RU2059945C1 - Heat generator - Google Patents

Abstract

FIELD: farming, civil engineering. SUBSTANCE: heat-transfer agent from pump 1 is delivered to jet apparatus 5 through pressure branch pipe 2. Gas is sucked through branch pipes 15 and 6. Mixed flow is directed to mixture separator 9. Heat-transfer agent is returned to delivery unit through branch pipe 3. Gas flows to vortex tube 11 through gas branch pipe 10 and nozzle 12; in tube 11 gas is subjected to temperature separation into cold gas discharged to consumer through branch pipe 14 and hot gas directed to jet apparatus through branch pipes 14 and 6. Heat-transfer agent is delivered and discharged through branch pipes 8 and 7 and cooling agent is delivered and discharged through branch pipes 13 and 15. EFFECT: enhanced reliability. 1 dwg

Description

 The invention relates to energy converters and can be used for heating and supplying coolant for cooling and supplying coolant in agriculture, in construction and in other fields.

 Known heat generator "Ryazan", containing a supercharger, the pressure and suction nozzles of which are connected by a liquid coolant circulation pipe to a jet device located therein with a coolant supply pipe, and also containing a coolant drain pipe located in the area between the pressure pipe and the jet device.

 The purpose of the invention is to increase the efficiency of the heat generator.

 This goal is achieved by the fact that a heat generator containing a supercharger, pressure and suction nozzles of which are connected by a coolant circulation pipe to a jet device located therein with a gas supply pipe, as well as a coolant supply pipe located in the area between the jet device and a suction pipe, and a discharge pipe coolant in the area between the discharge pipe and the jet apparatus, is equipped with a centrifugal or other type mixture separator installed on the circulation pipe carrier between the jet apparatus and the suction pipe and containing the gas pipe, and is also equipped with a vortex tube with a nozzle connected to the gas pipe, and containing a pipe for exhausting cold gas, for example, into the atmosphere, and a pipe for removing hot gas connected to the gas pipe.

 The drawing shows a heat generator.

 The heat generator contains a supercharger 1 with a pressure head 2 and a suction 3 nozzles, a coolant circulation pipe 4, an inkjet apparatus 5 with a gas supply pipe 6, a supply pipe 7 and a heat transfer pipe 8, a mixture separator 9 with a gas pipe 10, a vortex tube 11 with a nozzle 12 and pipes 13 and 14 of the cold gas outlet hot gas 14 and the pipe for the supply gas 15. The movement of flows is shown by arrows.

 The heat generator operates as follows.

 From the supercharger 1 through the discharge pipe 2, the coolant, for example water, is supplied to the jet apparatus 5, where a vacuum is created. Gas (air) is sucked in through nozzles 15 and 6. In the jet apparatus, mixing, an increase in air pressure and temperature, and heat transfer to the coolant (contact heat transfer) occur. In a mixture separator, which may be centrifugal or another type, a flow separation occurs. The coolant (water) through the pipe 3 returns to the supercharger. Air through the nozzle 10 and the nozzle 12 enters the vortex tube 11. There is a temperature separation into cold air, removed through the nozzle 13 into the atmosphere or to a consumer of cold (not shown), and the hot air that passes through the nozzle 14 is mixed with the supply air entering through the nozzle 15, then through the nozzle 6 enters the jet apparatus.

 Heating occurs due to vortex formation and viscous friction in the coolant flow. The additional heat influx is due to the temperature difference between the supply gas entering through the pipe 15 and the cold gas being removed through the pipe 13. The total thermal energy generated by the heat generator exceeds the energy spent on the supercharger drive.

 The use of a heat generator is possible in agriculture (heating, hot water supply, cold supply), in construction (testing of heating systems, drying of premises), etc.

Claims (1)

 A heat generator comprising a supercharger, pressure and suction nozzles of which are connected by a coolant circulation pipe to a jet device located therein with a gas supply pipe, and also containing a coolant supply pipe located in the area between the jet device and the suction pipe, and a heat transfer pipe in the area between the pressure nozzle and jet apparatus, characterized in that it is equipped with a separator mixture with a gas nozzle of a centrifugal or other type mounted on the pipe Gadfly circulation of the coolant between the jet device and the suction pipe and the vortex tube with a nozzle connected to a gas conduit, a cold gas outlet pipe, e.g., the atmosphere, and discharge of the hot gas pipe connected to the gas feed conduit.