RU2161289C1 - Heat generator - Google Patents

Abstract

FIELD: heating of heat-transfer agents without use of electric, flame and other heaters; heat supply systems in various industries. SUBSTANCE: heat generator includes pump whose suction and discharge branch pipes are connected with heat exchanger by means of pipe line; jet apparatus is connected with suction branch pipe; nozzle of jet apparatus is connected with discharge branch pipe. Nozzle is tangentially mounted in jet apparatus at angle relative to vertical. EFFECT: enhanced efficiency. 2 dwg

Description

 The invention relates to heat engineering, in particular to heating plants operating on the principle of heating without the use of electric, flame and other heaters, and can be used to heat objects in various industries.

 A known heat generator comprising a pump, the suction and pressure pipes of which are connected by a pipe to the heat exchanger located in it and connected to the suction pipe by a jet apparatus with a nozzle connected to the pressure pipe [1].

 A disadvantage of the known device is the lack of heating efficiency and the impossibility of its regulation.

 The aim of the invention is to increase the heating efficiency and provide the ability to control the degree of heating.

 This goal is achieved by the fact that in a heat generator containing a pump, the suction and discharge nozzles of which are connected by a pipe to a heat exchanger placed in it and connected to a suction nozzle by a jet apparatus with a nozzle connected to the discharge nozzle, the nozzle enters the jet apparatus tangentially and is inclined to the vertical, and the angle of inclination may vary.

 In FIG. 1 shows a general diagram of a heat generator; FIG. 2 is a view A from FIG. 1.

 The heat generator includes a pump 1, the suction 2 and pressure 3 nozzles of which are connected by a pipe 4. In the pipe 4 there is a heat exchanger 5 and a jet device 6 connected to the suction pipe 2 of the pump 1. The nozzle 7 includes a nozzle 7 connected to the pressure pipe 3 of the pump 1 .

 The nozzle 7 enters the jet apparatus 6 tangentially and is installed at an angle α with the possibility of its regulation.

 The heat generator operates as follows.

 The pump 1 through the discharge pipe 3 delivers the coolant (for example, water) to the pipe 4 and the nozzle 7. Passing the heat exchanger 5, the heat carrier fills the jet 6 and through the suction pipe 2 is directed again to the pump 1. Heating is carried out by accelerating the coolant located in the jet apparatus 6, the coolant jet exiting the nozzle 7. In this case, due to the tangential location of the nozzle 7 and the resulting centrifugal effect, constant acceleration of the coolant particles in the jet apparatus is carried out, moreover not only linear, but also centripetal, and not only particles trapped by the jet, but also particles “suspended” in the space of the apparatus 6 are accelerated. All this increases the heating medium heating efficiency.

 Thanks to the installation of the nozzle at an angle and the possibility of reinstalling this angle, the heating efficiency either increases or decreases depending on the requirements of the consumer.

 Changing the angle is carried out, for example, by reinstalling the elbow with the nozzle 7.

Sourse of information
1. USSR Author's Certificate N 1703924, F 24 H 3/02, publ. 01/07/92.

Claims (1)

 A heat generator comprising a pump, the suction and discharge nozzles of which are connected by a pipe to a heat exchanger located in it and the jet apparatus connected to the suction nozzle with a nozzle connected to the discharge nozzle, characterized in that the nozzle enters the jet apparatus tangentially and is installed at an angle to the vertical with the possibility adjusting the angle of inclination.

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