Some Personal History  Grew up in the San Fernando Valley  BS Degree in Engineering, 1978 (CSUN)  MS Degree in Engineering, 1985 (CSUN)  PhD in Mechanical.

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Presentation transcript:

Some Personal History  Grew up in the San Fernando Valley  BS Degree in Engineering, 1978 (CSUN)  MS Degree in Engineering, 1985 (CSUN)  PhD in Mechanical Engineering, 1994 (UCLA)  Worked at Lockheed from  Faculty member at CSUN, 1981 – present  Currently an Associate Professor

Why Go to College?  There used to be a bumper sticker that said – “If you think education is expensive, try ignorance”  Consider unemployment rates for those with bachelor’s degrees and those without  Education is an investment in yourself that will pay dividends all through your life

Why Major in a STEM Field?  The world is rapidly changing as a result of technology – be a part of it  Your career will be less likely to move overseas  It’s interesting, fun, and rewarding

Why Major in Engineering?  Well, the physicists say that:  If you study engineering, you can do engineering  If you study physics, you can still do engineering, or  Explore the mysteries of the universe  Use lasers to develop new medical techniques  Become an international rap sensation  Help solve the world’s energy problems  They’re entitled to their opinions!

Components of an Engineering Program  Basic Math and Science (Physics and Chemistry)  Engineering Science (Dynamics, Thermodynamics, Electronics, Materials, etc.)  Design Methodology and Application to Projects (especially Capstone Project)  Use of Modern Computational Tools (CAD, FEA, Matlab, LabVIEW, CAM, etc.)  Engineering Economics  Engineering Application Courses

HPV – A Capstone ME Project  Design a Vehicle According to Competition Specifications, Using Appropriate Methodology  Implement the Design by Building It  Compete Against Other Universities

HPV – A Capstone ME Project  Design a Vehicle According to Competition Specifications, Using Appropriate Methodology  Implement the Design by Building It  Compete Against Other Universities

Human Powered Vehicle Challenge (HPVC) ASME's international Human Powered Vehicle Challenge (HPVC) provides an opportunity for students to demonstrate the application of sound engineering design principles in the development of sustainable and practical transportation alternatives. In the HPVC, the students worked collectively as a team to design and build an efficient, highly engineered vehicle for everyday use.

Speed Event meters 100 meters 200 meters Female/Male 12.5 points (each) Human Powered Vehicle Challenge (HPVC) Capability, Usability, Safety, Innovation, Effectiveness Innovation Event 20 points 1.5 km Endurance Event Demonstrate the functionality, agility, and durability of the vehicle 25 points Design Event 15.5 mph 19.7 ft ft. 30 points Innovation Event Endurance Event Design Event Speed Event Competition EventMaximum Points Male Female TOTAL 100

Design Objectives CSUN HPVC Overall Ranking  2012: 14 th Place  2013: 9 th Place Vehicle  Practical  Easy to drive  Comfortable  Well Ventilated  Good Visibility  Lightweight  Aerodynamic

Designing

Fabrication Styrofoam male mold Fiberglass mold surface 5.4 oz, 2k weave carbon fiber (2 layers) High density zotefoam 3D printed ABS plastic ducts Lexan windows

Fabrication 6061 Al tubing Pneumatic tube bending TIG Welded Press-Fit Bearings Powder Coated

Fabrication Vertical Mill Lathe Band Saw Drill Press CNC

Drive System Gates Carbon Belt Drive Belt versus chain Innovative drive system Belt tension Frame compatibility Requires Internal Gear Hub (IGH)

PROJECT RESULTS Recommendations Increase frame stiffness Improve alignment of belt pulleys Time management Mold preparation Design objectives were met and overall project was a success!

Power and Velocity (Rider 1)

How Do We Estimate Drag?  Use Numerical Simulation  Test Models in a Wind Tunnel  Measure Drag in Road Tests

Numerical Simulation FULL PARTIAL

Simulation Results FULLPARTIAL

Numerical Simulation – Pros and Cons  Easy to change geometry and evaluate flow patterns and drag on different shapes  Accuracy depends on the “mesh” which the program creates in the computational domain  There are limitations in the mathematical model used to simulate the flow which also affect accuracy

Wind Tunnel Tests – Pros and Cons  Need to manufacture scale models which will fit in tunnel  Difficult to simulate “ground effect”  Need to consider “scaling effect”  The last two factors introduce error and uncertainty in result  We hope to perform some tests this summer

Road Tests – Pros and Cons  There are two types of tests – Coast Down and Steady State  Steady State requires more instrumentation (e.g. Power Tap hub)  Should be the most accurate, since the test is on the real vehicle in actual use  The vehicle must be completed well before the competition in order to have testing time  We hope to perform these tests this summer

Other Designs

Questions?