College - Author 1
College of Engineering
Department - Author 1
Mechanical Engineering Department
Degree Name - Author 1
BS in Mechanical Engineering
College - Author 2
College of Engineering
Department - Author 2
Mechanical Engineering Department
Degree - Author 2
BS in Mechanical Engineering
College - Author 3
College of Engineering
Department - Author 3
Mechanical Engineering Department
Degree - Author 3
BS in Mechanical Engineering
College - Author 4
College of Engineering
Department - Author 4
Mechanical Engineering Department
Degree - Author 4
BS in Mechanical Engineering
Date
6-2021
Primary Advisor
Andrew Kean, College of Engineering, Mechanical Engineering Department
Abstract/Summary
The scope of this project was to design a personal protective equipment (PPE) that protects the wearer from SARS-CoV-2 without inhibiting communication and was comfortable to wear for long periods of time. SARS-CoV-2, commonly known as COVID-19, is a contagious respiratory virus that spreads through droplets produced when someone who is infected by the virus coughs, sneezes, or talks. These droplets may land on the mouths or noses of nearby people or may be inhaled in the lungs, infecting those who come in contact with the virus. The current guidelines to help slow the spread of COVID-19 are to wear a mask that covers the mouth and nose when around others [1]. However, this causes the wearer's voice to be muffled and be difficult to understand, covers the wearer's facial expressions, inhibits others from picking up on important facial cues, and can become uncomfortable after long periods of wear. An alternative that meets these needs would be a powered air-purifying respirator (PAPR), which is currently sold by several companies in various forms. Many are quite comfortable and allow the user’s face to be seen, but the price is the biggest downfall, most costing over $1,000. Our goal was to design a comfortable, affordable, and effective powered air purifying respirator for Cal Poly professors. We were able to create a respirator that costs only $140, filters out 99.93% of COVID-19 sized particles, and is generally well received in functionality by the general public. This document comprises the results of the critical design process, including background research, specifications, concept development and final design, testing and manufacturing plans, and project timeline.
URL: https://digitalcommons.calpoly.edu/mesp/590