CHBE 594

Fall 2020 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 fall 2020
CRN	Type	Section	Time	Day	Location	Instructor	Section Details
31572	Lecture	CVR	11:00AM -12:20PM	TR	Wohlers Hall	Rao, C Woodruff, W	Part of Term: 1 Date Range: 08/24/20-12/09/20 Credit: 4 hours Section Title: Comp Methods in Chemical Engr Section Info: “This section will have distributed classroom attendance with supplemental instruction. You will receive an email from our department with specific attendance directives.” Computational Methods in Chemical Engineering. Meets with CHBE 494 CVR. Restriction(s): Restricted to Graduate - Urbana-Champaign. Restricted to Chemical Engineering major(s).
71538	Online Lecture	HJK	11:00AM -12:20PM	TR	n.a.	Huang, K Hwang, J Kong, H	Part of Term: 1 Date Range: 08/24/20-12/09/20 Credit: 4 hours Section Title: Biotransport Section Info: Biotransport. Meets with CHBE 476. Restriction(s): Restricted to Graduate - Urbana-Champaign.
31610	Online Lecture	HZ	9:30AM -10:50AM	TR	n.a.	Tran, V Zhao, H	Part of Term: 1 Date Range: 08/24/20-12/09/20 Credit: 4 hours Section Title: Bioenergy Technology Section Info: Topic: Bioenergy Technology. Meets with CHBE 478. Restriction(s): Restricted to Graduate - Urbana-Champaign.
31571	Online Lecture	YD	9:30AM -10:50AM	TR	n.a.	Diao, Y Kafle, P	Part of Term: 1 Date Range: 08/24/20-12/09/20 Credit: 4 hours Section Title: Assembly of Functional Materia Section Info: Meets with CHBE 494 YD. Topic: Assembly of Functional Materials. Covers fundamental principles and industrial applications of self and directed assembly from molecular, nano-, to macro-scale in all classes of materials, in particular molecular and polymeric materials. Topics include meta-stable liquids, solution phase chemistry and kinetics, interfacial stability, interfacial free energies, nucleation theories, crystal growth, aggregation and other phase separation mechanisms, grain growth and grain boundaries, defects formation, flow-induced assembly and aggregation. Lectures will also introduce application of these fundamental principles in the production of a broad range of materials, such as pharmaceuticals, fine chemicals, food products, electronics and solar cells. Restriction(s): Restricted to Graduate - Urbana-Champaign.