SU967961A1 - Apparatus for magnetically treating aqueous systems - Google Patents

Description

the inner core is made telescopic and is located eccentrically with the possibility of movement in the cross-sectional plane of the chamber.

Fig. 1 is a schematic of a device for magnetic treatment of aqueous systems; in FIG. 2 shows section A-A in FIG. one.

The device contains an electromagnetic system, which is a solenoid-inductor 1, which creates an alternating pulsed electron, a magnetic field and is powered by a pulsed current generator. An electric generator allows you to adjust the amplitude of the pulses, the frequency of the pulse, the duty cycle to the steepness of the fronts, i.e. in the working space of the device, the intensity of the field, the gradient of intensity, the multiplicity and duration of irradiation of the treated fluid by a magnetic field can be optimally selected. The device will enclose a vertical cylindrical working chamber 2, concentrically located inside the inductor, made of a diamagnetic material and having an internal cylindrical diamagnetic core3. The core 3 is made of composite telescopic, the length of which can be adjusted by a screw rod 4. The working chamber has a lower tangential nozzle 5 for introducing fluid tangentially and giving it a spiral-screw motion and a nozzle 6 for draining fluid located on the upper end wall along the longitudinal vertical axis of the working chamber . The inner vertical cylindrical diamagnetic core 3 is located ecctrically in the working space of the chamber and can be interchanged in the cross-sectional plane of the chamber, which allows changing

Flow, l / min

Processing Effect Known Device

Claims (2)

The proposed device When the flow rate changes 2.5 times, the processing effect in the known device is halved, whereas. in the proposed only 8-10%. Claims of Invention A device for magnetic treatment of aqueous systems, comprising a solenoid inductor, a vertical cylindrical diamagnetic working chamber, a concentration chamber. rychnically located inside the inductor, with an internal cylindrical diamagnetic core, the lower tangential nozzle for introducing a liquid and the upper eccentricity value. After installing the desired eccentricity, the core 3 is fixed by the clamping nut 7.. The flow of the treated fluid, falling along the lower tangential nozzle 5 into the working chamber 2, spirals upwards, the internal core 3 flows around the flow, and is discharged through the upper vertical axial connection 6. The internal cylindrical eccentrically located core flows around, the liquid moves with. periodically pulsating speed, normally intersecting the pulsating magnetic field, since magnetic processing is carried out on the fluid. The change in eccentricity allows the amplitude of these velocity pulsations to be regulated. Changing the height of the core allows you to adjust the number of turns of fluid around it, i.e. the number of flow rate pulsations. On the basis of possible variations in fluid flow (inlet pressure), an eccentricity of the core is established, setting the amplitude of the velocity pulsations. Therefore, the flow of fluid moving at a periodically varying speed inevitably and repeatedly passes through the optimum value of speed, subjected to the maximum effective magnetic treatment. As a consequence, the mode of operation of the device is not critical to random flow rates, i.e. instantaneous flow rates. The results of comparisons of the known (the ratio of the minimum gap, to the maximum, i.e. eccentricity, is 1) and the proposed device (eccentricity is 0.15) are given. 7.5 5.0 3.0 15 20 28 110 120 120 axial drainage nozzle, characterized in that, in order to eliminate the dependence of the treatment efficiency on the flow rate of aqueous systems, the inner core is made telescopic and is eccentrically disposed with movement in the plane of the cross section of the chamber. Sources of information taken into account in the examination 1. USSR author's certificate number 190368, cl. C 02 F 1/48, 1965. 2. USSR author's certificate number 283989, cl. At 03 P 1/00, 1969.