College and University Course Search Results

Course Criteria

Add courses to your favorites to save, share, and find your best transfer school.

ChE 101: Chemical Reaction Engineering

9.00 Credits

California Institute of Technology

Elements of chemical kinetics and chemically reacting systems. Homogeneous and heterogeneous catalysis. Chemical reactor analysis. Instructor: Arnold. Prerequisite: ChE 62 and ChE 63 ab, or instructor’s permission.

ShareChE 101 - Chemical Reaction Engineering

Favorite
ChE 103 abc: Transport Phenomena

9.00 Credits

California Institute of Technology

A rigorous development of the basic differential equations of conservation of momentum, energy, and mass in fluid systems. Solution of problems involving fluid flow, heat transfer, and mass transfer. Instructors: Staff, Kornfield, Davis.

ShareChE 103 abc - Transport Phenomena

Favorite
ChE 105: Dynamics and Control of Chemical Systems

9.00 Credits

California Institute of Technology

Analysis and design of dynamic chemical systems, spanning biomolecular networks to chemical processing. Topics include control strategies for regulating dynamic performance, formulation of mechanistic and empirical models, linear analysis of feedback systems, introduction to multivariate control. Instructor: Seinfeld. Prerequisite: ChE 101 and ACM 95 abc or concurrent registration, or instructor’s permission.

ShareChE 105 - Dynamics and Control of Chemical Systems

Favorite
ChE 112: Design, Invention, and Fundamentals of Microfluidic Systems

9.00 Credits

California Institute of Technology

This course combines two parts. First, it will cover fundamental aspects of kinetics, mass-transport, and fluid physics that are relevant to microfluidic systems. Second, it will cover the process of using the understanding of fundamentals to design microfluidic systems that address challenges in Global Health, with an emphasis on students’ inventive contributions and creativity. This course will require active participation. Instructor: Ismagilov. Prerequisite: ChE 101, ChE 103 abc, or instructor’s permission.

ShareChE 112 - Design, Invention, and Fundamentals of Microfluidic Systems

Favorite
ChE 114: Solid State NMR Spectroscopy For Materials Chemistry

1.00 - 9.00 Credits

California Institute of Technology

Principles and applications of solid state NMR spectroscopy will be addressed with focus on structure and dynamics characterization of organic and inorganic solids. Topics include basic principles of NMR phenomena in solid state, high resolution techniques such as magic angle spinning (MAS), cross-polarization (CP) MAS, Double Rotation (DOR) and multiple-quantum MAS (MQMAS) for half integer quadrupole nuclei, and multiple pulse experiments for dipolar decoupling and recoupling, which expect to cover NMR methods that are routinely employed in studies of organic and inorganic materials chemistry. Hands-on experience will be provided via laboratory course on solid NMR spectrometers. Instructor: Hwang. Prerequisite: Ch 21abc or instructor’s permission.

ShareChE 114 - Solid State NMR Spectroscopy For Materials Chemistry

Favorite
ChE 115: Electronic Materials Processing

9.00 Credits

California Institute of Technology

After a brief introduction to solid-state concepts, materials, and devices relevant to electronic applications, the course will cover the prevalent growth and etching techniques used in processing of electronic materials. Emphasis is on the underlying physical and chemical principles. Crystal and thin film growth techniques to be covered include physical and chemical vapor deposition, liquid-phase epitaxy, molecular beam epitaxy, and plasma-assisted deposition. Property altering processes such as diffusion, oxidation, and doping are also included. Plasma etching is introduced with emphasis on determining key parameters that control the ion energy and flux to the wafer surface. Key techniques for thin film analysis and characterization are briefly discussed. Instructor: Giapis. Given in alternate years; offered 2012–13. Prerequisite: ChE 63 ab, ChE 103 abc, ChE 101, or instructor’s permission.

ShareChE 115 - Electronic Materials Processing

Favorite
ChE 118: Introduction to the Design of Chemical Systems

9.00 Credits

California Institute of Technology

Short-term, open-ended projects that require students to design a chemical process or product. Each team generates and filters ideas, identifies use cases and objectives, evaluates and selects a design strategy, develops a project budget, schedules milestones and tasks, and writes a proposal with supporting documentation. Each project must meet specified requirements for societal impact, budget, duration, person hours, environmental impact, safety, and ethics. Instructor: Vicic. Prerequisite: ChE 63 ab, ChE 101, ChE 103 abc, ChE 126, or instructor’s permission.

ShareChE 118 - Introduction to the Design of Chemical Systems

Favorite
ChE 120: Optimal Design of Chemical Systems

9.00 Credits

California Institute of Technology

Short-term, open-ended projects that require students to design and build a chemical process or manufacture a chemical product. Each team selects a project after reviewing a collection of proposals. Students use chemical engineering principles to design, build, test, and optimize a system, component, or product that fulfills specified performance requirements, subject to constraints imposed by budget, schedule, logistics, environmental impact, safety, and ethics. Instructor: Vicic. Prerequisite: ChE 63 ab, ChE 101, ChE 103 abc, ChE 126, or instructor’s permission.

ShareChE 120 - Optimal Design of Chemical Systems

Favorite
ChE 126: Chemical Engineering Laboratory

9.00 Credits

California Institute of Technology

Short-term projects that require students to work in teams to design systems or system components. Projects typically include unit operations and instruments for chemical detection. Each team must identify specific project requirements, including performance specifications, costs, and failure modes. Students use chemical engineering principles to design, implement, and optimize a system (or component) that fulfills these requirements, while addressing issues and constraints related to environmental impact, safety, and ethics. Students also learn professional ethics through the analysis of case studies. Instructor: Vicic. Prerequisite: ChE 63 ab, ChE 101, ChE 103, ChE 105, or instructor’s permission.

ShareChE 126 - Chemical Engineering Laboratory

Favorite
ChE 128: Chemical Engineering Design Laboratory

9.00 Credits

California Institute of Technology

Short-term, open-ended research projects targeting chemical processes in microreactors. Projects include synthesis of chemical products or materials, detection and destruction of environmental pollutants, and other gas phase conversions. Each student is required to construct and troubleshoot his/her own microreactor, then experimentally evaluate and optimize independently the research project using chemical engineering principles. Where possible, cost analysis of the optimized process is performed. Instructors: Vicic, Giapis. Prerequisite: ChE 63 ab, ChE 101, ChE 103, or instructor’s permission.

ShareChE 128 - Chemical Engineering Design Laboratory

Favorite

Alabama
Alaska
American Samoa
Arizona
Arkansas
California
Colorado
Connecticut
Delaware
District of Columbia
Federated States of Micronesia
Florida
Georgia
Guam
Hawaii
Idaho
Illinois
Indiana
Iowa
Kansas
Kentucky
Louisiana
Maine
Marshall Islands
Maryland
Massachusetts
Michigan
Minnesota
Minor Outlying Islands
Mississippi
Missouri
Montana
Nebraska
Nevada
New Hampshire
New Jersey
New Mexico
New York
North Carolina
North Dakota
Northern Mariana Islands
Ohio
Oklahoma
Oregon
Palau
Pennsylvania
Puerto Rico
Rhode Island
South Carolina
South Dakota
Tennessee
Texas
Utah
Vermont
Virgin Islands
Virginia
Washington
West Virginia
Wisconsin
Wyoming
American Samoa
Guam
Northern Marianas Islands
Puerto Rico
Virgin Islands