Smart system for monitoring and controlling oxygen gas level in high purity germanium detector room: a case study of Tanzania atomic energy commission, Arusha-Tanzania
Abstract
Low-oxygen air causes death all around the world. Even though the number of fatalities varies
from year to year and location to location, nitrogen gas replaces oxygen in the atmosphere,
increasing its percentage to less than 21% by volume. Special environment/room such as High
Purity Germanium Detector Room (HPGDR) requires tailored techniques to ensure that oxygen
levels are properly monitored to avoid any hazard. This study was designed for the HPGDR at
Tanzania Atomic Energy Commission (TAEC). The V-Model was used which works well for
small projects with clear requirements. It facilitated each step before moving on to the next level
of development, resulting in the design of an error-free and high-quality system. The ESP32
microcontroller which is built in Wi-Fi was used to send data to the Blynk cloud server. The
developed system is made up of four parts: The sensing component continuously monitors
environmental parameters with Oxygen, MQ-135, and DHT22 sensors. The processing section
processes and analyzes sensor data. The notification component alerts workers via a buzzer and
Short Message Service (SMS). While the controlling component replaces the contaminated
compressed air with fresh air from outside. To provide real-time monitoring, the developed system
employs the Blynk Application. All processed data was accessible via mobile phones using the
Blynk application. The system eliminates both danger and fear because it alerts workers through
SMS and switches on exhaust fan automatically. The HPGDR workers and the administrators are
the main beneficiaries of the developed system.