Courses - Spring 2023
CHBE
Chemical and Biomolecular Engineering
CHBE101
Introduction to Chemical and Biomolecular Engineering
Credits:
3
Grad Meth:
Reg, P-F, Aud
Prerequisite: CHEM135; or students who have taken courses with comparable content may contact the department.
Corequisite: MATH141.
Restriction: Must be in Engineering: Chemical program; or permission of ENGR-Chemical & Biomolecular Engineering department.
Credit only granted for: CHBE101 or ENCH215.
Formerly: ENCH215.
Introduction to methods of chemical engineering calculations and analysis. Stoichiometric relations, material and energy balances, and behavior of gases, vapors, liquids and solids. Analytical and computer methods.
CHBE302
Chemical and Biomolecular Engineering Thermodynamics II
Credits:
3
Grad Meth:
Reg, P-F, Aud
Prerequisite: CHBE301.
Corequisite: CHBE250.
Restriction: Must be in a major within ENGR-Chemical & Biomolecular Engineering department.
Credit only granted for: CHBE302 or ENCH400.
Formerly: ENCH400.
Contemporary trends in chemical engineering thermodynamics that bridge the gap between fundamentals and applications. Thermodynamic analysis of non-ideal and structured systems; such as complex fluids, strongly fluctuating and nanoscale systems, dissipative systems, biosystems, and systems under extreme conditions.
CHBE333
Chemical Engineering Seminar
Credits:
1
Grad Meth:
Reg, P-F, Aud
Restriction: Junior standing; and must be in a major within ENGR-Chemical & Biomolecular Engineering department; and permission of ENGR-Chemical & Biomolecular Engineering department.
Credit only granted for: CHBE333 or ENCH333.
Formerly: ENCH333.
To develop oral communication skills through a series of class presentations of current chemical engineering topics.
CHBE369
Teaching Experiences in Chemical Engineering
Credits:
1 - 2
Grad Meth:
Reg, P-F, Aud
CHBE422
Chemical and Biomolecular Engineering Transport Phenomena I
Credits:
3
Grad Meth:
Reg, P-F, Aud
Prerequisite: Minimum grade of C- in CHBE101, CHBE250, MATH241, and MATH246.
Restriction: Must be in a major within the ENGR-Chemical & Biomolecular Engineering department; and permission of ENGR-Chemical & Biomolecular Engineering department.
Credit only granted for: CHBE422 or ENCH422.
Formerly: ENCH422.
Principals of fluid dynamics as applied to model development and process design. Mass, momentum and energy conservation. Statics and surface tension. Equation of Continuity and Navier-Stokes Equation with application to laminar flow. Dimensional analysis. Macroscopic balances, Bernoulli Equation and friction factors with application to turbulent flow.
CHBE424
Chemical and Biomolecular Engineering Transport Phenomena II
Credits:
3
Grad Meth:
Reg, P-F, Aud
Prerequisite: CHBE422.
Corequisite: CHBE302.
Restriction: Must be in Engineering: Chemical program; and permission of ENGR-Chemical & Biomolecular Engineering department.
Credit only granted for: CHBE424 or ENCH424.
Formerly: ENCH424.
Principles of mass and heat transfer as applied to model development and process design. Species continuity equation with application to diffusion, and convection in laminar flow. Macroscopic balances and mass transfer coefficients with application to turbulent flow. Microscopic equation of energy with application to heat conduction, and convection in laminar flow. Macroscopic energy balance and heat transfer coefficients with application to turbulent flow. Heat exchanger design.
CHBE426
Chemical and Biomolecular Separation Processes
Credits:
3
Grad Meth:
Reg, P-F, Aud
Corequisite: CHBE302; and CHBE424.
Restriction: Must be in Engineering: Chemical program; and permission of ENGR-Chemical & Biomolecular Engineering department.
Credit only granted for: CHBE426 or ENCH426.
Formerly: ENCH426.
Separation by stages operations. Rate dependent separation processes. Design application in distillation, gas absorption, liquid extraction, drying, adsorption and ion exhange.
CHBE440
Chemical Kinetics and Reactor Design
Credits:
3
Grad Meth:
Reg, P-F, Aud
Prerequisite: Minimum grade of C- in CHBE301, MATH241, and MATH246.
Restriction: Must be in Engineering: Chemical program; and permission of ENGR-Chemical & Biomolecular Engineering department.
Credit only granted for: CHBE440 or ENCH440.
Formerly: ENCH440.
Fundamentals of chemical reaction kinetics and their application to the design and operation of chemical reactors. Reaction rate theory, homogeneous reactions and catalysis electrochemical reactions. Catalytic reactor design.
CHBE446
Process Engineering Economics and Design II
Credits:
3
Grad Meth:
Reg, P-F, Aud
Prerequisite: CHBE442 and CHBE444.
Restriction: Must be in a major within the ENGR-Chemical & Biomolecular Engineering department; and permission of ENGR-Chemical & Biomolecular Engineering department.
Credit only granted for: CHBE446 or ENCH446.
Formerly: ENCH446.
Application of chemical engineering principles for the design of chemical processing equipment. Representative problems in the design of chemical plants will be the focus of this capstone design class. Comprehensive reports are required.
CHBE468
Research
Credits:
1 - 3
Grad Meth:
Reg
CHBE469
Special Projects
Credits:
1 - 3
Grad Meth:
Reg, P-F, Aud
CHBE473
Electrochemical Energy Engineering
Credits:
3
Grad Meth:
Reg, P-F, Aud
Restriction: Permission of ENGR-Chemical & Biomolecular Engineering department.
Jointly offered with: CHBE673.
Credit only granted for: ENCH468K, CHBE473 or CHBE673.
Formerly: ENCH468K.
The lecture will start from the basic electrochemical thermodynamics and kinetics, with emphasis on electrochemical techniques, fundamental principle and performance of batteries, and supercapacitors.
CHBE474
Biopharmaceutical Process Development and Manufacturing
Credits:
3
Grad Meth:
Reg, P-F, Aud
Prerequisite: BIOE120; and permission of instructor.
Restriction: Permission of ENGR-Chemical & Biomolecular Engineering department.
Jointly offered with: CHBE674.
Credit only granted for: CHBE474, BIOE489T, ENCH648D or CHBE674.
Covers the fundamental steps involved in process development and manufacturing of biopharmaceuticals. An overview of different classes of biopharmaceuticals as well as manufacturing requirements for clinical development and regulatory approval will be provided. In depth coverage of manufacturing steps including cell culture, purification and formulation as well as drug product manufacturing, analysis and stability will be covered. Scientific literature will be used to highlight current challenges and novel solutions in each step of the manufacturing process. Scale up considerations, GMP requirements and process economics will also be introduced.
CHBE477
Mesoscopic and Nanoscale Thermodynamics
Credits:
3
Grad Meth:
Reg, P-F, Aud
Prerequisite: A prior course in classical thermodynamics.
Restriction: Must be in a major within the ENGR-Chemical & Biomolecular Engineering department; and permission of ENGR-Chemical & Biomolecular Engineering department.
Jointly offered with: CHBE477.
Credit only granted for: CHBE477, ENCH468Q or CHBE677.
Formerly: ENCH468Q.
Interdisciplinary course primarily for graduate and senior undergraduate students from engineering or science departments. New emerging technologies deal with bio-membrane and gene engineering, microreactor chemistry and microcapsule drug delivery, micro-fluids and porous media, nanoparticles and nanostructures, supercritical fluid extraction and artifical organs. Engineers often design processes where classical thermodynamics may be insufficient, e.g., strongly fluctuating and nanoscale systems, or dissipative systems under conditions far away from equilibrium.
CHBE480
Bionanotechnology: Physical Principles
Credits:
3
Grad Meth:
Reg, P-F, Aud
Prerequisite: BIOE120; or students who have taken courses with comparable content may contact the department.
Restriction: Permission of ENGR-Chemical & Biomolecular Engineering department.
Jointly offered with: CHBE680.
Credit only granted for: ENCH648N, CHBE480 or CHBE680.
Physics at nano/micro scales. Biomolecular building blocks. Simplest biomolecular assembly: protein folding. Nanoscale intermolecular interactions important for biology. Protein-ligand binding. Protein higher-order assembly: filaments, networks. Protein filaments and motility. DNA, RNA and their assembly assisted by proteins. Viral capsid assembly. Lipid assembly into micelles, bilayers. Lipid-protein co-assembly in membranes. Lipid and polymer structures useful in medicine. Targeted delivery of drugs, genes by nano/micro structures. Cellular assembly in the eye, in insect wings. Cellular assembly at surfaces: gecko feet, duck feathers. Cellular assembly in the presence of crystals: biomineralization.
CHBE490
Polymer Science
Credits:
3
Grad Meth:
Reg, P-F, Aud
Credit only granted for: CHBE490, ENCH490, or ENMA495.
Formerly: ENCH490.
The elements of the polymer chemistry and industrial polymerization, polymer structures and physics, thermodynamics of polymer solutions, polymer processing methods, and engineering applications of polymers.
CHBE496
Polymeric Materials: Structure, Property, and Processing
Credits:
3
Grad Meth:
Reg, P-F, Aud
Prerequisite: ENMA300; and permission of ENGR-Materials Science & Engineering department.
Cross-listed with: ENMA496.
Credit only granted for: ENMA496 or CHBE496.
An intermediate level treatment of structures of polymers. An introduction to mechanical properties and processing of polymeric materials. Emphasis will be on how to establish the structure-property relationship and on how to achieve such understanding via different characterization methods.
CHBE497
Protein Engineering
Credits:
3
Grad Meth:
Reg, P-F
Prerequisite: BIOE120, CHBE302, and CHBE440; and permission of instructor.
Jointly offered with: CHBE697.
Credit only granted for: CHBE497, BIOE489R, ENCH 648P or CHBE697.
This course will cover the fundamentals of protein engineering and its applications in medicine, chemical processes, and energy. Topics will include the structure and function of biological molecules, rational design and directed evolution, construction of protein and peptide libraries, protein screening platforms, methods for characterizing structure and function of biological molecules. Scientific literature will be used to highlight key discoveries and current work in protein engineering.
CHBE608
Research in Chemical Engineering
Credits:
1
Grad Meth:
Reg
CHBE609
Graduate Seminar
Credits:
1
Grad Meth:
Reg, Aud
Advanced special students require department permission.
CHBE630
Transport Phenomena
Credits:
3
Grad Meth:
Reg, Aud
Prerequisite: CHBE422; and ENCH424. Or students who have taken courses with comparable content may contact the department.
Restriction: Permission of ENGR-Chemical & Biomolecular Engineering department.
Credit only granted for: ENCH630 or CHBE630.
Formerly: ENCH630.
Heat, mass and momentum transfer theory from the viewpoint of the basic transport equations. Steady and unsteady state; laminar and turbulent flow; boundary layer theory, mechanics of turbulent transport; with specific application to complex chemical engineering situations.
CHBE640
Advanced Chemical Reaction Kinetics
Credits:
3
Grad Meth:
Reg, Aud
Prerequisite: CHBE440; or students who have taken courses with comparable content may contact the department.
Restriction: Permission of ENGR-Chemical & Biomolecular Engineering department.
Credit only granted for: ENCH640 or CHBE640.
Formerly: ENCH640.
The theory and application of chemical reaction kinetics to reactor design. Reaction rate theory; homogeneous batch and flow reactors; fundamentals of catalysis; design of heterogeneous flow reactors.
CHBE648
Special Problems in Chemical Engineering
Credits:
1 - 12
Grad Meth:
Reg, Aud
CHBE673
Electrochemical Energy Engineering
Credits:
3
Grad Meth:
Reg, Aud
Restriction: Permission of ENGR-Chemical & Biomolecular Engineering department.
Jointly offered with: CHBE473.
Credit only granted for: CHBE473 or CHBE673.
Basic electrochemical thermodynamics and kinetics, with emphasis on electrochemical techniques, fundamental principle and performance of batteries, and supercapacitors.
CHBE674
Biopharmaceutical Process Development and Manufacturing
Credits:
3
Grad Meth:
Reg, Aud
Restriction: Permission of ENGR-Chemical & Biomolecular Engineering department.
Jointly offered with: CHBE474.
Credit only granted for: CHBE474, BIOE489T, ENCH648D or CHBE674.
Formerly: ENCH648D.
Covers the fundamental steps involved in process development and manufacturing of biopharmaceuticals. An overview of different classes of biopharmaceuticals as well as manufacturing requirements for clinical development and regulatory approval will be provided. In depth coverage of manufacturing steps including cell culture, purification and formulation as well as drug product manufacturing, analysis and stability will be covered. Scientific literature will be used to highlight current challenges and novel solutions in each step of the manufacturing process. Scale up considerations, GMP requirements and process economics will also be introduced.
CHBE677
Mesoscopic and Nanoscale Thermodynamics
Credits:
3
Grad Meth:
Reg, Aud
Prerequisite: A prior course in classical thermodynamics.
Restriction: Permission of ENGR-Chemical & Biomolecular Engineering department.
Jointly offered with: CHBE477.
Credit only granted for: CHBE477 or CHBE677.
New emerging technologies deal with bio-membrane and gene engineering, microreactor chemistry and microcapsule drug delivery, micro-fluids and porous media, nanoparticles and nanostructures, supercritical fluid extraction and artificial organs. Engineers often design processes where classical thermodynamics may be insufficient, e.g., strongly fluctuating and nanoscale systems, or dissipative systems under conditions far away from equilibrium.
Cross-listed with CHPH718E. Credit only granted for CHBE677 or CHPH718E.
CHBE680
Bionanotechnology: Physical Principles
Credits:
3
Grad Meth:
Reg, Aud
Restriction: Permission of ENGR-Chemical & Biomolecular Engineering department.
Jointly offered with: CHBE480.
Credit only granted for: ENCH648N, CHBE480 or CHBE680.
Formerly: ENCH648N.
Physics at nano/micro scales. Biomolecular building blocks. Simplest biomolecular assembly: protein folding. Nanoscale intermolecular interactions important in biology. Protein-ligand binding. Protein higher-order assembly: filaments, networks. Protein filaments and motility. DNA, RNA and their assembly assisted by proteins. Viral capsid assembly. Lipid assembly into micelles, bilayers. Lipid-protein co-assembly in membranes. Lipid and polymer-based carriers useful in medicine. Antimicrobial therapies. Targeted cancer therapy. Ideal properties of nanocarriers in terms of size, charge, and surface chemistry.
CHBE690
Polymer Reaction Engineering
Credits:
3
Grad Meth:
Reg, Aud
Prerequisite: ENCH640; or permission of instructor.
Credit only granted for: ENCH781 or CHBE690.
Formerly: ENCH781.
Advanced topics in polymerization kinetics, reactor design and analysis; addition and step-growth polymerization; homogeneous and heterogeneous polymerization; photopolymerization; reactor dynamics; optimal operation and control of industrial polymerization reactors.
CHBE697
Protein Engineering
Credits:
3
Grad Meth:
Reg, Aud
Restriction: Permission of ENGR-Chemical & Biomolecular Engineering department.
Jointly offered with: CHBE497.
Credit only granted for: CHBE497, BIOE489R, ENCH 648P or CHBE697.
Formerly: ENCH648P.
Covers the fundamentals of protein engineering and its applications in medicine, chemical processes, and energy. Topics will include the structure and function of biological molecules, rational design and directed evolution, construction of protein and peptide libraries, protein screening platforms, methods for characterizing structure and function of biological molecules. Scientific literature will be used to highlight key discoveries and current work in protein engineering.
CHBE799
Master's Thesis Research
Credits:
1 - 6
Grad Meth:
S-F
CHBE898
Pre-Candidacy Research
Credits:
1 - 8
Grad Meth:
Reg
CHBE899
Doctoral Dissertation Research; Chemical Engineering
Credits:
6
Grad Meth:
S-F
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