Effects of hydrodynamic impact on water from the viewpoint of cluster theory. Surface tension

Abstract: Variation of surface tension coefficient σ of distilled water under high-energy impact (hydrodynamic cavitation) was studied by the ring separation method. Force impacts on surface tension of water have been studied experimentally. Conditions have been found under which the surface tension coefficient σ decreases to 20%. The paper explains the produced results on the basis of cluster theory of water structure. The experimentally produced relaxation time of the surface tension of cavitation-activated distilled … Show more

“…After that the ready suspension was investigated, for CWF1 the water was distilled at pH = 4.91 at room temperature of T = 20 °C. It is common knowledge that the cavitation treatment increases the pH of water and decreases the oxidation–reduction potential by mechanolysis of the water molecule . To find out the effect of more alkaline water on CWF properties, a CWF2 sample was prepared in analogy, in which the dispersion medium was distilled water (pH = 5.70 at the temperature immediately after preparation of T ≈ 37 °C) pretreated in the cavitation mixer for 5 min.…”

“…It is common knowledge that the cavitation treatment increases the pH of water and decreases the oxidation–reduction potential by mechanolysis of the water molecule. 24 To find out the effect of more alkaline water on CWF properties, a CWF2 sample was prepared in analogy, in which the dispersion medium was distilled water (pH = 5.70 at the temperature immediately after preparation of T ≈ 37 °C) pretreated in the cavitation mixer for 5 min. The formulation of the liquid composition and some properties of the suspension and its components are given in Table 2 .…”

Impact of Hydrodynamic Cavitation on the Properties of Coal-Water Fuel: An Experimental Study

“…After that the ready suspension was investigated, for CWF1 the water was distilled at pH = 4.91 at room temperature of T = 20 °C. It is common knowledge that the cavitation treatment increases the pH of water and decreases the oxidation–reduction potential by mechanolysis of the water molecule . To find out the effect of more alkaline water on CWF properties, a CWF2 sample was prepared in analogy, in which the dispersion medium was distilled water (pH = 5.70 at the temperature immediately after preparation of T ≈ 37 °C) pretreated in the cavitation mixer for 5 min.…”

“…It is common knowledge that the cavitation treatment increases the pH of water and decreases the oxidation–reduction potential by mechanolysis of the water molecule. 24 To find out the effect of more alkaline water on CWF properties, a CWF2 sample was prepared in analogy, in which the dispersion medium was distilled water (pH = 5.70 at the temperature immediately after preparation of T ≈ 37 °C) pretreated in the cavitation mixer for 5 min. The formulation of the liquid composition and some properties of the suspension and its components are given in Table 2 .…”

Impact of Hydrodynamic Cavitation on the Properties of Coal-Water Fuel: An Experimental Study