Title of article :
An empirical model for salt removal percentage in water under the effect of different current intensities of current carrying coil at different flow rates
Author/Authors :
AbdelHady, Rameen S. Ministry of Water Resources and Irrigation - National Research Center - Mechanical and Electrical Institute, Egypt , Younes, MohammedAdel A. Ministry of Water Resources and Irrigation - Mechanical and Electrical Institute - National Research Center, Egypt , Ibrahim, Ahmed M. Cairo University - Faculty of Engineering - Electrical and Machine Power Department, Egypt , AbdelAziz, Mohammed M. Cairo University - Faculty of Engineering - Electrical and Machine Power Department, Egypt
Abstract :
The magnetic treatment of hard water is an alternative, simple approach by which the hard water that needs to be treated flows through a magnetic field. This field is created by inducing current in a coil wrapped around a pipe. Consequently some of its properties, such as total dissolved salts (TDS), conductivity (Ec) and PH change. The primary purpose of hard water treatment is to decrease TDS in the incoming liquid stream. Using performance data from the application of different magnetic field densities on the different flow levels of water, empirical mathematical models were developed relating the salt removal percentage (SRP) to operating flow rate and current of the coil. The obtained experimental results showed that the SRP increased with increasing the current at low flow rates (up to 0.75 ml/s)
Keywords :
Magnetic field , Water , Flow rate , Salt removal percentage , Empirical model
Journal title :
Journal of Advanced Research
Journal title :
Journal of Advanced Research
