ME 598

Spring 2024 Part of Term 1

Part of Term 1
Jan 16-May 1

Credit: 1 TO 4 hours.

Subject offerings of new and developing areas of knowledge in mechanical engineering intended to augment the existing curriculum. See Class Schedule or departmental course information for topics and prerequisites.

May be repeated in the same or separate terms if topics vary.

ME 598 class schedule data for spring 2024
CRN Type Section Time Day Location Instructor Section Details
48380
Lecture-Discussion
DM
11:00AM -12:20PM
TR
2051 Sidney Lu Mech Engr Bldg
Schleife, A
Part of Term:
1
Date Range:
01/16/24-05/01/24
Credit:
4 hours
Section Title:
Intro to Digital Materials
Section Info:
Meets with MSE 598 (70522) and CSE 498 (70543). We introduce the connection of materials and data science, and specific issues regarding experimental and computational materials data. Topics include data acquisition and management, data curation, uncertainty quantification, and applying machine learning to materials data. The focus will be on current scientific literature in the emerging materials and data area.
Restriction(s):
Restricted to Graduate - Urbana-Champaign.
38955
Lecture-Discussion
IJG
10:00AM -11:20AM
MW
410C1 Engineering Hall
Jasiuk, I
Part of Term:
1
Date Range:
01/16/24-05/01/24
Credit:
4 hours
Section Title:
Laser 3D Printing
Section Info:
The course addresses laser powder bed fusion (LPBD) 3D printing technology. The LPBF is an additive manufacturing (AM) process where a laser fuses particulate materials such as metals, polymers, or ceramics. The course includes an overview of the LPBD method, data preparation workflow, AM process chain, AM parameters-microstructure-property relations, post-processing, and case studies. EOS company will offer a summer internship to a top student in the class.
Restriction(s):
Restricted to Graduate - Urbana-Champaign.
64119
Online
IJO
ARRANGED
n.a.
n.a.
Jasiuk, I
Part of Term:
1
Date Range:
01/16/24-05/01/24
Credit:
4 hours
Section Title:
Laser 3D Printing
Section Info:
The course addresses laser powder bed fusion (LPBD) 3D printing technology. The LPBF is an additive manufacturing (AM) process where a laser fuses particulate materials such as metals, polymers, or ceramics. The course includes an overview of the LPBD method, data preparation workflow, AM process chain, AM parameters-microstructure-property relations, post-processing, and case studies. EOS company will offer a summer internship to a top student in the class.This
Restriction(s):
Restricted to MS: Civil Engr - Online - UIUC, MCS:Computer Sci Online -UIUC, MS:Industrial Engr Online-UIUC, MS:Mechanical Engineerng -UIUC, MS:Env Engr CivilEngr ONL-UIUC, NDEG:Engineering GR ONL - UIUC, MS: Aerospace Engr-Online-UIUC, MENG:Engr:Energy Sys Onl-UIUC, MENG:Mech Engineering Onl-UIUC, MENG:Engr:AeroSys Online- UIUC, or MENG:ENGR:Digital Ag ONL- UIUC.
44857
Online Lecture
INC
ARRANGED
n.a.
n.a.
Jasiuk, I
Part of Term:
1
Date Range:
01/16/24-05/01/24
Credit:
4 hours
Section Title:
Laser 3D Printing
Section Info:
The course addresses laser powder bed fusion (LPBD) 3D printing technology. The LPBF is an additive manufacturing (AM) process where a laser fuses particulate materials such as metals, polymers, or ceramics. The course includes an overview of the LPBD method, data preparation workflow, AM process chain, AM parameters-microstructure-property relations, post-processing, and case studies. EOS company will offer a summer internship to a top student in the class.
Restriction(s):
Restricted to MENG:Mechanical Enginerng-UIUC.
45065
Lecture-Discussion
JHG
10:00AM -10:50AM
MWF
403B2 Engineering Hall
He, J
Sakib, S
Part of Term:
1
Date Range:
01/16/24-05/01/24
Credit:
4 hours
Section Title:
Carbon Capture and Storage
Section Info:
Carbon capture and storage is an important technology for reducing greenhouse gas emissions and mitigating global warming. This course will cover fundamentals for CO2 separation from syngas and post-combustion flue gas, the most advanced CO2 capture technologies including absorption, adsorption and membranes, CO2 compression and transportation, and CO2 sequestration in deep underground geological formations. The course will have regular lecture sessions, combined with reading and discussion sessions as well as the writing of a short research paper.
Restriction(s):
Restricted to Graduate - Urbana-Champaign.
53474
Online
JHO
ARRANGED
n.a.
n.a.
He, J
Sakib, S
Part of Term:
1
Date Range:
01/16/24-05/01/24
Credit:
4 hours
Section Title:
Carbon Capture and Storage
Section Info:
Carbon capture and storage is an important technology for reducing greenhouse gas emissions and mitigating global warming. This course will cover fundamentals for CO2 separation from syngas and post-combustion flue gas, the most advanced CO2 capture technologies including absorption, adsorption and membranes, CO2 compression and transportation, and CO2 sequestration in deep underground geological formations. The course will have regular lecture sessions, combined with reading and discussion sessions as well as the writing of a short research paper.
Restriction(s):
Restricted to MS: Civil Engr - Online - UIUC, MS:Industrial Engr Online-UIUC, MS:Mechanical Engineerng -UIUC, MS:Env Engr CivilEngr ONL-UIUC, NDEG:Engineering GR ONL - UIUC, MS: Aerospace Engr-Online-UIUC, MENG:Engr:Energy Sys Onl-UIUC, MENG:Mech Engineering Onl-UIUC, MENG:Engr:Energy Sys Onl-UIUC, MENG:Engr:AeroSys Online- UIUC, or MENG:ENGR:Digital Ag ONL- UIUC.
45548
Discussion/
Recitation
JWM
ARRANGED
n.a.
Location Pending
Maduzia, J
Part of Term:
1
Date Range:
01/16/24-05/01/24
Special Approval:
Departmental Approval Required
Credit:
4 hours
Section Title:
MicroNano Fabrication Capstone
Section Info:
This course is a hands-on micro-nano fabrication course. The student will be assigned a process topic including but not limited to spinning, exposure, PVD, RIE or ICP DRIE etching. Through in-lab training, the student will fabricate patterned test samples with micron scale resolution, then run a parameter study on the process. The student will then characterize the samples (SEM, profilometery, etc), analyze the results, and present the results for review. A report of the work accomplished, process used, and results will be provided for review. Students enrolled in this course will have a unique opportunity to fabricate and characterize micro-nano samples using modern techniques and equipment. Suggested related coursework includes ME487, ECE444. No required pre-requisites.
Restriction(s):
Restricted to MENG:Mechanical Enginerng-UIUC.
46193
Lecture-Discussion
SPV
1:00PM -2:50PM
TR
136 Loomis Laboratory
Vanka, S
Part of Term:
1
Date Range:
01/16/24-05/01/24
Credit:
4 hours
Section Title:
Adv Num Mthds for Thermofluids
Section Info:
The course discusses advanced topics in Computational Fluid Dynamics and Heat Transfer. It will consist of four main topics: Multigrid Methods, meshless methods, numerical methods for gas particle flows and gas liquid flows. Course will consist of lectures and projects, as well as applications using a commercial software. Pre-requisite ME 412, or equivalent.
Restriction(s):
Restricted to Graduate - Urbana-Champaign.
74800
Lecture-Discussion
WZ1
3:00PM -4:50PM
MW
410B1 Engineering Hall
Joy, T
Zhang, L
Part of Term:
1
Date Range:
01/16/24-05/01/24
Credit:
4 hours
Section Title:
Applied Heat Transfer
Section Info:
Review of fundamentals of convective heat transfer, boiling and condensation with industrial applications, heat transfer principles for heat exchanger design and/or performance evaluations, convective heat transfer in porous media with industrial applications and numerical methods in convective heat transfer.
Restriction(s):
Restricted to Graduate - Urbana-Champaign.
74799
Online
WZC
ARRANGED
n.a.
n.a.
Joy, T
Zhang, L
Part of Term:
1
Date Range:
01/16/24-05/01/24
Credit:
4 hours
Section Title:
Applied Heat Transfer
Section Info:
Section reserved for students designated as On Campus. Review of fundamentals of convective heat transfer, boiling and condensation with industrial applications, heat transfer principles for heat exchanger design and/or performance evaluations, convective heat transfer in porous media with industrial applications and numerical methods in convective heat transfer.
Restriction(s):
Restricted to MS:Computer Science -UIUC, PHD:Computer Science -UIUC, MS:Electrical Engineerng -UIUC, MS:Industrial Engineerng -UIUC, PHD:Industrial Enginerng -UIUC, MS:Mechanical Engineerng -UIUC, PHD:Mechanical Enginerng -UIUC, MENG:Mechanical Enginerng-UIUC, or MENG:Elec & Computer Eng-UIUC.
74794
Online
WZO
ARRANGED
n.a.
n.a.
Joy, T
Zhang, L
Part of Term:
1
Date Range:
01/16/24-05/01/24
Credit:
4 hours
Section Title:
Applied Heat Transfer
Section Info:
Section reserved for Online students. Review of fundamentals of convective heat transfer, boiling and condensation with industrial applications, heat transfer principles for heat exchanger design and/or performance evaluations, convective heat transfer in porous media with industrial applications and numerical methods in convective heat transfer.
Restriction(s):
Restricted to MS:Industrial Engr Online-UIUC, MS:Mechanical Engineerng -UIUC, MENG:Mech Engineering Onl-UIUC, or MENG:Elec & Comp Eng ONL -UIUC.
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