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1 - 10 of 19 results for: CHEMENG ; Currently searching spring courses. You can expand your search to include all quarters

CHEMENG 105: Applied Mathematics in Chemical Engineering

Develop analytical tools to solve ordinary and partial differential equations (ODE/PDE) and boundary value problems in chemical engineering. Apply separation of variables, Laplace transforms, Sturm-Liouville theory, and generalized Fourier analysis to solve boundary value problems in transport phenomena, including heat conduction and diffusion equations. Introduction to statistics and data analysis. Prerequisite: CHEMENG 100
Terms: Spr | Units: 4

CHEMENG 120B: Energy and Mass Transport

General diffusive transport, heat transport by conduction, Fourier's law, conduction in composites with analogies to electrical circuits, advection-diffusion equations, forced convection, boundary layer heat transport via forced convection in laminar flow, forced convection correlations, free convection, free convection boundary layers, free convection correlations and application to geophysical flows, melting and heat transfer at interfaces, radiation, diffusive transport of mass for dilute and non-dilute transfer, mass and heat transport analogies, mass transport with bulk chemical reaction, mass transport with interfacial chemical reaction, evaporation. Prerequisite CHEMENG 120A or consent of instructor.
Terms: Spr | Units: 4

CHEMENG 130A: Microkinetics - Molecular Principles of Chemical Kinetics

This course will cover the basis of chemical kinetics that are used to design chemical processes and reactor design. Topics include: origin of rate expression in chemical reactions; experimental generation and analysis of kinetic data; relationship between kinetic and thermodynamic quantities; concepts of elementary steps and reaction orders; reactions in parallel and in sequence; branched reactions; collision theory and introduction to transition state theory; heterogeneous catalysis and surface reactions; enzymatic catalysis; applications of kinetics. Prerequisites: Chem 33; CME 100 or Math 51
Terms: Spr | Units: 4

CHEMENG 180: Chemical Engineering Plant Design

Open to seniors in chemical engineering or by consent of instructor. Application of chemical engineering principles to the design of practical plants for the manufacture of chemicals and related materials. Topics: flow-sheet development from a conceptual design, equipment design for distillation, chemical reactions, heat transfer, pumping, and compression; estimation of capital expenditures and production costs; plant construction.
Terms: Spr | Units: 4

CHEMENG 189: Career Building: Entrepreneurship / Intrapreneurship, People, Innovation, Decision-Making and Impact (CHEMENG 289, ENGR 289, RAD 189, RAD 289)

This course is designed to enable graduate students and advanced undergraduate students in science and engineering to hone strategies for career success. Drawing strongly on entrepreneurial principles and lessons from industry, the course complements the traditional curriculum by focusing on career-building tools that students need to improve their professional prospects and achieve their goals. Relevant for those who plan to pursue careers in academia and industry alike, a central focus will be on managing one's career as if it were a start-up, emphasizing principles that empower individuals to take more control of their futures: investing in yourself, building professional networks, taking intelligent risks, and making uncertainty and volatility work to one's advantage. Through a series of in-classroom presentations and interviews - with professors, entrepreneurs, executives, athletes, investors, and thought leaders from diverse fields and sectors - students will gain important knowl more »
This course is designed to enable graduate students and advanced undergraduate students in science and engineering to hone strategies for career success. Drawing strongly on entrepreneurial principles and lessons from industry, the course complements the traditional curriculum by focusing on career-building tools that students need to improve their professional prospects and achieve their goals. Relevant for those who plan to pursue careers in academia and industry alike, a central focus will be on managing one's career as if it were a start-up, emphasizing principles that empower individuals to take more control of their futures: investing in yourself, building professional networks, taking intelligent risks, and making uncertainty and volatility work to one's advantage. Through a series of in-classroom presentations and interviews - with professors, entrepreneurs, executives, athletes, investors, and thought leaders from diverse fields and sectors - students will gain important knowledge and practical strategies, with course modules on topics such as ideation and innovation, the skill of self-advocacy, the fundamentals of negotiation, building and managing teams, and effective communication and storytelling. Additional modules will focus on biotechnology and deep tech start-up companies, as well as strategies for cultivating a successful academic career. The idea for this course emerged from the instructor's reflections on 30 years of research, teaching, mentorship, and deep entrepreneurial experiences spanning the gamut of approaches to translational science - academic discovery, invention, conceiving of and leading multi-institutional research centers, building research and business teams, launching and financing start-ups, building business models to advance real-world applications of cutting-edge science, and seeing through research-based companies to success (including growing an idea into a multi-billion dollar company). For this course, students will be expected to complete relevant reading assignments, participate actively in class dialogue, and complete regular writing assignments focused on course topics as they relate to ones own career-building needs and professional aspirations. Students may also have opportunities to lead class discussions on topics of interest.
Terms: Spr | Units: 3

CHEMENG 190: Undergraduate Research in Chemical Engineering

Laboratory or theoretical work for undergraduates under the supervision of a faculty member. Research in one of the graduate research groups or other special projects in the undergraduate chemical engineering lab. Students should consult advisers for information on available projects. Course may be repeated.
Terms: Aut, Win, Spr, Sum | Units: 1-6 | Repeatable for credit

CHEMENG 190H: Undergraduate Honors Research in Chemical Engineering

For Chemical Engineering majors pursuing a B.S. with Honors degree who have submitted an approved research proposal to the department. Unofficial transcript must document BSH status and at least 9 units of 190H research for a minimum of 3 quarters May be repeated for credit.
Terms: Aut, Win, Spr, Sum | Units: 1-5 | Repeatable for credit

CHEMENG 191H: Undergraduate Honors Seminar

For Chemical Engineering majors approved for B.S. with Honors research program. Honors research proposal must be submitted and unofficial transcript document BSH status prior to required concurrent registration in 190H and 191H. May be repeated for credit. Corequisite: 190H
Terms: Aut, Win, Spr | Units: 1 | Repeatable for credit

CHEMENG 289: Career Building: Entrepreneurship / Intrapreneurship, People, Innovation, Decision-Making and Impact (CHEMENG 189, ENGR 289, RAD 189, RAD 289)

This course is designed to enable graduate students and advanced undergraduate students in science and engineering to hone strategies for career success. Drawing strongly on entrepreneurial principles and lessons from industry, the course complements the traditional curriculum by focusing on career-building tools that students need to improve their professional prospects and achieve their goals. Relevant for those who plan to pursue careers in academia and industry alike, a central focus will be on managing one's career as if it were a start-up, emphasizing principles that empower individuals to take more control of their futures: investing in yourself, building professional networks, taking intelligent risks, and making uncertainty and volatility work to one's advantage. Through a series of in-classroom presentations and interviews - with professors, entrepreneurs, executives, athletes, investors, and thought leaders from diverse fields and sectors - students will gain important knowl more »
This course is designed to enable graduate students and advanced undergraduate students in science and engineering to hone strategies for career success. Drawing strongly on entrepreneurial principles and lessons from industry, the course complements the traditional curriculum by focusing on career-building tools that students need to improve their professional prospects and achieve their goals. Relevant for those who plan to pursue careers in academia and industry alike, a central focus will be on managing one's career as if it were a start-up, emphasizing principles that empower individuals to take more control of their futures: investing in yourself, building professional networks, taking intelligent risks, and making uncertainty and volatility work to one's advantage. Through a series of in-classroom presentations and interviews - with professors, entrepreneurs, executives, athletes, investors, and thought leaders from diverse fields and sectors - students will gain important knowledge and practical strategies, with course modules on topics such as ideation and innovation, the skill of self-advocacy, the fundamentals of negotiation, building and managing teams, and effective communication and storytelling. Additional modules will focus on biotechnology and deep tech start-up companies, as well as strategies for cultivating a successful academic career. The idea for this course emerged from the instructor's reflections on 30 years of research, teaching, mentorship, and deep entrepreneurial experiences spanning the gamut of approaches to translational science - academic discovery, invention, conceiving of and leading multi-institutional research centers, building research and business teams, launching and financing start-ups, building business models to advance real-world applications of cutting-edge science, and seeing through research-based companies to success (including growing an idea into a multi-billion dollar company). For this course, students will be expected to complete relevant reading assignments, participate actively in class dialogue, and complete regular writing assignments focused on course topics as they relate to ones own career-building needs and professional aspirations. Students may also have opportunities to lead class discussions on topics of interest.
Terms: Spr | Units: 3

CHEMENG 299: Graduate Practical Training

Only for graduate students majoring in Chemical Engineering. Students obtain employment in a relevant industrial or research activity to enhance their professional experience. Students submit a concise report detailing work activities, problems worked on, and key results. May be repeated for credit up to 3 units. Prerequisite: qualified offer of employment and consent of department. Prior approval by the Chemical Engineering Department is required; you must contact the Chemical Engineering Department's Student Services staff for instructions before being granted permission to enroll.
Terms: Aut, Win, Spr | Units: 1 | Repeatable 3 times (up to 3 units total)
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