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C&PE Courses

C&PE 111 Introduction to the Chemical Engineering Profession
An introduction to the University of Kansas and work done by professional engineers. Students are introduced to the resources available to them at KU, in the School of Engineering, and in the Chemical and petroleum Engineering Department. They are introduced to the curricula requirements and expectations of chemical engineering students. The career opportunities for chemical engineers are described. Students are introduced to engineering ethics, basic safety considerations, teamwork, and technical writing. The course includes fundamental calculations of material and energy balances and fluid flow. Prerequistie: Corequisite: CHEM 130 or CHEM 170 or CHEM 190. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 117 Energy in the Modern World
A survey course on global energy supply and demand, production methods and energy economics. Course begins with the matrix of energy supply and demand focusing on fossil fuels and nuclear energy and includes transportation/ distribution patterns and issues and current production technologies. We then analyze alternate energy realities and potentials such as solar energy, wind energy, biomass utilization, hydrogen, fuel cells, hydroelectric, geothermal, wave/tidal, and others based on thermodynamic principles and economics. Course is also open to non-engineering students. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 127 Introduction to Petroleum Engineering Profession
An introduction to principles of reservoir engineering and an application of economic principles will be introduced along with the use of computer spreadsheets. A mini petroleum engineering design project will be assigned to illustrate the integration of petroleum engineering principles and the use of computers. C&PE 127 is required of all Petroleum Engineering freshmen but is optional for others. Course is also open to non-engineering students. LEC.
Spring 2019
Type Time/Place and Instructor Credit Hours Class #
LEC Willhite, G.
M 08:00-08:50 AM LEA 3150 - LAWRENCE
1 60673
C&PE 211 Material and Energy Balances
The application of the laws of chemistry, physics, and mathematics to the solution of material and energy balance problems occurring in the process industries. Prerequisite: MATH 125 or MATH 145; CHEM 135 or CHEM 175 or CHEM 195; or consent of instructor. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 217 Introduction to Petroleum Drilling Engineering
An introduction to modern rotary drilling. Topics covered include: rig systems/hardware, management practices, cost analysis, drilling fluid function formulations and testing, well control systems, cement formulation and placement, drilling bits. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 219 Drilling Fluids Laboratory
Laboratory study of formulation and properties of drilling fluids. "Mud" measurements covered include density, solids content, filtration control and viscosity. Other measurements include compressive strength of cement and cuttings transport properties. Prerequisite: Corequisite: C&PE 217. LAB.
Spring 2019
Type Time/Place and Instructor Credit Hours Class #
LAB Ostermann, Russell
Tu 09:00-10:50 AM LEA 3109 - LAWRENCE
Tu 09:00-10:50 AM LEA 3109B - LAWRENCE
1 69029
C&PE 221 Chemical Engineering Thermodynamics
Fundamentals and applications of the First and Second Laws of Thermodynamics with strong emphasis on material, energy and entropy balances to solve engineering problems involving pure components. Topics include: Cycles (Rankine, Brayton, refrigeration, etc.), the calculus of thermodynamics, equations of state for realistic thermodynamic properties, departure functions, equilibrium and stability criteria, fugacity, and single component phase equilibrium (vaporization, melting, sublimation). Prerequisite: MATH 122 or MATH 142 or MATH 126 or MATH 146; and C&PE 211. Prerequisite or Corequisite: PHSX 210 or PHSX 211 or PHSX 213; or consent of instructor. LEC.
Spring 2019
Type Time/Place and Instructor Credit Hours Class #
LEC Paul, Arghya
MWF 01:00-01:50 PM LEEP2 2415 - LAWRENCE
3 60674
DIS Paul, Arghya
Th 04:00-05:45 PM LEEP2 2415 - LAWRENCE
3 60675
C&PE 325 Numerical Methods and Statistics for Engineers
An introduction to numerical methods and statistics and their application to engineering problems. Numerical methods topics include finding roots of a single nonlinear equation, numerical solution of ordinary differential equations, numerical integration, and solutions of ordinary differential equations. Statistical topics include regression and curve fitting, probability and probability distributions, expected value and hypothesis testing, and optimization of single and multiple-variable systems. Implementing numerical algorithms using computer programming will be emphasized, along with the fundamentals of programming, including data typing, branching, and iteration. Applications specific to chemical and petroleum engineering systems will be considered. Prerequisite: MATH 126 or MATH 146; and CHEM 135 or CHEM 175 or CHEM 195. Corequisite: MATH 220 or MATH 221 or MATH 320 or MATH 321; and MATH 290 or MATH 291; or consent of instructor. LEC.
Spring 2019
Type Time/Place and Instructor Credit Hours Class #
LEC Ostermann, Russell
MWF 09:00-09:50 AM LEEP2 G411 - LAWRENCE
3 73395
C&PE 327 Reservoir Engineering
Properties of porous rocks, reservoir fluids, and fluid saturated rocks. Introduction to multiphase flow in porous media including concepts of wettability, capillary pressure and relative permeability. Prerequisite: CHEM 135 or CHEM 175 or CHEM 195. LEC.
Spring 2019
Type Time/Place and Instructor Credit Hours Class #
LEC Li, Xiaoli
MWF 12:00-12:50 PM LEEP2 G411 - LAWRENCE
4 69031
DIS Li, Xiaoli
Tu 04:00-05:45 PM LEEP2 1420 - LAWRENCE
4 69032
C&PE 511 Momentum Transfer
Solutions of continuity, momentum, and energy equations applied to fluids in confined flow or flowing past submerged objects. Laminar and turbulent flows of both incompressible and compressible fluids are considered. Engineering applications include pressure drop and network analysis of piping lines, flow measurements, fluid moving equipment including the performance of pumps. Prerequisite: C&PE 221 or ME 312; C&PE 121 or C&PE 325; MATH 122 or MATH 142 or MATH 127 or MATH 147; and MATH 220 or MATH 221 or MATH 320 or MATH 321; or consent of instructor. The Department has a GPA requirement for progression in the program. Details can be found in the catalog. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 512 Chemical Engineering Thermodynamics II
Further application of the laws of thermodynamics to multi-component mixtures and in multi-phase equilibria with focus on vapor-liquid, liquid-liquid, and solid-liquid equilibria. Mixture Fugacity expressions are developed using equations of state with mixing rules or Excess Gibbs Free Energy/activity coefficient models for data correlation or prediction. Chemical equilibrium of reactions is also discussed. Prerequisite: C&PE 121 or C&PE 325; C&PE 211; C&PE 221; and CHEM 330 or CHEM 380; or consent of instructor. The Department has a GPA requirement for progression in the program. Details can be found in the catalog. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 521 Heat Transfer
An applied study of the various (conductive, convective, and radiative) heat transfer mechanisms in solid and fluid systems both transient and steady-state. Engineering applications include: conduction in solids and fluids, free and forced convection in fluids, radiation, boiling and condensing fluids, and design of heat exchangers. Prerequisite: C&PE 121 or C&PE 325; C&PE 221 or ME 312; C&PE 511 or ME 510; MATH 122 or MATH 142 or MATH 127 or MATH 147; and MATH 220 or MATH 221 or MATH 320 or MATH 321; or consent of instructor. The Department has a GPA requirement for progression in the program. Details can be found in the catalog. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 522 Economic Appraisal of Chemical and Petroleum Projects
Consideration of the economic factors important in the development of the chemical or petroleum enterprise. Applications of economic evaluation methods to engineering project development. Consideration of risk and uncertainty in project development. Prerequisite: MATH 122 or MATH 142 or MATH 126 or MATH 146; PHSX 210 or PHSX 211 or PHSX 213; and C&PE 121 or C&PE 325; or consent of instructor. LEC.
Spring 2019
Type Time/Place and Instructor Credit Hours Class #
LEC Southard, Marylee Z
Robinson, Jennifer
MW 09:00-09:50 AM LEEP2 2415 - LAWRENCE
2 78093
C&PE 523 Mass Transfer
Includes one credit hour of calculations laboratory. Treatment of mass transfer phenomena with application to analysis and design of unit operations equipment such as distillation, extraction, absorption, and adsorption. Prerequisite: C&PE 211; C&PE 511; and C&PE 512; or consent of instructor. Corequisite: C&PE 521. The Department has a GPA requirement for progression in the program. Details can be found in the catalog. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 524 Chemical Engineering Kinetics and Reactor Design
Development and solution of the material and energy balance equations for continuous and batch reactors. These balance equations are applied in (a) the determination of intrinsic kinetics, (b) the design of reactors and (c) the analysis of reactor behavior. Both homogeneous and heterogeneous reaction systems are considered. Prerequisite: C&PE 511; C&PE 512; and MATH 220 or MATH 221 or MATH 320 or MATH 321; or consent of instructor. Corequisite: C&PE 521. The Department has a GPA requirement for progression in the program. Details can be found in the catalog. LEC.
Spring 2019
Type Time/Place and Instructor Credit Hours Class #
LEC Leonard, Kevin
MWF 11:00-11:50 AM LEEP2 2415 - LAWRENCE
3 60679
C&PE 525 Heat and Mass Transfer
An applied study of the various heat and mass transfer mechanisms in solid and fluid systems. Heat transfer mechanisms include conduction and the concept of conductivity at the molecular level, convection, and radiation. Mass transfer fundamentals include diffusion and the concepts of diffusivity at the molecular level and shell mass balances including diffusion, convention, and consumption or generation source terms. Steady state and transient heat and mass transfer engineering applications will be considered. Prerequisite: MATH 220; MATH 127; C&PE 221 or ME 312; C&PE 325; C&PE 511 or ME 510; or consent of instructor. The Department has a GPA requirement for progression in the program. Details can be found in the catalog. LEC.
Spring 2019
Type Time/Place and Instructor Credit Hours Class #
LEC DeKosky, Brandon
Gehrke, Stevin
MWF 10:00-10:50 AM LEEP2 2415 - LAWRENCE
4 78155
LBN DeKosky, Brandon
Gehrke, Stevin
TuTh 11:30-12:20 PM LEEP2 1420 - LAWRENCE
4 78251
LBN DeKosky, Brandon
Gehrke, Stevin
TuTh 02:30-03:20 PM LEEP2 2420 - LAWRENCE
4 78254
C&PE 527 Reservoir Engineering II
Lectures on single phase flow and pressure distribution in reservoirs. Calculations in drawdown, buildup, multiple rate, fractured systems, gas and injection well testing. Material balance calculations for gas, gas-condensate, undersaturated, and saturated reservoirs. Prerequisite: C&PE 327; ME 312 or C&PE 221; MATH 220 or MATH 221 or MATH 320 or MATH 321; or consent of instructor. The Petroleum major has a GPA requirement for specific courses to progress to junior year courses. Details can be found in the catalog. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 528 Well Logging
Analysis of well logs to determine properties of reservoir rocks, fluid saturations and lithology, and production logging. Prerequisite: C&PE 327 or consent of instructor. The Petroleum major has a GPA requirement for specific courses to progress to the Junior year courses. Details can be found in the catalog. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 601 Undergraduate Topics in Chemical and Petroleum Engineering
Undergraduate study in various branches of Chemical and Petroleum Engineering on topics that may vary from year to year. Prerequisite: Varies. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 611 Design of Unit Operations
Application of chemical engineering principles to design pumps, heat exchangers, and separation equipment. Staged separation processes including distillation, extraction and absorption, membrane separations, and modes of operation will be considered. Sizing of equipment, energy consumption and materials of construction will also be addressed. Prerequisite: C&PE 211; C&PE 511; C&PE 512; C&PE 521 or C&PE 525; C&PE 523 or C&PE 525; C&PE 524; or consent of instructor. The Department has a GPA requirement for progression in the program. Details can be found in the catalog. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 612 Environmental Assessment of Chemical Processes
A discussion and project-based survey of environmental issues in chemical engineering, including environmentally conscious design, environmental fate and transport, green chemistry, and life cycle analysis. Focus will be on the design, implementation and management of comprehensive environmental assessments for existing and new industrial facilities with an emphasis on the technical and economic impacts of catalytic systems on pollution control strategies. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 613 Chemical Engineering Design I
Synthesis, design and economic analysis of petrochemical, and chemical plants. Applications in computer aided engineering applied to these topics. Prerequisite: C&PE 511; C&PE 512; C&PE 521; C&PE 522; C&PE 523; and C&PE 524; or consent of instructor. Corequisite: C&PE 615. The Department has a GPA requirement for progression in the program. Details can be found in the catalog. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 614 Reaction Engineering for Environmentally Benign Processes
Principles of reaction engineering and green chemistry applied to processes of the future. With a case-based introduction to the design and optimization of catalytic processes and reaction systems, focus will be on key reaction engineering concepts, including catalysis, mechanisms, reaction kinetics, heterogeneous reactions, reactor types and economic evaluation. Students will develop a multidisciplinary understanding of chemical, biological and molecular concepts and of the multiscale character of developing and designing processes from the micro level to the macro level. Prerequisite: Senior standing in engineering or the physical/biological sciences. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 615 Introduction to Process Dynamics and Control
The behavior of chemical processing equipment in the presence of disturbances in operating conditions is analyzed. Control systems are designed based on the criteria of system stability and optimal system performance. Prerequisite: C&PE 511; C&PE 512; C&PE 521; C&PE 523; and C&PE 524; or consent of instructor. The Department has a GPA requirement for progression in the program. Details can be found in the catalog. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 616 Chemical Engineering Laboratory I
Laboratory study of chemical engineering concepts of thermodynamics, fluid flow, heat transfer, mass transfer, and reaction kinetics. Includes emphasis on technical communication skills. Prerequisite: C&PE 511; C&PE 512; C&PE 521; C&PE 523; C&PE 524; and ENGL 102 or ENGL 105; or consent of instructor. The Department has a GPA requirement for progression in the program. Details can be found in the catalog. LAB.

The class is not offered for the Spring 2019 semester.

C&PE 617 Drilling and Well Completion
Design and analysis of rotary drilling and well completion systems; casing design, cementing, and perforating. Safety and ethical considerations in drilling and fluid disposal operations. Prerequisite: C&PE 217; C&PE 219; C&PE 327; C&PE 511 or ME 510; or consent of instructor. The Petroleum major has a GPA requirement for specific courses to progress to the senior year courses. Details can be found in the catalog. LEC.
Spring 2019
Type Time/Place and Instructor Credit Hours Class #
LEC Ostermann, Russell
MWF 11:00-11:50 AM LEEP2 2420 - LAWRENCE
3 66437
C&PE 618 Secondary Recovery
Study of waterflooding based upon linear displacement theory. Extension to two and three dimensions through correlations and stream tube models. Design of waterfloods including preparation of a reservoir description for waterflood evaluation. Prerequisite: C&PE 527; or consent of the instructor. The Petroleum major has a GPA requirement for specific courses to progress to the Junior year courses. Details can be found in the catalog. LEC.
Spring 2019
Type Time/Place and Instructor Credit Hours Class #
LEC Negahban, Shahin
MWF 11:00-11:50 AM LEA 3151 - LAWRENCE
F 02:00-03:50 PM LEEP2 G415 - LAWRENCE
4 68401
C&PE 619 Petroleum Engineering Laboratory I
Laboratory study of methods to determine rock and fluid properties related to petroleum engineering including phase behavior, viscosity, permeability, porosity, capillary pressure, oil recovery, water/oil displacement, fluid flow, and heat transfer coefficients. Analysis of experimental uncertainty. Oral and written presentations are required. Prerequisite: ENGL 203 (Writing for Engineers); C&PE 219; C&PE 327; C&PE 511 or ME 510; or consent of instructor. The Petroleum major has a GPA requirement for specific courses to progress to junior year courses. Details can be found in the catalog. LAB.
Spring 2019
Type Time/Place and Instructor Credit Hours Class #
LAB Willhite, G.
Tu 01:00-05:50 PM LEA 3109 - LAWRENCE
3 71390
DIS Willhite, G.
M 02:00-03:20 PM LEA 3153 - LAWRENCE
3 71391
LAB Willhite, G.
Th 08:00-12:50 PM LEA 3109 - LAWRENCE
3 70385
DIS Willhite, G.
Tu 08:00-09:20 AM LEA 1131 - LAWRENCE
3 70386
C&PE 620 Enhanced Oil Recovery
Enhanced Oil Recovery processes such as primary, secondary, and tertiary oil recovery techniques will be presented. This includes miscible/immiscible displacement, chemical processes such as polymerflood, surfactant and micellar flood, and thermal recovery techniques such as steam flooding, in-situ combustion, and other EOR techniques. Prerequisite: C&PE 527 and C&PE 618 or consent of instructor. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 623 Chemical Engineering Design II
A continuation of C&PE 613 with emphasis on individual student process design development and analysis. Prerequisite: C&PE 613; and C&PE 615; or consent of instructor. The Department has a GPA requirement for progression in the program. Details can be found in the catalog. LEC.
Spring 2019
Type Time/Place and Instructor Credit Hours Class #
LEC Weatherley, Laurence
M 04:00-05:50 PM LEEP2 G411 - LAWRENCE
2 60680
C&PE 624 Process Safety and Sustainability
An introductory course designed to acquaint students with the necessary global aspects and ethics of risk-based process safety and sustainability. Topics will include elements of process safety, process safety management, historical and contemporary case studies of major accidents in the chemical and petroleum industry, overview of current government regulation (e.g. OSHA, EPA, etc.), and ethics. Students will receive an introduction to sustainable ("green") chemistry and engineering followed by more quantitative Life Cycle Analysis (LCA) to compare technologies and products. Prerequisite: C&PE 511 or ME 510; and C&PE 521 or ME 612; or consent of instructor. The Department has a GPA requirement for progression in the program. Details can be found in the catalog. LEC.
Spring 2019
Type Time/Place and Instructor Credit Hours Class #
LEC Scurto, Aaron
TuTh 04:00-05:15 PM LEEP2 G411 - LAWRENCE
3 60681
C&PE 625 Unconventional Reservoirs
Principles of unconventional reservoir engineering including properties and use of shale reservoirs, hydraulic fracturing, and relevant environmental and economic factors. Prerequisite: C&PE 511; C&PE 522; C&PE 527; C&PE 528; ME 211 or CE 201 and CE 310; GEOL 331 or GEOL 591: Geology for Petroleum Engineers; or consent of instructor. The Petroleum major has a GPA requirement for specific courses to progress to the senior year courses. Details can be found in the catalog. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 626 Chemical Engineering Laboratory II
Laboratory study of chemical engineering concepts of thermodynamics, fluid flow, heat transfer, mass transfer, reaction kinetics, and process control. Includes emphasis on technical communication skills. Prerequisite: ENGL 102 or ENGL 105; C&PE 511; C&PE 512; C&PE 521; C&PE 523; C&PE 524; C&PE 615; and C&PE 616; or consent of instructor. The Department has a GPA requirement for progression in the program. Details can be found in the catalog. LAB.
Spring 2019
Type Time/Place and Instructor Credit Hours Class #
LAB Griffin, David
W 04:00-05:15 PM LEEP2 G411 - LAWRENCE
3 66610
LBN Nordheden, Karen
Griffin, David
Shiflett, Mark
Allgeier, Alan
M 08:00-03:15 PM LEEP2 G429 - LAWRENCE
3 66611
LBN Nordheden, Karen
Griffin, David
Shiflett, Mark
Allgeier, Alan
Tu 08:00-03:15 PM LEEP2 G429 - LAWRENCE
3 71358
LBN Nordheden, Karen
Griffin, David
Shiflett, Mark
Allgeier, Alan
W 08:00-03:15 PM LEEP2 G429 - LAWRENCE
3 71388
LBN Nordheden, Karen
Griffin, David
Shiflett, Mark
Allgeier, Alan
Th 08:00-03:15 PM LEEP2 G429 - LAWRENCE
3 71389
LBN Nordheden, Karen
Griffin, David
Shiflett, Mark
Allgeier, Alan
F 08:00-03:15 PM LEEP2 G429 - LAWRENCE
3 72166
C&PE 627 Petroleum Production
Design and analysis of natural production and artificial lift systems, including beam pumping, gas lift, and submersible pumps. Vertical and horizontal two phase flow, compression, metering, acidizing, fracturing, and pipe line flow systems. Treatment of ethics considerations in production contracts and leasing arrangements. Prerequisite: C&PE 327; C&PE 511 or ME 510; or consent of instructor. The Petroleum major has a GPA requirement for specific courses to progress to the senior year courses. Details can be found in the catalog. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 628 Petroleum Engineering Design
Design problems related to petroleum reservoir development such as selection of optimum well spacing for a specified reservoir, evaluation of a producing property or installation of a waterflood. Designs consider economic, uncertainty analysis, as well as conservation, environmental, and professional ethics factors. Prerequisite: C&PE 522; C&PE 527; C&PE 528; C&PE 618; C&PE 619; GEOL 535; or consent of instructor. The Petroleum major has a GPA requirement for specific courses to progress to the senior year courses. Details can be found in the catalog. LEC.
Spring 2019
Type Time/Place and Instructor Credit Hours Class #
LEC Kalantari-Dahaghi, Amirmasoud
MW 03:30-05:00 PM LEEP2 1420 - LAWRENCE
3 60682
C&PE 651 Undergraduate Problems
Investigation of a particular problem in the field of chemical or petroleum engineering. The problem or research topic is identified jointly by the student and the faculty research supervisor. A final report is required. IND.
Spring 2019
Type Time/Place and Instructor Credit Hours Class #
IND Allgeier, Alan
APPT- KULC APPT - LAWRENCE
1-4 74889
IND Barati, Reza
APPT- KULC APPT - LAWRENCE
1-4 68611
IND Berkland, Cory
APPT- KULC APPT - LAWRENCE
1-4 64517
IND Camarda, Kyle
APPT- KULC APPT - LAWRENCE
1-4 60683
IND Chaudhari, Raghunath
APPT- KULC APPT - LAWRENCE
1-4 65605
IND DeKosky, Brandon
APPT- KULC APPT - LAWRENCE
1-4 64519
IND Dhar, Prajnaparamita
APPT- KULC APPT - LAWRENCE
1-4 67152
IND Gehrke, Stevin
APPT- KULC APPT - LAWRENCE
1-4 64036
IND He, Mei
APPT- KULC APPT - LAWRENCE
1-4 75350
IND Paul, Arghya
APPT- KULC APPT - LAWRENCE
1-4 60684
IND Leonard, Kevin
APPT- KULC APPT - LAWRENCE
1-4 69734
IND Bravo Suarez, Juan
APPT- KULC APPT - LAWRENCE
1-4 64097
IND Nguyen, Trung
APPT- KULC APPT - LAWRENCE
1-4 60685
IND Nordheden, Karen
APPT- KULC APPT - LAWRENCE
1-4 60686
IND Ostermann, Russell
APPT- KULC APPT - LAWRENCE
1-4 60687
IND Robinson, Jennifer
APPT- KULC APPT - LAWRENCE
1-4 75351
IND Scurto, Aaron
APPT- KULC APPT - LAWRENCE
1-4 64531
IND Southard, Marylee Z
APPT- KULC APPT - LAWRENCE
1-4 60688
IND Subramaniam, Bala
APPT- KULC APPT - LAWRENCE
1-4 60690
IND Vossoughi, Shapour
APPT- KULC APPT - LAWRENCE
1-4 60691
IND Weatherley, Laurence
APPT- KULC APPT - LAWRENCE
1-4 64532
IND Willhite, G.
APPT- KULC APPT - LAWRENCE
1-4 60692
IND Williams, Susan
APPT- KULC APPT - LAWRENCE
1-4 60689
IND Shiflett, Mark
APPT- KULC APPT - LAWRENCE
1-4 72525
IND Kalantari-Dahaghi, Amirmasoud
APPT- KULC APPT - LAWRENCE
1-4 72526
IND Negahban, Shahin
APPT- KULC APPT - LAWRENCE
1-4 72527
IND Tao, Feng
APPT- KULC APPT - LAWRENCE
1-4 72528
IND Li, Xiaoli
APPT- KULC APPT - LAWRENCE
1-4 72529
C&PE 654 Biocatalysis
Introductory and advanced topics in biocatalysis with focus on enzymatic reactions. Enzymology will provide the fundamental basis for discussion of kinetics and bio-process development. Advanced topics include: enzymes in non-aqueous solvents, immobilization techniques, whole-cell transformations, bio-reactors. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 655 Introduction to Semiconductor Processing
An overview of various processes to fabricate semiconductor devices and integrated circuits. Topics covered include crystal growth, oxidation, solid-state diffusion, ion implantation, photolithography, chemical vapor deposition, epitaxial growth, metalization, and plasma etching of thin films. (Same as EECS 670.) Prerequisite: Senior standing in C&PE or EECS, or consent of instructor. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 656 Introduction to Biomedical Engineering
An interdisciplinary introduction to the field of biomedical engineering. This course covers a breadth of topics including biotransport, biomechanics, biomaterials, tissue engineering, drug delivery, biomedical imaging, computational biology, and biotechnology. Students are exposed to these broad topics, and go further in depth in a topic of their choice with the semester project. Prerequisite: Junior or Senior-level standing in Engineering or consent of instructor. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 657 Polymer Science and Technology
Polymer Science and Technology is a 3-hour introductory course to polymer chemistry, science, technology, and processing. The course targets junior, senior, and graduate chemical engineers and chemistry majors and is intended to provide a background which would allow young professionals to understand polymer chemistry and processes to which they would be exposed to in industry and literature. The course would also assist them in selecting polymers and polymer specifications. Prerequisite: Senior or graduate student standing in chemical or petroleum engineering, or consent of instructor. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 661 Undergraduate Honors Research
This course involves the investigation of a particular problem in the field of chemical or petroleum engineering. C&PE 661 should be taken, rather than C&PE 651, for students seeking Departmental Honors in Chemical Petroleum Engineering. C&PE 661 may also be used by students in the Honors Program to help satisfy the course requirement of this program. The design or research topic is identified jointly by the student and faculty research supervisor. Prerequisite: C&PE 121 or C&PE 325; C&PE 211; C&PE 511; C&PE 512; C&PE 522; overall GPA >3.5; and engineering GPA >3.5; or consent of the instructor. IND.
Spring 2019
Type Time/Place and Instructor Credit Hours Class #
IND Allgeier, Alan
APPT- KULC APPT - LAWRENCE
1-3 74890
IND Barati, Reza
APPT- KULC APPT - LAWRENCE
1-3 68606
IND Berkland, Cory
APPT- KULC APPT - LAWRENCE
1-3 64518
IND Camarda, Kyle
APPT- KULC APPT - LAWRENCE
1-3 60693
IND Chaudhari, Raghunath
APPT- KULC APPT - LAWRENCE
1-3 65607
IND DeKosky, Brandon
APPT- KULC APPT - LAWRENCE
1-3 64520
IND Dhar, Prajnaparamita
APPT- KULC APPT - LAWRENCE
1-3 67156
IND Gehrke, Stevin
APPT- KULC APPT - LAWRENCE
1-3 64098
IND He, Mei
APPT- KULC APPT - LAWRENCE
1-3 75352
IND Paul, Arghya
APPT- KULC APPT - LAWRENCE
1-3 60694
IND Leonard, Kevin
APPT- KULC APPT - LAWRENCE
1-3 69733
IND Bravo Suarez, Juan
APPT- KULC APPT - LAWRENCE
1-3 64037
IND Nguyen, Trung
APPT- KULC APPT - LAWRENCE
1-3 60695
IND Nordheden, Karen
APPT- KULC APPT - LAWRENCE
1-3 60696
IND Ostermann, Russell
APPT- KULC APPT - LAWRENCE
1-3 60697
IND Robinson, Jennifer
APPT- KULC APPT - LAWRENCE
1-3 75353
IND Scurto, Aaron
APPT- KULC APPT - LAWRENCE
1-3 64533
IND Southard, Marylee Z
APPT- KULC APPT - LAWRENCE
1-3 60698
IND Subramaniam, Bala
APPT- KULC APPT - LAWRENCE
1-3 60700
IND Vossoughi, Shapour
APPT- KULC APPT - LAWRENCE
1-3 60701
IND Weatherley, Laurence
APPT- KULC APPT - LAWRENCE
1-3 64534
IND Willhite, G.
APPT- KULC APPT - LAWRENCE
1-3 60702
IND Williams, Susan
APPT- KULC APPT - LAWRENCE
1-3 60699
IND Negahban, Shahin
APPT- KULC APPT - LAWRENCE
1-3 72530
IND Kalantari-Dahaghi, Amirmasoud
APPT- KULC APPT - LAWRENCE
1-3 72531
IND Tao, Feng
APPT- KULC APPT - LAWRENCE
1-3 72532
IND Li, Xiaoli
APPT- KULC APPT - LAWRENCE
1-3 72533
IND Shiflett, Mark
APPT- KULC APPT - LAWRENCE
1-3 72534
C&PE 671 Senior Thesis
This course involves the investigation of a particular problem in the field of chemical or petroleum engineering as a continuation for students with previous research experience, by invitation. The design or research topic is identified jointly by the student and faculty research supervisor and faculty committee. Students will present periodically and receive instruction and feedback on their presentations. A written thesis and public oral defense with committee are also required. Prerequisite: C&PE 651 or C&PE 661; and invitation and permission of instructor, open to seniors only. THE.

The class is not offered for the Spring 2019 semester.

C&PE 678 Applied Optimization Methods
Study of methods for solving optimization problems encountered in engineering and the natural sciences, with specific applications illustrating analytical and numerical techniques. Topics covered include methods, penalty functions, linear programming, nonlinear and integer programming, stochastic optimization approaches, and treatment of constrained problems. A semester project is required. Prerequisite: Senior standing or consent of instructor. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 701 Methods of Chemical and Petroleum Calculations
The utilization of advanced mathematical methods and computing techniques in the solution of problems in these fields. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 710 Subsurface Methods in Formation Evaluation
Study of subsurface methods and their applications to exploration, evaluation, and production of hydrocarbon reservoirs. Emphasis is on fundamentals of quantitative well log interpretations and the use of well log data in solving geologic and reservoir engineering problems, e.g., porosity, hydrocarbon saturation, permeable bed thickness, permeability, correlation, structural mapping, and stratigraphic and paleoenvironmental studies. Laboratory. Prerequisite: GEOL 535 or C&PE 517 or consent of instructor. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 712 Environmental Assessment of Chemical Processes
A discussion and project-based survey of environmental issues in chemical engineering, including environmental conscious design, environmental fate and transport, green chemistry, and life cycle analysis. Focus will be on the design, implementation and management of comprehensive environmental assessments for existing and new industrial facilities with in-depth analysis of the technical and economic impacts of catalytic systems on pollution control strategies. A comprehensive research paper is required as a final project. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 714 Reaction Engineering for Environmentally Benign Processes
Principles of reaction engineering and green chemistry applied to processes of the future. With a case-based introduction to the design and optimization of catalytic processes and reaction systems, focus will be on key reaction engineering concepts, including catalysis, mechanisms, reaction kinetics, heterogeneous reactions, reactor types and economic evaluation. Students will develop a multidisciplinary understanding of chemical, biological and molecular concepts, and will develop and design processes from the micro level to the macro level. A final research paper is required. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 715 Topics in Chemical and Petroleum Engineering: _____
Study in various branches of Chemical and Petroleum Engineering on topics that may vary from year to year. LEC.
Spring 2019
Type Time/Place and Instructor Credit Hours Class #
LEC Kalantari-Dahaghi, Amirmasoud
MW 03:30-05:00 PM LEEP2 1420 - LAWRENCE
1-4 70883
LEC DeKosky, Brandon
Berkland, Cory
Forrest, M
MWF 02:00-02:50 PM PHAR 2020 - LAWRENCE
1-4 78857
C&PE 721 Chemical Engineering Thermodynamics
Chemical engineering applications of advanced thermodynamics and physical chemistry. Prerequisite: C&PE 512. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 722 Kinetics and Catalysis
Modeling and analysis of chemical reactors with emphasis on heterogenous catalytic reaction systems. Prerequisite: C&PE 524. LEC.
Spring 2019
Type Time/Place and Instructor Credit Hours Class #
LEC Bravo Suarez, Juan
TuTh 11:30-12:50 PM LEEP2 2420 - LAWRENCE
3 69033
C&PE 725 Molecular Cell Biology
Fundamentals and advanced concepts in cell biology and the molecular interactions responsible for cell functions, homeostasis and disease will be presented. Current analytical methods for examining cells and their molecular components will be discussed. Emphasis will be placed on the chemical and physical properties of individual proteins, nucleic acids and lipids and their assembly into cellular and subcellular structures. (Same as PHCH 725.) Prerequisite: Graduate standing or consent of instructor. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 731 Convective Heat and Momentum Transfer
The formulation and solution of steady- and unsteady-state convective heat and momentum transfer problems. Applications of boundary layer equations to free and forced convection with study of similarity and integral methods of solution for laminar and turbulent flow; development of analogies; transport properties from kinetic theory of gases viewpoint; introduction to numerical methods. Prerequisite: ME 610/C&PE 511 and ME 612/C&PE 521 or equivalent. A concurrent course in partial differential equations is helpful. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 732 Advanced Transport Phenomena II
The formulation and solution of steady- and unsteady-state mass transfer problems (including those complicated by momentum and heat transfer). This course is the sequel to C&PE 731 and relies upon much of the material treated there. The mathematical approach predominates and the methods available for determining suitable mass transfer coefficients are covered. LEC.
Spring 2019
Type Time/Place and Instructor Credit Hours Class #
LEC He, Mei
TuTh 02:30-03:50 PM LEA 3152 - LAWRENCE
3 60703
C&PE 751 Basic Rheology
Basic rheology including classification of classical bodies based on their stress and strain tensors, rheological equation of state, material functions, generalized Newtonian and general linear viscoelastic fluids, mechanical models such as those of Jeffreys and Maxwell. Prerequisite: C&PE 511 or an equivalent course in fluid mechanics. LEC.
Spring 2019
Type Time/Place and Instructor Credit Hours Class #
LEC Dhar, Prajnaparamita
MWF 01:00-01:50 PM LEEP2 1420 - LAWRENCE
3 78091
C&PE 752 Tissue Engineering
An introduction to the rapidly growing and continuously evolving field of tissue engineering. Tissue engineering applies principles and methods of engineering and life sciences toward understanding and development of biological substitutes to restore, maintain and improve tissues functions. In this course, students study the basic science, engineering and medicine required for tissue engineering, learn state-of-the-art technology and practice, and create a literature-based proposal for a tissue engineered medical product. Prerequisite: Senior or graduate standing in engineering; or consent of instructor. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 753 Introduction to Electrochemical Engineering
Basic principles of electrochemical engineering as they are applied to energy conversion and storage devices, industrial electrolytic processes and corrosion. Areas covered range from electrochemical thermodynamics, ionic phase equilibria, electro-kinetics and ionic mass transport to mathematical modeling of electrochemical systems. Prerequisite: Graduate standing; C&PE 511, C&PE 512, C&PE 524 or equivalent; knowledge of a programming language. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 754 Biocatalysis
Introductory and advanced topics in biocatalysis with focus on enzymatic reactions. Enzymology will provide the fundamental basis for discussion of kinetics and bio-process development. Advanced topics include: enzymes in non-aqueous solvents, immobilization techniques, whole-cell transformations, bio-reactors. Knowledge of the theoretical basis for these techniques and processes will be demonstrated within a class project. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 755 Introduction to Semiconductor Processing
An overview of various processes to fabricate semiconductor devices and integrated circuits. Topics covered include crystal growth, oxidation, solid-state diffusion, ion implantation, photolithography, chemical vapor deposition, eqitaxial growth, metallization, and plasma etching of thin films. A term paper on an approved topic of fabrication referencing current peer reviewed literature is required. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 756 Introduction to Biomedical Engineering
The graduate elective form of C&PE 656. Additional assignments commensurate with the graduate-level course designation are required for this section. Prerequisite: Graduate-level standing in Engineering, or consent of instructor. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 765 Corrosion Engineering
Electrochemical basis of corrosion. Types of corrosion and corrosive atmospheres. Corrosion control measures and industrial problems. Prerequisite: ME 306 or CHEM 135 or CHEM 175 or CHEM 195. LEC.
Spring 2019
Type Time/Place and Instructor Credit Hours Class #
LEC O'Reilly, Matt
MWF 09:00-09:50 AM LEA 3153 - LAWRENCE
3 67518
C&PE 771 Advanced Reservoir Engineering
Physical principles of petroleum production; gas drive performance; partial water drive performance; pressure maintenance through gas and water injection. Prerequisite: C&PE 527. LEC.
Spring 2019
Type Time/Place and Instructor Credit Hours Class #
LEC Vossoughi, Shapour
TuTh 11:00-12:30 PM LEA 3152 - LAWRENCE
2-3 72578
C&PE 778 Applied Optimization Methods
Study of methods for solving optimization problems encountered in engineering and the natural sciences, with specific applications illustrating analytical and numerical techniques. Topics covered include gradient methods, penalty functions, linear programming, nonlinear and integer programming, stochastic optimization approaches, and treatment of constrained problems. Homework problems involving theoretical concepts and a theoretically-based semester project are required. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 790 Introduction to Flow in Porous Media
Generalized Darcy's law, vector equations, solutions of partial differential equations with various boundary conditions as applied to the flow of fluids in porous media. Prerequisite: C&PE 527. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 795 Enhanced Petroleum Recovery
A study of improved oil recovery processes such as miscible displacement, microemulsion displacement, and thermal methods. Prerequisite: C&PE 618 or permission of instructor. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 798 Phase Equilibrium
A study of phase behavior and equilibrium from a molecular perspective. Focus will be on vapor-liquid, liquid-liquid and solid-liquid equilibrium with advanced topics in compressed and supercritical fluids, petroleum applications, ionic solutions and others. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 800 Seminar
Every fall, five to six seminar sessions will be devoted to providing incoming students information on available thesis/dissertation research projects, library resources, computing environment and topics related to the issues of responsible scholarship in the fields of Chemical and Petroleum Engineering. For the remainder of the year, the seminar will involve presentation of current research and other topics of interest to chemical and petroleum engineers. These presentations will be made by invited guests, faculty, and advanced graduate students. Student attendance is required. Graded on a satisfactory/unsatisfactory basis. LEC.
Spring 2019
Type Time/Place and Instructor Credit Hours Class #
LEC Bravo Suarez, Juan
Tu 01:00-01:50 PM EATN 2 - LAWRENCE
0.5-1 60704
C&PE 801 Introduction to Research
One hour per week in which the staff introduces entering graduate students to research. Topics include discussion of research methods, methods of effectively tapping library resources, preparation of literature surveys, and presentation of results. Faculty members of the department will make presentations of their current research interests. Offered fall only. Prerequisite: Corequisite: C&PE 800. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 802 CEBC Colloquium
A forum in which graduate and postdoctoral students, and faculty present the results of CEBC research and literature surveys that support the mission of CEBC. LEC.
Spring 2019
Type Time/Place and Instructor Credit Hours Class #
LEC Subramaniam, Bala
Th 09:00-10:20 AM LSRBC 104 - LAWRENCE
0.5-1 65054
C&PE 803 Research
For M.S. candidates. THE.
Spring 2019
Type Time/Place and Instructor Credit Hours Class #
THE Allgeier, Alan
APPT- KULC APPT - LAWRENCE
1-6 78350
THE Barati, Reza
APPT- KULC APPT - LAWRENCE
1-6 68607
THE Berkland, Cory
APPT- KULC APPT - LAWRENCE
1-6 64516
THE Camarda, Kyle
APPT- KULC APPT - LAWRENCE
1-6 60705
THE Chaudhari, Raghunath
APPT- KULC APPT - LAWRENCE
1-6 65608
THE DeKosky, Brandon
APPT- KULC APPT - LAWRENCE
1-6 64521
THE Dhar, Prajnaparamita
APPT- KULC APPT - LAWRENCE
1-6 67159
THE Gehrke, Stevin
APPT- KULC APPT - LAWRENCE
1-6 64038
THE He, Mei
APPT- KULC APPT - LAWRENCE
1-6 75354
THE Paul, Arghya
APPT- KULC APPT - LAWRENCE
1-6 60706
THE Leonard, Kevin
APPT- KULC APPT - LAWRENCE
1-6 69732
THE Li, Xiaoli
APPT- KULC APPT - LAWRENCE
1-6 72070
THE Bravo Suarez, Juan
APPT- KULC APPT - LAWRENCE
1-6 64039
THE Nguyen, Trung
APPT- KULC APPT - LAWRENCE
1-6 60707
THE Nordheden, Karen
APPT- KULC APPT - LAWRENCE
1-6 60708
THE Ostermann, Russell
APPT- KULC APPT - LAWRENCE
1-6 60709
THE Robinson, Jennifer
APPT- KULC APPT - LAWRENCE
1-6 75355
THE Scurto, Aaron
APPT- KULC APPT - LAWRENCE
1-6 64535
THE Southard, Marylee Z
APPT- KULC APPT - LAWRENCE
1-6 60710
THE Subramaniam, Bala
APPT- KULC APPT - LAWRENCE
1-6 60712
THE Tao, Feng
APPT- KULC APPT - LAWRENCE
1-6 72071
THE Vossoughi, Shapour
APPT- KULC APPT - LAWRENCE
1-6 60713
THE Weatherley, Laurence
APPT- KULC APPT - LAWRENCE
1-6 64536
THE Willhite, G.
APPT- KULC APPT - LAWRENCE
1-6 60714
THE Williams, Susan
APPT- KULC APPT - LAWRENCE
1-6 60711
THE Negahban, Shahin
APPT- KULC APPT - LAWRENCE
1-6 72535
THE Kalantari-Dahaghi, Amirmasoud
APPT- KULC APPT - LAWRENCE
1-6 72536
THE Shiflett, Mark
APPT- KULC APPT - LAWRENCE
1-6 72537
C&PE 804 Petroleum Management Seminar
Structure, operation, and problems of the petroleum industry from a management viewpoint. Presentations will be made by faculty, advanced students, and invited guests. Prerequisite: Permission of instructor. LEC.
Spring 2019
Type Time/Place and Instructor Credit Hours Class #
LEC Barati, Reza
APPT- KULC APPT - LAWRENCE
1 70176
C&PE 825 Graduate Problems in Chemical and Petroleum Engineering
Advanced laboratory problems, special research problems, or library reading problems. Three hours maximum acceptable for master's degree. RSH.
Spring 2019
Type Time/Place and Instructor Credit Hours Class #
RSH Allgeier, Alan
APPT- KULC APPT - LAWRENCE
1-5 78352
RSH Barati, Reza
APPT- KULC APPT - LAWRENCE
1-5 68608
RSH Berkland, Cory
APPT- KULC APPT - LAWRENCE
1-5 64515
RSH Camarda, Kyle
APPT- KULC APPT - LAWRENCE
1-5 60715
RSH Chaudhari, Raghunath
APPT- KULC APPT - LAWRENCE
1-5 65609
RSH DeKosky, Brandon
APPT- KULC APPT - LAWRENCE
1-5 64522
RSH Dhar, Prajnaparamita
APPT- KULC APPT - LAWRENCE
1-5 67160
RSH Negahban, Shahin
APPT- KULC APPT - LAWRENCE
1-5 64626
RSH Gehrke, Stevin
APPT- KULC APPT - LAWRENCE
1-5 64040
RSH He, Mei
APPT- KULC APPT - LAWRENCE
1-5 75356
RSH Paul, Arghya
APPT- KULC APPT - LAWRENCE
1-5 60716
RSH Leonard, Kevin
APPT- KULC APPT - LAWRENCE
1-5 69731
RSH Li, Xiaoli
APPT- KULC APPT - LAWRENCE
1-5 72072
RSH Bravo Suarez, Juan
APPT- KULC APPT - LAWRENCE
1-5 64041
RSH Nguyen, Trung
APPT- KULC APPT - LAWRENCE
1-5 60717
RSH Nordheden, Karen
APPT- KULC APPT - LAWRENCE
1-5 60718
RSH Ostermann, Russell
APPT- KULC APPT - LAWRENCE
1-5 60719
RSH Robinson, Jennifer
APPT- KULC APPT - LAWRENCE
1-5 75357
RSH Scurto, Aaron
APPT- KULC APPT - LAWRENCE
1-5 64530
RSH Southard, Marylee Z
APPT- KULC APPT - LAWRENCE
1-5 60720
RSH Subramaniam, Bala
APPT- KULC APPT - LAWRENCE
1-5 60722
RSH Tao, Feng
APPT- KULC APPT - LAWRENCE
1-5 72073
RSH Vossoughi, Shapour
APPT- KULC APPT - LAWRENCE
1-5 60723
RSH Weatherley, Laurence
APPT- KULC APPT - LAWRENCE
1-5 64529
RSH Willhite, G.
APPT- KULC APPT - LAWRENCE
1-5 60724
RSH Williams, Susan
APPT- KULC APPT - LAWRENCE
1-5 60721
RSH Kalantari-Dahaghi, Amirmasoud
APPT- KULC APPT - LAWRENCE
1-5 72539
RSH Shiflett, Mark
APPT- KULC APPT - LAWRENCE
1-5 72538
C&PE 902 Preparation for the Ph.D. Comprehensive Examination
Preparation of a research proposal in an area assigned by the student's advisory committee. The grade received on the Ph.D. comprehensive examination will apply to this credit. RSH.
Spring 2019
Type Time/Place and Instructor Credit Hours Class #
RSH Allgeier, Alan
APPT- KULC APPT - LAWRENCE
3 78353
RSH Barati, Reza
APPT- KULC APPT - LAWRENCE
3 68609
RSH Berkland, Cory
APPT- KULC APPT - LAWRENCE
3 64514
RSH Camarda, Kyle
APPT- KULC APPT - LAWRENCE
3 64042
RSH Chaudhari, Raghunath
APPT- KULC APPT - LAWRENCE
3 65610
RSH DeKosky, Brandon
APPT- KULC APPT - LAWRENCE
3 64523
RSH Dhar, Prajnaparamita
APPT- KULC APPT - LAWRENCE
3 67161
RSH Gehrke, Stevin
APPT- KULC APPT - LAWRENCE
3 64043
RSH He, Mei
APPT- KULC APPT - LAWRENCE
3 75358
RSH Paul, Arghya
APPT- KULC APPT - LAWRENCE
3 64044
RSH Bravo Suarez, Juan
APPT- KULC APPT - LAWRENCE
3 64045
RSH Nguyen, Trung
APPT- KULC APPT - LAWRENCE
3 64047
RSH Nordheden, Karen
APPT- KULC APPT - LAWRENCE
3 64046
RSH Ostermann, Russell
APPT- KULC APPT - LAWRENCE
3 64048
RSH Robinson, Jennifer
APPT- KULC APPT - LAWRENCE
3 75359
RSH Scurto, Aaron
APPT- KULC APPT - LAWRENCE
3 64527
RSH Southard, Marylee Z
APPT- KULC APPT - LAWRENCE
3 64049
RSH Subramaniam, Bala
APPT- KULC APPT - LAWRENCE
3 60725
RSH Vossoughi, Shapour
APPT- KULC APPT - LAWRENCE
3 64050
RSH Weatherley, Laurence
APPT- KULC APPT - LAWRENCE
3 64528
RSH Willhite, G.
APPT- KULC APPT - LAWRENCE
3 64051
RSH Williams, Susan
APPT- KULC APPT - LAWRENCE
3 64052
RSH Leonard, Kevin
APPT- KULC APPT - LAWRENCE
3 70389
RSH Negahban, Shahin
APPT- KULC APPT - LAWRENCE
3 72540
RSH Tao, Feng
APPT- KULC APPT - LAWRENCE
3 72541
RSH Kalantari-Dahaghi, Amirmasoud
APPT- KULC APPT - LAWRENCE
3 72542
RSH Li, Xiaoli
APPT- KULC APPT - LAWRENCE
3 72543
RSH Shiflett, Mark
APPT- KULC APPT - LAWRENCE
3 72544
C&PE 904 Research
For Ph.D. candidates. THE.
Spring 2019
Type Time/Place and Instructor Credit Hours Class #
THE Allgeier, Alan
APPT- KULC APPT - LAWRENCE
1-12 78354
THE Barati, Reza
APPT- KULC APPT - LAWRENCE
1-12 68610
THE Berkland, Cory
APPT- KULC APPT - LAWRENCE
1-12 64513
THE Camarda, Kyle
APPT- KULC APPT - LAWRENCE
1-12 60726
THE Chaudhari, Raghunath
APPT- KULC APPT - LAWRENCE
1-12 65611
THE DeKosky, Brandon
APPT- KULC APPT - LAWRENCE
1-12 64524
THE Dhar, Prajnaparamita
APPT- KULC APPT - LAWRENCE
1-12 67162
THE Gehrke, Stevin
APPT- KULC APPT - LAWRENCE
1-12 64053
THE He, Mei
APPT- KULC APPT - LAWRENCE
1-12 75360
THE Paul, Arghya
APPT- KULC APPT - LAWRENCE
1-12 60727
THE Leonard, Kevin
APPT- KULC APPT - LAWRENCE
1-12 69735
THE Li, Xiaoli
APPT- KULC APPT - LAWRENCE
1-12 72089
THE Bravo Suarez, Juan
APPT- KULC APPT - LAWRENCE
1-12 64054
THE Nguyen, Trung
APPT- KULC APPT - LAWRENCE
1-12 60735
THE Nordheden, Karen
APPT- KULC APPT - LAWRENCE
1-12 60728
THE Ostermann, Russell
APPT- KULC APPT - LAWRENCE
1-12 60729
THE Robinson, Jennifer
APPT- KULC APPT - LAWRENCE
1-12 75361
THE Scurto, Aaron
APPT- KULC APPT - LAWRENCE
1-12 64526
THE Southard, Marylee Z
APPT- KULC APPT - LAWRENCE
1-12 60730
THE Subramaniam, Bala
APPT- KULC APPT - LAWRENCE
1-12 60732
THE Negahban, Shahin
APPT- KULC APPT - LAWRENCE
1-12 72102
THE Vossoughi, Shapour
APPT- KULC APPT - LAWRENCE
1-12 60733
THE Weatherley, Laurence
APPT- KULC APPT - LAWRENCE
1-12 64525
THE Willhite, G.
APPT- KULC APPT - LAWRENCE
1-12 60734
THE Williams, Susan
APPT- KULC APPT - LAWRENCE
1-12 60731
THE Shiflett, Mark
APPT- KULC APPT - LAWRENCE
1-12 72524
THE Tao, Feng
APPT- KULC APPT - LAWRENCE
1-12 72523
THE Kalantari-Dahaghi, Amirmasoud
APPT- KULC APPT - LAWRENCE
1-12 72522
C&PE 910 Industrial Development of Catalytic Processes
Students adopt an interdisciplinary team approach to developing strategies for the design and optimization of catalytic processes. Examples of case studies will be derived from industry or from research testbeds. Students collaborate in multiscale process development involving catalyst and reactor design, reaction system design, modeling and optimization, economic analysis and environmental assessment needed for the development of a catalytic process at either the pilot or production scale. LEC.
Spring 2019
Type Time/Place and Instructor Credit Hours Class #
LEC Chaudhari, Raghunath
APPT- KULC APPT - LAWRENCE
3 78102
C&PE 911 Industrial Practicum
Graduate students engage in an industrial research internship experience with collaborators in industry. FLD.

The class is not offered for the Spring 2019 semester.

C&PE 912 Teaching College Level Engineering and Science Practicum
Future university instructors learn how to critically examine course content and teaching strategies, and prepare courses that will address the learning needs of the diverse student populations of the future. Students participate in weekly in-class workshops and symposia, as well as a teaching practicum experience during this course. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 919 Advanced Topics in Process Modeling Simulation or Control: _____
Advanced study in process modeling, simulation or control on topics which may vary from year to year. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 929 Advanced Topics in Chemical and Petroleum Engineering: _____
Advanced study in various branches of chemical and petroleum engineering on topics which may vary from year to year. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 933 Heat and Mass Transport in Porous Media
A study of industrial problems involving heat and mass transport in porous media such as packed columns, catalyst beds, chemical reactors, and petroleum reservoirs. Mechanisms of interphase and intraphase transport, diffusion, and dispersion. Included are methods of solution of the describing differential equations. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 934 Heat Transport with Phase Change
A fundamental treatment of heat transfer occurring during boiling and condensation. Included are nucleate and film boiling, film and dropwise condensation, and two-phase flow. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 936 Industrial Separation Processes
Determination and treatment of vapor-liquid separations, including methods for obtaining and treating equilibrium data, procedures for calculating multi-component separations by distillation, absorption, extraction, and adsorption. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 937 Applied Rheology
Industrial applications of fluid mechanics including compressible flow, flow of non-Newtonian fluids, flow of drag reducing systems all to be considered in laminar and turbulent flow regimes, and within conduits, and porous media. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 939 Advanced Topics in the Transport Phenomena: _____
Advanced study in various branches of transport phenomena on topics which may vary from year to year. LEC.

The class is not offered for the Spring 2019 semester.

C&PE 940 Data Analysis in Engineering and Natural Sciences
Statistical inference and data analysis, emphasizing interpretation of observations from areas of engineering and natural sciences where controlled experimentation is not possible. The basics of elementary statistics and matrix algebra are covered, followed by topics in time, series analysis, map analysis, including automatic contouring, and multivariate procedures such as principal components, discrimination and factor analysis. A suite of computer programs is provided. Students are encouraged to use data from their own graduate research in class projects. LEC.

The class is not offered for the Spring 2019 semester.


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