LAWRENCE
1-3 58585
LEC Cai, Hongyi
APPT- KULC APPT - LAWRENCE
1-3 58586
LEC Collins, William
APPT- KULC APPT - LAWRENCE
1-3 63262
LEC Darabi, Masoud
APPT- KULC APPT - LAWRENCE
1-3 60968
LEC Darwin, David
APPT- KULC APPT - LAWRENCE
1-3 58587
LEC Fadden, Matthew
APPT- KULC APPT - LAWRENCE
1-3 63263
LEC Han, Jie
APPT- KULC APPT - LAWRENCE
1-3 58588
LEC Kondyli, Alexandra
APPT- KULC APPT - LAWRENCE
1-3 60969
LEC Lane, Dennis
APPT- KULC APPT - LAWRENCE
1-3 58589
LEC Lepage, Andres
APPT- KULC APPT - LAWRENCE
1-3 60724
LEC Lequesne, Remy
APPT- KULC APPT - LAWRENCE
1-3 60725
LEC Lines, Brian
APPT- KULC APPT - LAWRENCE
1-3 60970
LEC Lyon, Robert
APPT- KULC APPT - LAWRENCE
1-3 58590
LEC McEnroe, Bruce
APPT- KULC APPT - LAWRENCE
1-3 58591
LEC Medina, Mario
APPT- KULC APPT - LAWRENCE
1-3 58592
LEC Misra, Anil
APPT- KULC APPT - LAWRENCE
1-3 58593
LEC O'Reilly, Matt
APPT- KULC APPT - LAWRENCE
1-3 60726
LEC Panethiere, Michael
APPT- KULC APPT - LAWRENCE
1-3 63264
LEC Parr, Alfred
APPT- KULC APPT - LAWRENCE
1-3 58594
LEC Parsons, Robert
APPT- KULC APPT - LAWRENCE
1-3 58595
LEC Peltier, Edward
APPT- KULC APPT - LAWRENCE
1-3 58596
LEC Randtke, Stephen
APPT- KULC APPT - LAWRENCE
1-3 58597
LEC Rock, Brian
APPT- KULC APPT - LAWRENCE
1-3 58598
LEC Roundy, Joshua
APPT- KULC APPT - LAWRENCE
1-3 63265
LEC Schrock, Steven
APPT- KULC APPT - LAWRENCE
1-3 58599
LEC Sturm, Belinda
APPT- KULC APPT - LAWRENCE
1-3 58600
LEC Sutley, Elaina
APPT- KULC APPT - LAWRENCE
1-3 63266
LEC Tran, Dai
APPT- KULC APPT - LAWRENCE
1-3 60494
LEC Young, C
APPT- KULC APPT - LAWRENCE
1-3 58601
CE 892 Structural Engineering and Mechanics Seminar
Presentation and discussion of current research and design in structural engineering and engineering mechanics. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Darwin, David
W 04:00-04:50 PM LEA 2112 - LAWRENCE
1 50843
CE 895 Advanced Special Topics: _____
A graduate course or colloquium in a topic of civil engineering or an allied field. Prerequisite: Varies by topic, or with consent of instructor. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Lines, Brian
Th 06:00-08:50 PM LEEP2 2420 - LAWRENCE
3 64897
LEC Randtke, Stephen
Barati, Reza
Peltier, Edward
MWF 10:00-10:50 AM LEEP2 2425 - LAWRENCE
3 65764
LEC Lyon, Robert
TuTh 01:00-01:50 PM LEA 2140 - LAWRENCE
2 64952
CE 899 Master's Thesis
Directed research and reporting of a specialize topic of interest in civil engineering or an allied field. Prerequisite: Consent of instructor. THE.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
THE Bennett, Caroline
APPT- KULC APPT - LAWRENCE
1-10 55969
THE Collins, William
APPT- KULC APPT - LAWRENCE
1-10 63267
THE Darabi, Masoud
APPT- KULC APPT - LAWRENCE
1-10 50845
THE Darwin, David
APPT- KULC APPT - LAWRENCE
1-10 50846
THE Fadden, Matthew
APPT- KULC APPT - LAWRENCE
1-10 63268
THE Han, Jie
APPT- KULC APPT - LAWRENCE
1-10 54953
THE Kondyli, Alexandra
APPT- KULC APPT - LAWRENCE
1-10 60971
THE Lane, Dennis
APPT- KULC APPT - LAWRENCE
1-10 50847
THE Lepage, Andres
APPT- KULC APPT - LAWRENCE
1-10 60727
THE Lequesne, Remy
APPT- KULC APPT - LAWRENCE
1-10 60728
THE Li, Jian
APPT- KULC APPT - LAWRENCE
1-10 60729
THE Lines, Brian
APPT- KULC APPT - LAWRENCE
1-10 63491
THE McEnroe, Bruce
APPT- KULC APPT - LAWRENCE
1-10 50844
THE Misra, Anil
APPT- KULC APPT - LAWRENCE
1-10 57878
THE O'Reilly, Matt
APPT- KULC APPT - LAWRENCE
1-10 60730
THE Panethiere, Michael
APPT- KULC APPT - LAWRENCE
1-10 63269
THE Parr, Alfred
APPT- KULC APPT - LAWRENCE
1-10 50848
THE Parsons, Robert
APPT- KULC APPT - LAWRENCE
1-10 50849
THE Peltier, Edward
APPT- KULC APPT - LAWRENCE
1-10 56027
THE Randtke, Stephen
APPT- KULC APPT - LAWRENCE
1-10 50850
THE Roundy, Joshua
APPT- KULC APPT - LAWRENCE
1-10 63270
THE Schrock, Steven
APPT- KULC APPT - LAWRENCE
1-10 56440
THE Sturm, Belinda
APPT- KULC APPT - LAWRENCE
1-10 56038
THE Sutley, Elaina
APPT- KULC APPT - LAWRENCE
1-10 63271
THE Tran, Dai
APPT- KULC APPT - LAWRENCE
1-10 60495
THE Young, C
APPT- KULC APPT - LAWRENCE
1-10 50851
THE Parr, Alfred
APPT- KUEC APPT - EDWARDS
1-10 50852
THE Parsons, Robert
APPT- KUEC APPT - EDWARDS
1-10 50853
THE Randtke, Stephen
APPT- KUEC APPT - EDWARDS
1-10 50854
CE 902 Advanced Vibrations
Vibrations of mechanical systems and structures. Nonlinear vibrations. Random vibration. Prerequisite: CE 704 or AE 704. LEC.

The class is not offered for the Spring 2018 semester.

CE 912 Theory of Plasticity
Plastic stress-strain relationships. Stress and deformation in thick-walled shells, rotating discs, and bars subjected to torsion and bending for ideally plastic materials. Plastic flow of strain-hardening materials. Theory of metal-forming processes including problems in drawing and extruding. LEC.

The class is not offered for the Spring 2018 semester.

CE 913 Advanced Fracture Mechanics
Development of Griffith-Irwin crack theory and plane strain-stress intensity factors. Advanced analytical and experimental aspects of fracture and fatigue. Development of fracture control plans. Prerequisite: CE 767 or consent of instructor. LEC.

The class is not offered for the Spring 2018 semester.

CE 927 Advanced Mechanics
The mechanics of continuous media. A unified treatment of the fundamental principles and theories governing applications in solid and fluid mechanics. Topics covered are stress, strain and deformation, general physical principles for the continuum, and various constitutive equations. LEC.

The class is not offered for the Spring 2018 semester.

CE 929 Advanced Topics in Solid Mechanics
Topics such as thermal stresses, vibrations in elastic continuum, dynamic instability, and other advanced topics. LEC.

The class is not offered for the Spring 2018 semester.

CE 961 Finite Element Methods for Nonlinear and Dynamic Systems
Advanced treatment of finite element techniques for structural analysis including material and geometric non-linearity and the solution of large scale dynamics problems. Prerequisite: CE 861 or ME 761 or equivalent. LEC.

The class is not offered for the Spring 2018 semester.

CE 983 Implementation of the Urban Transportation Planning System--UTPS
A study of the principles and implementation skills of the most up-to-date versions of several urban transportation planning software packages. The course involves a two-hour lecture and a three-hour laboratory period. Prerequisite: CE 883, or UBPL 750, or equivalent. LEC.

The class is not offered for the Spring 2018 semester.

CE 991 Research
An investigation of a special problem directly related to civil engineering. RSH.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
RSH Bennett, Caroline
APPT- KULC APPT - LAWRENCE
1-15 55970
RSH Cai, Hongyi
APPT- KULC APPT - LAWRENCE
1-15 57880
RSH Collins, William
12:00-12:00 PM KULC APPT - LAWRENCE
1-15 63272
RSH Darabi, Masoud
APPT- KULC APPT - LAWRENCE
1-15 60972
RSH Darwin, David
APPT- KULC APPT - LAWRENCE
1-15 50856
RSH Dunning, Anne
APPT- KULC APPT - LAWRENCE
1-15 57882
RSH Fadden, Matthew
APPT- KULC APPT - LAWRENCE
1-15 63273
RSH Han, Jie
APPT- KULC APPT - LAWRENCE
1-15 56471
RSH Kondyli, Alexandra
APPT- KULC APPT - LAWRENCE
1-15 60973
RSH Lane, Dennis
APPT- KULC APPT - LAWRENCE
1-15 50857
RSH Lepage, Andres
APPT- KULC APPT - LAWRENCE
1-15 60731
RSH Lequesne, Remy
APPT- KULC APPT - LAWRENCE
1-15 60732
RSH Li, Jian
APPT- KULC APPT - LAWRENCE
1-15 60733
RSH Lines, Brian
APPT- KULC APPT - LAWRENCE
1-15 60974
RSH McEnroe, Bruce
APPT- KULC APPT - LAWRENCE
1-15 50855
RSH Medina, Mario
APPT- KULC APPT - LAWRENCE
1-15 55438
RSH Misra, Anil
APPT- KULC APPT - LAWRENCE
1-15 56519
RSH O'Reilly, Matt
APPT- KULC APPT - LAWRENCE
1-15 60734
RSH Panethiere, Michael
APPT- KULC APPT - LAWRENCE
1-15 63274
RSH Parr, Alfred
APPT- KULC APPT - LAWRENCE
1-15 50858
RSH Parsons, Robert
APPT- KULC APPT - LAWRENCE
1-15 50859
RSH Peltier, Edward
APPT- KULC APPT - LAWRENCE
1-15 57884
RSH Randtke, Stephen
APPT- KULC APPT - LAWRENCE
1-15 50860
RSH Rock, Brian
APPT- KULC APPT - LAWRENCE
1-15 57887
RSH Roundy, Joshua
APPT- KULC APPT - LAWRENCE
1-15 63275
RSH Schrock, Steven
APPT- KULC APPT - LAWRENCE
1-15 56484
RSH Sturm, Belinda
APPT- KULC APPT - LAWRENCE
1-15 57889
RSH Sutley, Elaina
APPT- KULC APPT - LAWRENCE
1-15 63276
RSH Tran, Dai
APPT- KULC APPT - LAWRENCE
1-15 60496
RSH Young, C
APPT- KULC APPT - LAWRENCE
1-15 50861
CE 999 Ph.D
Restricted to Ph.D. candidates. Before candidacy, aspirants performing their research should enroll in CE 991. Prerequisite: Consent of instructor. THE.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
THE Bennett, Caroline
APPT- KULC APPT - LAWRENCE
1-15 55971
THE Cai, Hongyi
APPT- KULC APPT - LAWRENCE
1-15 57891
THE Collins, William
APPT- KULC APPT - LAWRENCE
1-15 63277
THE Darabi, Masoud
APPT- KULC APPT - LAWRENCE
1-15 60975
THE Darwin, David
APPT- KULC APPT - LAWRENCE
1-15 50863
THE Fadden, Matthew
APPT- KULC APPT - LAWRENCE
1-15 63278
THE Han, Jie
APPT- KULC APPT - LAWRENCE
1-15 54956
THE Kondyli, Alexandra
APPT- KULC APPT - LAWRENCE
1-15 60977
THE Lane, Dennis
APPT- KULC APPT - LAWRENCE
1-15 50864
THE Lepage, Andres
APPT- KULC APPT - LAWRENCE
1-15 60735
THE Lequesne, Remy
APPT- KULC APPT - LAWRENCE
1-15 60736
THE Li, Jian
APPT- KULC APPT - LAWRENCE
1-15 60737
THE Lines, Brian
APPT- KULC APPT - LAWRENCE
1-15 60976
THE McEnroe, Bruce
APPT- KULC APPT - LAWRENCE
1-15 50862
THE Medina, Mario
APPT- KULC APPT - LAWRENCE
1-15 55385
THE Misra, Anil
APPT- KULC APPT - LAWRENCE
1-15 56520
THE O'Reilly, Matt
APPT- KULC APPT - LAWRENCE
1-15 60738
THE Panethiere, Michael
APPT- KULC APPT - LAWRENCE
1-15 63279
THE Parr, Alfred
APPT- KULC APPT - LAWRENCE
1-15 50865
THE Parsons, Robert
APPT- KULC APPT - LAWRENCE
1-15 50866
THE Peltier, Edward
APPT- KULC APPT - LAWRENCE
1-15 57894
THE Randtke, Stephen
APPT- KULC APPT - LAWRENCE
1-15 50867
THE Rock, Brian
APPT- KULC APPT - LAWRENCE
1-15 57895
THE Roundy, Joshua
APPT- KULC APPT - LAWRENCE
1-15 63280
THE Schrock, Steven
APPT- KULC APPT - LAWRENCE
1-15 56485
THE Sturm, Belinda
APPT- KULC APPT - LAWRENCE
1-15 57896
THE Sutley, Elaina
APPT- KULC APPT - LAWRENCE
1-15 63281
THE Tran, Dai
APPT- KULC APPT - LAWRENCE
1-15 60497
THE Young, C
APPT- KULC APPT - LAWRENCE
1-15 50868

CONSTRUCTION MANAGEMENT 

CMGT 357 Engineering Economics
Analysis of design alternatives and investment opportunities based on the time value of money. Topics include financial statements and accounting concepts related to economic analysis, time value of money and cash flow equivalence, cost of capital and minimum attractive rate of return (MARR), defining mutually exclusive alternatives, developing alternative after-tax cash flows, performing investment and replacement studies, and methods for addressing uncertainty and risk. Prerequisite: MATH 122 or MATH 126, or consent of the instructor. LEC.

The class is not offered for the Spring 2018 semester.

CMGT 457 Construction Project Management
An introduction to the management of construction projects with an emphasis on engineering economics. This course addresses time value of money, cash flow and interest, financial analysis of alternatives, and taxes and depreciation. Also included are projects management fundamentals, project scheduling, and project controls. Prerequisite: MATH 122 or MATH 126 or consent of the instructor. LEC.

The class is not offered for the Spring 2018 semester.

CMGT 500 Construction Engineering
An introduction to the construction industry, construction project management, and construction operations. Topics include project participant roles and responsibilities; project delivery systems; procurement of construction services; sustainable construction; contracts, bonds, and insurance; equipment selection and use; constructability and value engineering; estimating and bidding; planning and scheduling; operations management; safety; and project commissioning and closeout. Prerequisite: Junior or Senior standing in the School of Engineering, or consent of the instructor. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Tran, Dai
BYPANENI, SAI PAVAN KUMAR
Tu 06:00-08:50 PM LEEP2 G415 - LAWRENCE
3 54415
CMGT 700 Construction Project Management
An introduction to the management of construction projects. This course addresses project delivery systems, project organization, estimating and bidding, planning and scheduling, legal and safety issues, among other topics. Prerequisite: Graduate standing or consent of instructor. Not open to those with credit in CMGT 500. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Tran, Dai
BYPANENI, SAI PAVAN KUMAR
Tu 06:00-08:50 PM LEEP2 G415 - LAWRENCE
3 55531
CMGT 701 Construction Planning and Scheduling
An introduction to the planning and scheduling of projects, for both construction and design. Emphasis is placed on the critical path method including network development, production of time schedules, time-cost considerations, and the efficient utilization of resources. Manual and computer techniques are covered. Prerequisite: CMGT 500 or CMGT 700, and MATH 526 or EMGT 802, or consent of instructor. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Panethiere, Michael
W 06:00-08:50 PM LEEP2 2425 - LAWRENCE
3 62076
CMGT 702 Construction Equipment and Methods
This course introduces the student to the multitude of construction equipment employed in construction. The underlying technology and engineering principles are reviewed. Principles of equipment selection, equipment utilization, and equipment economic analysis are covered. Prerequisite: CMGT 500 or CMGT 700, MATH 526 or EMGT 802, and CMGT 357 or EMGT 806, or consent of instructor. LEC.

The class is not offered for the Spring 2018 semester.

CMGT 703 Construction Quality, Productivity, and Safety
Operations analysis for work improvement in construction using process charts, crew balancing, time-lapse photography, and planning techniques. Regulations, accident prevention, and safety management are covered. Prerequisite: CMGT 500 or CMGT 700, MATH 526 or EMGT 802, and CMGT 357 or EMGT 806, or consent of instructor. LEC.

The class is not offered for the Spring 2018 semester.

CMGT 704 Construction Estimating and Bidding
A study of the quantity survey, cost estimating, scheduling and project controls; construction operations; and methods of building construction. Prerequisite: CMGT 500 or CMGT 700, MATH 526 or EMGT 802, and CMGT 357 or EMGT 806, or consent of instructor. LEC.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
LEC Lines, Brian
M 06:00-08:50 PM LEEP2 2425 - LAWRENCE
3 59851
CMGT 705 Construction Contracts, Bonds, and Insurance
Legal doctrines relating to owners, design professionals, and contractors. Sources of law, forms of association, and agency. Contract formation, rights and duties, interpretation, performance problems, disputes, and claims. Surety bonds and insurance. Prerequisite: CMGT 500 or CMGT 700, or consent of instructor. LEC.

The class is not offered for the Spring 2018 semester.

CMGT 707 Engineering Risk and Decision Analysis
The course investigates the fundamental principles and techniques of risk and decision analysis. It applies these principles in project-level decisions in which risk or uncertainty play a central role. The course examines various risk and decision tools including Monte Carlo analyses, influence diagrams, and other types of multi-criteria decision analyses. In addition to teaching to the skills and techniques, the course will introduce students to new ideas and concepts regarding decision and risk analysis. Prerequisite: CMGT 500 or CMGT 700 or consent of instructor. LEC.

The class is not offered for the Spring 2018 semester.

CMGT 708 Introduction to Sustainable Design and Construction
This course introduces students to Sustainable Design Concepts that are applicable to Civil and Architectural Engineering. Prerequisite: Senior or graduate standing in Architectural Engineering, Architecture, or Civil Engineering or consent of instructor. LEC.

The class is not offered for the Spring 2018 semester.

CMGT 709 International Construction Management
An introduction to the management of international construction projects. This course focuses on areas where international construction project management differs from the management of domestic construction projects. Topics include project delivery systems including build-operate-transfer (BOT) and other systems unique to international construction contracts; the impact of the host country's language, demographics, laws, political structure, geography, economics, culture, and customs on project delivery; currency transfer and risk; procurement and expediting; designing construction means and methods that optimize available labor, material, and equipment; participant roles and responsibilities; among other topics. Prerequisite: CMGT 500 or CMGT 700, or consent of instructor. LEC.

The class is not offered for the Spring 2018 semester.

CMGT 790 Construction Seminar:
Prerequisite: Varies with topic. LEC.

The class is not offered for the Spring 2018 semester.

CMGT 801 Directed Readings in Construction Management
Graduate-level directed readings on a topic in construction management mutually agreed on by the student and instructor. Intended to build on one or more of the core course topics: project management; planning and scheduling; equipment and methods; quality; productivity and safety; estimating and bidding; contracts, bonds, and insurance. CMGT 801 may be repeated for credit to a maximum of three hours in the degree program. Mutually agreed course deliverable(s) required. Prerequisite: Approval of the course topic and deliverable(s) by the instructor, CMGT 500 or CMGT 700, CMGT 701, CMGT 702, CMGT 703, CMGT 704, and CMGT 705, or consent of instructor. IND.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
IND Lines, Brian
APPT- KULC APPT - LAWRENCE
1-3 55253
IND Tran, Dai
APPT- KULC APPT - LAWRENCE
1-3 60755
IND Panethiere, Michael
APPT- KULC APPT - LAWRENCE
1-3 62125
CMGT 802 Special Problems in Construction Management
Graduate-level investigation requiring research of a topic in construction management mutually agreed on by the student and instructor. Intended to build on one or more of the core course topics: project management; planning and scheduling; equipment and methods; quality; productivity and safety; estimating and bidding; contracts, bonds, and insurance. CMGT 802 may be repeated for credit to a maximum of three hours in the degree program. Mutually agreed course deliverable such as a paper summarizing the results of the investigation required. Prerequisite: Approval of the course topic and deliverable by the instructor, CMGT 500 or CMGT 700, CMGT 701, CMGT 702, CMGT 703, CMGT 704, and CMGT 705, or consent of instructor. IND.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
IND Lines, Brian
APPT- KULC APPT - LAWRENCE
1-3 55254
IND Panethiere, Michael
APPT- KULC APPT - LAWRENCE
1-3 62126
IND Tran, Dai
APPT- KULC APPT - LAWRENCE
1-3 60756
CMGT 805 Construction Accounting and Finance
Project level cost control concepts and structure, time and cost integration, data collection and reporting, equipment cost, job overhead cost, and cost control. Integrating construction project level cost with construction company financial accounting and financial management. Prerequisite: CMGT 702 and CMGT 704 or consent of instructor. LEC.

The class is not offered for the Spring 2018 semester.

CMGT 890 Construction Seminar: _____
Prerequisite: Varies with topic. LEC.

The class is not offered for the Spring 2018 semester.

CMGT 895 Construction Management Project
Graduate-level investigation and report on a construction management topic mutually agreed on by the student and project advisor. This is the capstone course in the Master of Construction Management (MCM) degree program. Successful completion of this project requires acceptance of the written report and oral presentation to the student's graduate committee. Prerequisite: Approval of project topic by project advisor, CMGT 500 or CMGT 700, CMGT 701, CMGT 702, CMGT 703, CMGT 704, CMGT 705, and nine elective credit hours, or consent of instructor. IND.
Spring 2018
Type Time/Place and Instructor Credit Hours Class #
IND Lines, Brian
APPT- KULC APPT - LAWRENCE
1-3 55258
IND Panethiere, Michael
APPT- KULC APPT - LAWRENCE
1-3 62127
IND Tran, Dai
APPT- KULC APPT - LAWRENCE
1-3 60709


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