CHBE 594

Spring 2024 All Classes

All Classes

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Credit: 1 TO 4 hours.

Various advanced topics; generally taken during the second year of graduate study. Typical topics include turbulence, hydrodynamic instability, process dynamics, interfacial phenomena, reactor design, cellular bioengineering, properties of matter at high pressure, and phase transitions.

May be repeated. Prerequisite: Consent of instructor.

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CHBE 594 class schedule data for spring 2024
CRN	Type	Section	Time	Day	Location	Instructor	Section Details
71943	Lecture	HY2	9:30AM -10:50AM	TR	Engineering Hall	Taleff, M Yang, H	Part of Term: 1 Date Range: 01/16/24-05/01/24 Credit: 4 hours Section Title: Synthetic Nanomaterials Section Info: Synthetic Nanomaterials. Meets with CHBE 458. This course is focused on introducing the concepts related to the fundamentals and practical methods for the preparation of nanostructured materials. Classical nucleation and growth, interfacial science, crystal structures, and characterization techniques are among some of the topics covered. The emphasis will be placed on the synthesis of nanostructures in solution with the processing controls of size, shape (dot, wire, and two-dimensional materials), facet, composition, and hierarchical structure. Students will also be exposed to related current topics, including the applications of well-defined nanoparticles in energy, sustainability, and biotechnology. Restriction(s): Restricted to Graduate - Urbana-Champaign.
45024	Lecture	MLK	12:30PM -1:50PM	TR	Lincoln Hall	Kraft, M Lamichhane, S	Part of Term: 1 Date Range: 01/16/24-05/01/24 Credit: 4 hours Section Title: Biochemical Engineering Section Info: Topic: Biochemical Engineering. Meets with CHBE 471-Biochemical Engineering. Restriction(s): Restricted to Graduate - Urbana-Champaign.
32050	Lecture	SAR	11:00AM -12:20PM	TR	Noyes Laboratory	Gray, D Rogers, S	Part of Term: 1 Date Range: 01/16/24-05/01/24 Credit: 4 hours Section Title: Polymer Rheology Section Info: Meets with CHBE 459. Polymer Rheology Course builds a molecular understanding of polymer characterization and properties and develops a link between the physical chemistry of the microstructure and macroscopic behaviors. The course begins with polymeric descriptions from a physical basis and continues with polymer solution thermodynamics in the context of Flory-Huggins theory. After fundamentals, the course considers polymer characterization from a rheological (flow and deformation) perspective. with overage of dynamics, linear and nonlinear viscoelasticity, the rheology of dilute and networked polymer systems, and time-temperature superposition. The course concludes with models for dilute polymeric suspensions, unentangled polymer melts, entanglements, and the reptation model. Restriction(s): Restricted to Graduate - Urbana-Champaign.