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Problem Statement

Build a lightweight and aerodynamically efficient Aerobody

Goals 

Aerodynamic efficiency will lead to reduced power requirements, this allows us to travel further with the same amount of power. 

Constraints Regulations 

Top surface area of 5m^2 to accomodate array (If curved, then only in 1 plane)

Max dimensions (L x W x H): 5.0m x 2.2m x 1.6m

Criteria 

Theoretical Coefficient of drag (C_d) < 0.1

Frontal area (A) < 1.2 m² 

Large enough to accommodate 1 person

Requirements

Minimize molds

Minimize cost

Highly durable

Activity

• Research

• Design

  • Sketches

  • Surface Model

  • Solid Model (Solidworks)

  • Molds

  • Panelization

• CFD

  • Analysis

  • Verification

• Detailed design

  • Mounting points

  • Windshield and window cutouts

  • Flanges at connections

  • Wheel Fairings

  • Array Mounting

• Manufacturing

  • Molds

  • Panels

  • Trimming

  • Finishing

• Integration

  • Doors

  • Lights

  • Cameras

  • Windshield

  • Windows

• Mounting to Chassis

• Sealing all panel gaps

• Small scale wind tunnel testing

• (Inset array?)

• Full scale wind tunnel testing