p16228- magnetically levitated propeller group members: eli, zach, mike, joe, & bernie

P16228- Magnetically Levitated PropellerGroup Members: Eli, Zach, Mike, Joe, & Bernie

Team Vision

Goals• Create concepts• New risks & benchmark specific

subsystem• Identify functions• Contact Boeing

Accomplishments• Concepts limited down to 2 potential

ideas• Risks added for subsystems &

benchmarks added for maglev and micro controller

• Primary and secondary functions created

Updated Customer Requirements

Updated Engineering Requirements

House of Quality

Functional Decomposition

ROV benchmarking

Maglev and magnetic bearing benchmarking

Microcontroller Benchmarking

Concept Development

Morphological Chart and Concept Selection

Criteria for Concept Selection

1. Uses magnets for levitation

2. Can it operate underwater?

3. Is it safe?

4. Are there shafts and seals?

5. Will Boeing be able to adopt the design?

6. High flow of water

7. Is it completely waterproof?

8. Is it stable?

9. Keeps propeller and user safe

10. Not an electrical hazard

11. Programming is efficient and robust

12. Can be completed in 2 semesters

13. Easy to use

14. Cheap to produce

15. Efficient

16. Generates a lot of thrust

17. Friction-less and no mechanical wear

Fallback Options

• Gift shop design

• Partially levitated (1 single mechanical point)

• Propeller made to operate in air, if there is enough time we

will make it submersible

Concept Selection -

Systems Architecture

• Propeller• Axial magnetic levitation and stability system• Lateral magnetic (or mechanical) stability system• Propeller rotation mechanism (electromagnetic or mechanical)• Propeller physical protection system• Propeller case/duct system• Electronic control system for electromagnet and propeller operation• Electronics and magnetics waterproof housing• User controller interface

Subsystem Designs•Joe Bernardini•3D Modeling/Drawings, Sheets and Schematics•BOM & Cost•Documentation

•Bernie Garcia•Propeller Design•3D Modeling/Drawings, Sheets and Schematics

•Zach Louison•Enclosure design•Heat Dissapation

•Mike Purcell•Microcontroller•Coding•Sensors•System Power

•Elijah Sensenig•DC Motor•Driver board (electromagnets)•Electromagnets and earth magnets•System Power

Feasibility - Neodymium Magnetic Attraction Forces

Feasibility - Propeller Material Design

Research and Prototyping Compare, design, thrust/stability comparison⇒

Feasibility- Thrust Calculations

Feasibility - Power Consumption

Feasibility - Battery Size and Weight

Designs and Flowcharts

Risk Assessment

Plans for next phase