Topic Area
METEOROLOGY
Abstract
Atmospheric Weather Balloon for Near Space Research
The Society for S.P.A.C.E. has been working on the development of a weather balloon that will reach a height of 80 to 100 thousand feet and will collect data from the atmosphere. The weather balloon is attached to a Styrofoam box that contains an Arduino board controlling a set of sensors that will measure: temperature, humidity, atmospheric pressure, wind speed and direction.
The data will be collected and transmitted through an Xbee antenna that will provide us with remote monitoring capabilities. The data and images gathered will aid understanding of the characteristics and environment that govern our atmosphere. This balloon will burst once it has reached its maximum volume. A deployment apparatus will eject a parachute for safe recovery.
In order to reach space we need to travel through Earth’s atmosphere.This research will provide information necessary for further exploration and means of travel even further.
Start Date
17-1-2015 11:30 AM
End Date
17-1-2015 1:00 PM
Scholarly Commons Citation
Pastrana, Francisco F.; Grantham, Devonte; Williams, Shane M.; Law, Jessy; Nason, Jennifer; and Marrnane, Janet, "Atmospheric Weather Balloon for Near Space Research" (2015). Aviation / Aeronautics / Aerospace International Research Conference. 1.
https://commons.erau.edu/aircon/2015/Saturday_Undergraduate/1
Poster
Included in
Aerospace Engineering Commons, Aviation Commons, Electrical and Computer Engineering Commons
Atmospheric Weather Balloon for Near Space Research
Atmospheric Weather Balloon for Near Space Research
The Society for S.P.A.C.E. has been working on the development of a weather balloon that will reach a height of 80 to 100 thousand feet and will collect data from the atmosphere. The weather balloon is attached to a Styrofoam box that contains an Arduino board controlling a set of sensors that will measure: temperature, humidity, atmospheric pressure, wind speed and direction.
The data will be collected and transmitted through an Xbee antenna that will provide us with remote monitoring capabilities. The data and images gathered will aid understanding of the characteristics and environment that govern our atmosphere. This balloon will burst once it has reached its maximum volume. A deployment apparatus will eject a parachute for safe recovery.
In order to reach space we need to travel through Earth’s atmosphere.This research will provide information necessary for further exploration and means of travel even further.