RU97105487A - CAVITATION HEAT GENERATOR - Google Patents

Claims (11)

1. Cavitation heat generator comprising a housing equipped with an accelerator of fluid motion and a brake device, characterized in that, in order to intensify the process of heating the fluid and reduce energy consumption, the accelerator of fluid motion is made in the form of a flow chamber with a supply pipe, a confuser and a pipe to discharge the treated fluid ; inside the flow chamber, a working element is installed in the form of super-cavitating vanes fixed on the hub, which are covered by a coaxial cylinder on the outer surface, on the outer surface of the cylinder are super-cavitating vanes, the direction of the swirling flow of which is opposite to the direction of the curling of the flow by internal super-cavitating vanes fixed on the hub, and the braking device made in the form of a flow breaker with a drive located behind the working element in the direction of flow, a pipe twater connected to the heat accumulator, the output of which is connected to the heat consumer and commercial network pump whose output is connected through the housing to the nozzle inlet.  2. The cavitation heat generator according to claim 1, characterized in that between the working element and the flow chopper there is a liquid flow sampling device connected to an additional flow chamber, inside which a working element is installed that provides super cavitation mode, behind which an additional breaker is installed along the flow flow with a drive, the outlet of the flow chamber is connected through the housing to a hub made by a hollow, and a collector covering the outer surface of the flow chamber, equipped with a perforation placing it in a zone of the working member, wherein, in the casing to the working element mounted turbulizer configured as a flow breaker drive, with all breakers drives respective flows kinematically linked.  3. The cavitation heat generator according to claims 1 and 2, characterized in that between the mains pump and the housing there is a pre-connected cavitation activator made in the form of a confuser, a flow chamber tangentially connected to the housing, inside of which a working element, a hollow hub is installed on the hollow hub connected to the heat accumulator, mainly at the top point.  4. The cavitation heat generator according to claim 3, characterized in that nozzles are installed in the flow chamber downstream of the working element, mainly perpendicular to the direction of flow, the inlets of which are connected to the outlet of the mains pump.  5. The cavitation heat generator according to claim 4, characterized in that the axis of the nozzles are located at an angle to each other.  6. The cavitation heat generator according to claims 1-5, characterized in that the actuator of the circuit breaker drives is connected via a controller to a temperature sensor, and one of the inputs of the controller is connected to a noise sensor behind the working element.  7. The cavitation heat generator according to claim 2, characterized in that the turbulator made in the form of a flow interrupter is equipped with additional flow guides made, for example, in the form of plates mounted on the movable part of the interrupter at an angle to the incoming flow.  8. The cavitation heat generator according to claim 2, characterized in that the chopper and the additional chopper are connected to provide a shift in the moment of the onset of pulses in the choppers, for example, with a relative angular displacement.  9. Cavitation heat generator according to claims 1 to 8, characterized in that the front edge of the coaxial cylinders directed towards the fluid flow is sharp, with a beveled inner surface made in the form of a smooth concave profile, and the front edge of the hub directed towards the fluid flow , made sharp, with a beveled outer surface, made in the form of a smooth concave profile.  10. The cavitation heat generator according to claims 1 to 9, characterized in that a pressure regulator is installed at the output of the heat generator.  11. Cavitation heat generator according to claims 1 to 9, characterized in that all the nodes in contact with the liquid are made with an organosilicon coating.