TY - JOUR
T1 - PID Power Controller to a Setpoint of Fluid Level Height in a Reservoir for Unattended Human Monitoring
AU - Amhamed, Abdukarem I
AU - Assaf, Anwar Hamdan Al
AU - Fawaz, Odi
AU - Hayajnh, Mahmoud Adnan
AU - Fawaz, Ward
AU - Al-Tawaha, Ahmad S.
PY - 2022/1/2
Y1 - 2022/1/2
N2 - This paper provides a novel approach of a power control system of a fluid tank pump to reach a specific setpoint of fluid level height. The system enables users to fill a tank to any desired height within a chosen time interval. The system is equipped with a timer that allows the user to fill the tank to the desired level within the desired time. The system is based on utilizing a Proportional Integral and Derivative (PID) controller to adjust the pump's power to satisfy the us-er-defined setups (time and fluid level height). This approach has the potential to be applied for domestic purposes for unattended human monitoring. This approach has been demonstrated using LabVIEW coding to apply the fluid and hydrodynamic design and control principles. The results have illustrated the code's capability to achieve the desired tank fluid level height for a variable range of fluid level height setpoints and time intervals.
AB - This paper provides a novel approach of a power control system of a fluid tank pump to reach a specific setpoint of fluid level height. The system enables users to fill a tank to any desired height within a chosen time interval. The system is equipped with a timer that allows the user to fill the tank to the desired level within the desired time. The system is based on utilizing a Proportional Integral and Derivative (PID) controller to adjust the pump's power to satisfy the us-er-defined setups (time and fluid level height). This approach has the potential to be applied for domestic purposes for unattended human monitoring. This approach has been demonstrated using LabVIEW coding to apply the fluid and hydrodynamic design and control principles. The results have illustrated the code's capability to achieve the desired tank fluid level height for a variable range of fluid level height setpoints and time intervals.
M3 - Article
SN - 2056-5828
JO - International Journal of Electrical and Electronics Engineering Studies
JF - International Journal of Electrical and Electronics Engineering Studies
ER -