Water Egress Simulator

The task of Team Aqua Egression is to develop a water egress simulator that belongs to the United States Department of the Interior (USDOI). This simulator was designed to train pilots how to escape from their plane incase of submerge. The process is to strap down two trainees inside the simulator using seatbelts. Then other assistances with push the simulator to a pool until it hits the pool’s bottom. Trainees will be given a signal to start unstrapping their selves and egress from the simulator.

Problem Statement
The USDOI reported that their simulator, which was made out of PVC material, suffers from broken joints while shipping the simulator from a place to another. Moreover, mesh seats were not comfortable for trainers. They needed such a simulator that will make it more reliable and last longer especially when shipping the simulator frequently.

Goal
The goal of the project is to design a simulator that will be lighter, stronger, easy to assemble and disassemble, transportable and affordable.

Background
According to Rick Gividen, chief training division at the U.S. Department of the Interior, the idea came after two accidents occurred at the U.S. Department of the Interior in 2010 and 2013 where the pilots hardly escaped from the plane. Now, new pilots at the U.S. Department of the Interior have to go through a course where they are strapped in the simulator and pushed into a pool then try to escape from simulator. As a result, the U.S. Department of the Interior demands such simulators that could be stronger that the current design. The reason of that is simulators are shipped from a city to another city and maybe from a state to another state. Shipping is one of the reasons why the current simulator has cracks and breaking joints.

Specifications

 * Capacity: Seat 2 people 5’ – 6’4” comfortably 4’6” – 6’9” uncomfortably.
 * Water Proof: Components should be water proofed and corrosion resistance.
 * Shipping Boxes: Final contents of shipping must not exceed 75 lbs. /box and 108" in length and 165" in length plus girth.
 * Toleration: Broken assemblies both through shipping or use must be economically feasible and field reparable. 50% weight variance between seats. I.e. 300 lbs./150lbs seat.
 * Cost: Less than the cost of current (pipe + fittings + seats + seatbelts + netting + glue + labor) + cases = $2,217.8.
 *  Assembly: Assemble in less than 1 hour.
 *  Disassembly: Disassemble in less than 1 hour.

Choosing a Material
Since PVC was not a good material to use for such simulators that are shipped frequently from a place to another, substituting PVC with another material was the start. After doing a massive amount researching for the best material possible to use instead of PVC, 8020 Aluminum T-slot material was on of the best options we found. This type of material has a reasonable weight, cost and corrosion. Moreover, this material is strong, stiff and does not break easily. Using T-slots will allow us to use screws rather than glow to put the simulator parts together.

Initial Prototype
1.5” 8020 Aluminum T-slot was used as a material to build the initial prototype. 90o plates were used to connect T-slots members together. The dimensions were as same as the old simulator 2.5”x3”x5”. This prototype was introduced to the client to get their opinion. The aluminum might cause damage to the pool’s bottom and edges if it landed strongly. Also, the 90o plates are not perfectly horizontal, which might also damage the edges and bottom of the pool since it has sharp edges. Nevertheless, in order to have more confortable seats, we should consider a wider simulator.

Team Information
{| class="wikitable" style="border-style: solid; border-width: 3px; border-color:3D3D3D; background: #FFFFFF" width="100%"
 * rowspan="5"|center
 *  ''Name
 * rowspan="4"|''Hobbies & Interests:'
 *  ''Name
 * rowspan="4"|''Hobbies & Interests:'

Career Goals: 
 * Mechanical Engineering Undergraduate
 * Hometown:
 * Email: |-
 * rowspan="5"|center
 *  ''Name
 * rowspan="4"|''Hobbies & Interests:'
 * rowspan="5"|center
 *  ''Name
 * rowspan="4"|''Hobbies & Interests:'
 * rowspan="4"|''Hobbies & Interests:'

Career Goals: 
 * Mechanical Engineering Undergraduate
 * Hometown:
 * Email: |-
 * rowspan="5"|center
 * Email: |-
 * rowspan="5"|center
 * rowspan="5"|center


 *  ''Name
 * rowspan="4"|''Hobbies & Interests:'

Career Goals: 
 * Mechanical Engineering Undergraduate
 * Hometown:
 * Email: |-
 * rowspan="5"|center
 * Email: |-
 * rowspan="5"|center
 * rowspan="5"|center


 *  ''Name
 * rowspan="4"|''Hobbies & Interests:'

Career Goals: 
 * Mechanical Engineering Undergraduate
 * Hometown:
 * Email: |-
 * rowspan="5"|center
 * Email: |-
 * rowspan="5"|center
 * rowspan="5"|center