SU802722A1 - Heat supply unit - Google Patents

Description

The invention relates to energy and can be used for heating and supplying hot fluid to residential buildings and industrial premises based on the use of thermal energy extracted from a geothermal well.

A known installation for heat supply, which has a tag-exchanger connected to the geothermal well connected to the geothermal well with a heating medium, equipped with a 5W1M feed and discharging nozzles and connected forward and return lines to the heat network fl.

The disadvantage of the described installation for heat supply is reduced. cost effectiveness due to the need for an additional source of energy to circulate the heated medium through its path.

The purpose of the invention is to increase efficiency.

This goal is achieved by the fact that the installation for heat supply is supplied

an injector with displacement chambers of the first and second stages, a heat exchanger included in the path of the heated medium, and a discharge pipe of the path of the heated medium; the displacement chambers of the first and second steps of the injector are connected respectively to the return line of the heat network and the make-up pipe, path of the heated medium between the injector and the heat exchanger.

The drawing shows schematically an installation for heat supply.

The installation for heat sources contains a heat exchanger 2 connected via the heating coolant to the geothermal well 1 with a path 3 of the heated medium equipped with feed and discharge connections 4 and 5, respectively, and connected forward and return lines 6 and 7 respectively to the heat network 8. The installation is supplied also with injector 9 with displacement chambers of the first and second stages. Injector 8

The medium 3 between the heat exchanger 2 and the outlet nozzle 5 of the path 3 of the heated medium is included in the path 3, and the displacement chambers of the first and second stages of the injection 9 are communicated respectively with the return line 7 of the heat network 8 and the water inlet manifold 4, network 8 is connected to the path 3 of the heated medium between the injector 9 and the heat exchanger 2, the Make-up pipe 4 is connected to the source 1O of the heated medium.

Installation for heat works as follows.

The solution from the geothermal well 1 enters as a heating coolant in the heat exchanger 2, where it is cooled to release heat to the heated medium.

The heated medium, for example water, in the heat exchanger 2 is partially evaporated. The steam mixture is directed to injector 9, in the KOTCf oro nozzle it is dispensed. On the return line 7, the first stage of the injector 9 is discharged into the chamber from the heating network 8, but about the syringe pipe 4 is mixed into the chamber (the second, rowceKTqpa 9 steps shchgguyat all the way from its bottom MEET 1O). three streams: the first by path 3 of the heating & em & environment is returned to the test in 2, - to the direct line 6 of the heat network 8, and the third to the outlet S for water supply.

The presence of the first stage of the injector 9 provides a low pressure in the (mixing stage of the second stage, which creates good pressure from the pump).

3 heated medium large volumes of water from the source 1O. In this case, at the outlet of the injector 9, the water has a pressure substantially higher than

at its inlet, which ensures the circulation of the heated medium without the use of an additional energy source. Lastly, an increase in the economy of the heat supply installation is achieved.

Claims (1)

1. US Patent No. 3S8033O, Cl. 165-45, published in 1971.