Chemical Engineering

Classes

CHE 1102 : Material Balances

Introduction to chemical engineering processes and modeling them with material balances.

Credits

Credits 3

Prerequisites

EGR 1200

CHE 2031 : Intro Chemical Processes

Application of physical and chemical principles to the solution of steady-state material balances.

Credits

Credits 3

Prerequisites

CHM 1156 :D- and MAT 2705 :Y :D-

CHE 2032 : Chem Engr Thermo I

Thermodynamics of single component systems: applications of first and second laws, steady-state energy balances, equations of state, thermodynamic properties of fluids, thermochemistry.

Credits

Credits 3

Prerequisites

CHE 2031 :C-

CHE 2101 : Thermodynamics 1

Thermodynamics of single component systems: applications of first and second laws, steady-state energy balances, equations of state, thermodynamic properties of fluids, thermochemistry.

Credits

Credits 3

Prerequisites

CHE 1102

CHE 2102 : Thermodynamics 2

The fundamental property relation, thermodynamic properties of single and multiple pure phases, homogeneous multicomponent phases, ideal and non-ideal liquid solutions, phase equilibria, chemical reaction equilibria, problem solving techniques, applications.

Credits

Credits 3

Prerequisites

CHE 2101

CHE 2201 : Fluid Dynamics

Fluid statics, fluid properties, flow of incompressible fluids in conduits, friction factors, meters, pumps, external flow, drag, flow in packed and fluidized beds.

Credits

Credits 3

Prerequisites

CHE 1102 and MAT 2705 :Y

CHE 2202 : Heat Transfer

Principles of heat flow, mechanisms of conduction, convection and radiation, correlations for heat transfer coefficients, heat transfer equipment and process applications.

Credits

Credits 3

Prerequisites

CHE 2201 and CHE 2101

CHE 2232 : Fluid Mechanics

Fluid statics, fluid properties, flow of incompressible fluids in conduits, friction factors, meters, pumps, external flow, drag, flow in packed and fluidized beds.

Credits

Credits 3

Prerequisites

CHE 2031 :C-

CHE 2301 : ChE Computational Methods

Introduction to the software and computational tools necessary for chemical engineers, including MathCAD, MatLAB, ASPEN, and others.

Credits

Credits 3

Prerequisites

CHE 1102

CHE 2402 : Technical Communications

Oral and written communication skills, reporting and analyzing results of experiments and/or literature investigations, graphical reporting.

Credits

Credits 3

Prerequisites

CHE 2301

CHE 2900 : Global Pharmaceutical Industry

Fundamental drivers such as new technologies that characterize the global pharmaceutical industry. Includes attention to regulatory harmonization and global access to medicines; as well as elements such as global supply chain management and risk based quality.

Credits

Credits 3

CHE 2910 : Catholic Soc Thought & the EGR

Overview of the principles of Catholic Social Teaching (CST) and how engineers might incorporate these principles as design parameters when developing solutions to engineering problems. Case studies in which engineers have applied CST principles will be presented and discussed.

Credits

Credits 1

CHE 2930 : Catholic Soc Teaching for EGRS

Tradition and key themes of Catholic Social Teaching and how engineers can incorporate these themes in developing solutions to engineering problems. Engineering topics and case studies will be analyzed, with emphasis on a comparison of "greatest good" and "common good". Permission of instructor.

Credits

Credits 3

CHE 3032 : Mass Transfer

Fundamentals of interphase mass transfer: mechanisms, driving force and resistance to transfer, design and analysis of continuous and staged contacting processes, gas absorption and stripping, binary distillation, liquid extraction.

Credits

Credits 3

Prerequisites

(CHE 3031 :C- and CHE 3131 :C-)

CHE 3201 : Mass Transfer

Fundamentals of interphase mass transfer: mechanisms, driving force and resistance to transfer, design and analysis of continuous and staged contacting processes, gas absorption and stripping, binary distillation, liquid extraction.

Credits

Credits 3

Prerequisites

CHE 2202

CHE 3202 : Reactor Design

Principles and methods of chemical kinetics and reactor design. Introduction to heterogeneous systems. Stiochiometry and rate laws for simple and complex reactions, analysis of reaction rates, isothermal reactors, introduction to temperature effects.

Credits

Credits 3

Prerequisites

CHE 2202

CHE 3301 : ChE Applied Mathematics

Application of differential equations, linear algebra and conversation laws to model complex chemical processes (including non-steady state, and multi-dimentsional examples).

Credits

Credits 3

Prerequisites

CHE 3202

CHE 3401 : Unit Operations Lab 1

Application of chemical engineering principles to laboratory and pilot scale equipment. Oral and written reporting of results.

Credits

Credits 3

Prerequisites

CHE 2402

CHE 3402 : Unit Operations Lab 2

Design and analysis of chemical engineering experiments using laboratory and pilot scale equipment. Oral and written reporting of results.

Credits

Credits 3

Prerequisites

CHE 3401

CHE 4201 : Process Design

Application of fundamental principles of chemical engineering to design of industrial chemical processes; use of process simulators (such as Aspentech ASPEN PLUS) for process design.

Credits

Credits 3

Prerequisites

CHE 3202 and CHE 3201

CHE 4202 : Process Controls

Introduction to process control concepts and applications, computer simulation of processes during transient change, real-time and LaPlace domain analysis of controlled systems.

Credits

Credits 3

Prerequisites

CHE 4201 :Y and CHE 3301 :Y

CHE 4232 : Chemical Process Control

Introduction to process control concepts and applications, computer simulation of processes during transient change, real-time and LaPlace domain analysis of controlled systems.

Credits

Credits 3

Prerequisites

CHE 4331

CHE 4831 : Senior Project Studio I

Independent investigation of a chemical engineering problem, under supervision of a faculty advisor, or industry sponsor, including a written comprehensive report. (Nine hours per week of independent study).

Credits

Credits 3

CHE 4832 : Senior Project Studio II

Continuation of CHE 4831. May include further investigation of same problem or a different topic.

Credits

Credits 3

Prerequisites

CHE 4831 :D-

CHE 5001 : Industrial Liq & Sld Waste

Industrial waste management: nature and sources of waste streams, principles underlying chemical and physical treatment methods, case studies of treatment technology.

Credits

Credits 3

CHE 5002 : Prin of Air Pol Control

Causes, effects and control of air pollution, emphasizing abatement technologies: classification and sources of airborne pollutants, particulate control devices, VOC abatement technologies, NOx and SOx abatement, and meteorological effects.

Credits

Credits 3

CHE 5032 : Equipment Design & Spec.

Equipment design and specification based on theoretical and practical knowledge of unit operations. Analysis and design of several types of process equipment. Mandatory tours of chemical process facilities will be scheduled on Friday afternoons based on student interest.

Credits

Credits 3

Prerequisites

CHE 4131 :D-

CHE 5062 : Chemical Engineering Economics

Methods of economic evaluation & decision making, applied to engineering problems. Cost estimation & indexing, time value of money, depreciation, comparison of alternatives.

Credits

Credits 3

CHE 5131 : CHE Math and Num Method

Mathematical and numerical method techniques for solving equations of importance to chemical engineering applications.

Credits

Credits 3

Corequisites

CHE 5132 : Transport Phenomena

Unified study of heat, mass and momentum transport: underlying physical laws, mathematical representation of transport laws, analogies between different transport modes, estimation of transport properties, applications.

Credits

Credits 3

Prerequisites

CHE 3032 :Y :D-

CHE 5133 : Brewing Science & Tech

The science in the suds: the course covers the science of malt, hops, and fermentation, flavor chemistry, and the technology of brewing beer. This course requires an understanding of organic chemistry.

Credits

Credits 3

Prerequisites

CHM 2211

CHE 5232 : Industrial Catalytic Processes

Principles and methods of chemical kinetics and reactor design applied to heterogeneous reactive systems of industrial importance: catalysis and catalytic reactors, catalyst deactivation, diffusion effects, design of heterogeneous catalytic and non-catalytic chemical reactors.

Credits

Credits 3

Prerequisites

CHE 4031 :D- or CHE 3332 :D-

CHE 5331 : Process Control Theory

Mathematical tools for control systems analysis: linear open- and closed-loop systems, frequency response techniques, multi-variable process control, sampled-data control techniques, other advanced topics.

Credits

Credits 3

Prerequisites

CHE 3232 :D-

CHE 5332 : Special Topics in CHE

Selected topics in chemical engineering: recent developments, new technology, applications of other disciplines to chemical engineering problems. RESTRICTION: Must have Chair's Permission.

Credits

Credits 3

CHE 5530 : Gene Therapy Methods &Research

Lectures on common cloning methods and DNA sequencing/ analysis techniques, along with labs that require students to design/construct a mammalian gene expression plasmid and evaluate it in animal cells.

Credits

Credits 3

CHE 5532 : Intro to Biotechnology

Production of commercially useful materials by living organisms, emphasizing emerging technology: biologically important compounds, their relationships to genetics and metabolic pathways, controlled growth of microbes, separation and purification of products.

Credits

Credits 3

CHE 5533 : Bioseparations

Factors underlying physical and chemical separations of natural (biological) products: centrifugation and filtration, cell Breakage, precipitation, extraction, adsorption, chromatography and crystallization; process-scale equipment and operations.

Credits

Credits 3

CHE 5534 : Biomaterials

Materials for use in medicine and in/on the body, material bulk and surface properties, biological responses to materials, applications, manufacturing processes, cost, sterilization, packaging and regulatory issues.

Credits

Credits 3

CHE 5535 : Bioengineering Lab Techniques

Fundamental concepts of current biotechnology techniques; demonstration and application of laboratory methods encountered in industry or academia, including genetic engineering, bacterial/mammalian cell culture, and protein expression, purification, and characterization.

Credits

Credits 3

Prerequisites

BIO 2105

CHE 5536 : Biochemical Data Analysis

Analysis techniques applied to process biochemical data, including basic R programming, hypothesis testing, regression and ODE modeling, and multivariate statistical data analysis. Practical term projects to analyze literature data using learned techniques.

Credits

Credits 3

CHE 5540 : Cellular Engineering

An overview of genome editing, manipulation, and sequencing techniques. Various applications of genetic engineering in microbes, plants, animals, and humans are also discussed.

Credits

Credits 3

CHE 5632 : Polymer Sci and Engr

Basic principles of polymer science: nature and structure of organic high-polymers, polymerization reactions, physical and chemical properties, mechanical testing, viscoelasticity, flow and processing applications.

Credits

Credits 3

Prerequisites

CHM 2211 :D-

CHE 5633 : Nanomaterials & Surface Scienc

Factors underlying interfacial phenomena and nano-material formation; thermodynamics of surfaces; emulsification, foaming, detergency, nucleation, wetting adhesion, surface films; particle growth, micelles, self-assembled monolayers; unique nanoscale characterization and properties.

Credits

Credits 3

Prerequisites

CHE 5634 : Intro to Material Science

Comprehensive introduction to structure/property relationships of engineering materials; atomic & molecular structure of materials; means to control structure; mechanical behavior; electronic behavior; effects of treatment history on properties; effects of usage conditions on properties; material selection.

Credits

Credits 3

CHE 5715 : Alternative Energy

Technical, economic, and social evaluations of alternative and sustainable energy sources focusing on liquid fuels as well as other energy sources.

Credits

Credits 3

CHE 5720 : Petroleum Engineering

Overview of the upstream petroleum industry, including technical aspects of finding, producing and refining petroleum products; issues related to fossil fuel usage; the role of petroleum-based fuels and related products as a key driver in world development.

Credits

Credits 3

CHE 5842 : Safety Analysis

Hazard identification; flammability; material properties; pressure relief; toxicity; risk analysis.

Credits

Credits 3

Prerequisites

CHE 3931

CHE 6000 : CBE Co-Op

CBE Co-Op is an optional technical elective to be completed with a company for 6 months during a student's final summer and fall semesters. The Co-Op must be chemical engineering-related and provide real world experiences. RESTRICTION: Must have chair's permission.

Credits

Credits 6

Prerequisites

CHE 3202

CHE 8555 : Proc Control Theory I

Fundamental principles and analytical methods of process control systems: linear open-loop and closed dynamic systems, frequency domain design methods, multivariable control, sampled data control theory.

Credits

Credits 3

CHE 8556 : Proc Control Theory II

Application of linear system theory to the design of process control systems in the time domain. Advanced process control techniques, model based process control, the control of chemical engineering processes.

Credits

Credits 3

CHE 8585 : Optimization

Fundamentals of single and multi-variable optimization by search techniques: constrained and unconstrained optimization, introduction to linear programming, geometric programming and dynamic programming, limits and usefulness of optimization techniques.

Credits

Credits 3

CHE 8586 : Biomaterials & Drug Delivery

Materials for use in medicine and in/on the body, material bulk and surface properties, biological responses to materials, applications, manufacturing processes, cost, sterilization, packaging and regulatory issues. Drug delivery mechanisms, issues, and modeling.

Credits

Credits 3