printer friendly pageME 370B: Energy Systems II: Modeling and Advanced Concepts
Development of quantitative device models for complex energy systems, including fuel cells, reformers, combustion engines, and electrolyzers, using thermodynamic and transport analysis. Student groups work on energy systems to develop conceptual understanding, and high-level, quantitative and refined models. Advanced topics in thermodynamics and special topics associated with devices under study. Prerequisite: 370A.
Terms: Win
| Units: 4
Instructors:
Edwards, C. (PI)
;
Oliver, N. (TA)
ME 370C: Energy Systems III: Projects
Refinement and calibration of energy system models generated in
ME 370B carrying the models to maturity and completion. Integration of device models into a larger model of energy systems. Prerequisites: 370A,B, consent of instructor.
Terms: Spr
| Units: 3-5
Instructors:
Edwards, C. (PI)
ME 371: Combustion Fundamentals
Heat of reaction, adiabatic flame temperature, and chemical composition of products of combustion; kinetics of combustion and pollutant formation reactions; conservation equations for multi-component reacting flows; propagation of laminar premixed flames and detonations. Prerequisite: 362A or 370A, or consent of instructor.
Terms: Win
| Units: 3
Instructors:
Bowman, C. (PI)
ME 372: Combustion Applications
The role of chemical and physical processes in combustion; ignition, flammability, and quenching of combustible gas mixtures; premixed turbulent flames; laminar and turbulent diffusion flames; combustion of fuel droplets and sprays. Prerequisite: 371.
Terms: Spr
| Units: 3
ME 373: Nanomaterials Synthesis and Applications for Mechanical Engineers
This course provides an introduction to both combustion synthesis of functional nanomaterials and nanotechnology. The first part of the course will introduce basic principles, synthesis/fabrication techniques and application of nanoscience and nanotechnology. The second part of the course will discuss combustion synthesis of nanostructures in zero-, one- two- and three- dimensions, their characterization methods, physical and chemical properties, and applications in energy conversion systems.
Terms: Win
| Units: 3
Instructors:
Zheng, X. (PI)
ME 374: Dynamics and Kinetics of Nanoparticles
Part 1: Thermodynamics, transport theories and properties, aerosol dynamics and reaction kinetics of nanoparticles in fluids. Nucleation, gas kinetic theory of nanoparticles, the Smoluchowski equation, gas-surface reactions, diffusion, thermophoresis, conservation equations and useful solutions. Part 2: Introduction to soot formation, nanoparticles in reacting flows, particle transport and kinetics in flames, atmospheric heterogenous reactions, and nanocatalysis.
Terms: Win
| Units: 3
Instructors:
Wang, H. (PI)
ME 375A: StoryViz: COMMUNICATION REDESIGNED
StoryViz is about creating authentic & compelling communication in many media: this year's topics include sketching, video, visual design & performance. Fantastic guests and a bevy of assignments will prepare students to communicate their work and ideas genuinely, concisely, and with a keen sense of wit. Limited enrollment; application required; see
http://dschool.stanford.edu/classes. Please see notes.
Terms: Win
| Units: 2-3
Instructors:
Doorley, S. (PI)
;
Witthoft, S. (PI)
ME 375B: Institute of Design Project 2
Hands-on, project-based series for d.school students emphasizing innovation and design thinking. Resolving constraints among technical, business, and human concerns to create solutions that benefit society. Real-world design projects in areas suck as K-12 education, social entrepreneurship, business prototyping, sustainability, and health and wellness. Design reviews and final course presentations. Industry and adviser interaction. Limited enrollment; application required; see
http://dschool.stanford.edu/classes.
ME 375C: Institute of Design Project 3
Hands-on, project-based series for d.school students emphasizing innovation and design thinking. Resolving constraints among technical, business, and human concerns to create solutions that benefit society. Real-world design projects in areas suck as K-12 education, social entrepreneurship, business prototyping, sustainability, and health and wellness. Design reviews and final course presentations. Industry and adviser interaction. Limited enrollment; application required; see
http://dschool.stanford.edu/classes.
ME 376A: Imagining the Future of Learning: SparkTruck - Designing Mobile Interventions for Education (EDUC 333B)
Created at the d.school last year, SparkTruck has traveled over 15,000 miles across the USA, teaching thousands of kids how to build stuff and unleash their creativity. In this class, students will explore the potential of a mobile platform for affecting change in the educational ecosystem. Topics will include introductions to the design process, modern prototyping tools, and the complex education ecosystem. Students will work in teams in this project-based class, and an emphasis will be placed on real-world prototyping through hands-on field work in local schools. Interested and qualified students will have the opportunity to embark on a cross-country road trip in the SparkTruck this summer. Open to all graduate students and well-qualified undergrads of any major. Enrollment is limited. Apply at
www.sparktruck.org/apply
Last offered: Spring 2013
| Repeatable
2 times
(up to 8 units total)
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