Effect of physicochemical parameters on magnetic treatment of water

The main objective of this work is to offer a new knowledge of the water magnetism phenomenon, indeed the present study focused on the search of the most decisive parameters, which influence the process of magnetization of water. The main parameters studied in the present paper are the temperature, the salinity, the pH and the linear flow speed of the water. The increases of temperature, water velocity or salinity extend the magnetization time, however the variation of pH does not have any influence. The outcomes of this work will be very helpful for engineers in agriculture and other industrial fields to a better use of magnetized water (MW)

Elaboration and Physico-Mechanical Characterization of a New Eco-Mortar Composite Based on Magnetized Water and Fly Ash

This study examines the flexural strength and compressive strength of the mortars, which were mixed with the electromagnetic field treated water (EMFTW) and contained fly ash. EMFTW was obtained by passing the tap water through an electromagnetic field. The test variable was the fly ash content in place of cement and the water treated with EMFTW in place of the tap water. The results show that the flexural and compressive strength of the mortar samples mixed with MFTW is 12.56% and 15.8% higher than that prepared with the tap water, respectively. It was also found that the magnetized water improves the resistance to bending and compression by 12.67% and 4.35% to that prepared with the tap water and 10% fly ash instead of cement

Recycling of ashes from thermal stations for the production of an ecological mortar: New application in civil engineering

The main idea of this work is to investigate about the flexural and compressive forces of the mortar, which was developed from fly ash, hearth ash, and magnetized water with different times of magnetization. The results of this work reveal that the flexural and compressive force of mortars realized with magnetized water is higher than those prepared with non magnitezed water. The best result of increasing the flexural and the compressive forces of the mortar are obtained when the water magnetization time is equal to 20 min. The growth in flexural and the compressive forces of the mortar elaborated with magnetized water is proportional to the magnetization time