SU593054A1 - Recirculation water supply system - Google Patents

Description

one

The invention relates to the field of power engineering, in particular, to the circulating water supply systems of industrial enterprises.

A known water circulating system for the condensation installation of a steam turbine, comprising a mixing condenser connected via direct and reverse lines to the coolers 1. In order to increase the cooling efficiency during high air temperatures, a storage tank connected to the coolers is connected to the mainlines in parallel with the condenser.

In this system, surface coolers are used, the installation of which is associated with significant amortization costs.

Closest to the invention according to the problem to be solved and the technical essence is the circulating water supply system, which contains a heat exchanger and a cooler with a direct partition and a return line connected to it with a divided partition into a water catchment section and a sprinkler 2 installed above it.

In such a system, it is necessary to install two or more chillers with drainage basins to provide the required water temperature. This leads to an increase in capital construction costs. In addition, the water supply from the first chiller to the subsequent chiller is produced by a continuously running circulation pump, which significantly increases operating costs.

In order to increase the efficiency of the system by reducing capital costs and operating costs, the sections of the pool of the proposed system are communicated with each other by a hole in the lower part of the partition, the irrigator is installed above one of the sections connected to the direct magnet, and the second section is connected to the reverse magnet and through the pump - with irrigator.

The drawing shows schematically the system () of the water supply system.

Heat exchanger 1 is connected by a direct line 2 and a return line 3, a cooler 4 with a catchment basin 5, divided by the 5th partition 6 into sections 7 and 8. A sprinkler 9 is installed above the basin 5. Sections 7 and 8 of the basin are interconnected by a hole 10 in the bottom of the partition 6. The sprinkler 9 is installed above the pool section 8 connected to the direct line 2. The pool section 7 is connected to the return line 3. The line // to the pump 12 and the flow regulator 13 connects the section 7 to the sprinkler 9. On my line 2 is installed pump M and controller consumption 15.

The system works as follows.

Circulating water after the heat exchanger / enters on the return line 3 to section 7 of pool 5, in which water previously cooled in cooler 4 is located. When the temperature of atmospheric air is lower than the calculated one, section 7 accumulates water with a temperature lower than that required for supply to the heat exchanger 1. Hot water from section 7 is mixed with cold water in section S and increases its temperature. At this time, the kosos 12 is disconnected, and water is not supplied to the sprinkler 9. When the water temperature in section 8 rises BEFORE the maximum set temperature of chilled water supplied to heat exchanger L, turn on pump 12, n supply fresh water from section 7, diluted to the design temperature with water from section 5, to sprinkler 9 and further to cooler 4.

The capacity of pump 12 must be somewhat greater than the capacity of pump 14 to create a difference in water levels in sections 7 and 5, ensuring that the chilled water flows from section S to section 7.

The described system provides the supply of water of the desired temperature to the heat exchanger.

without installing multiple chillers, which reduces capital costs, and occasional water supply to the chiller reduces operating costs. five

Formula of invention

A circulating water supply system containing a heat exchanger, a pump and a direct-return chiller connected to it with a divided partition into a catchment basin and an irrigator installed above it, in order to improve efficiency,

The 5 sections are interconnected by a hole in the lower part of the partition, the sprinkler is installed above one of the sections connected to the forward line, and the other section is connected to the return line and through the pump to the irrigator.

Sources of information taken into account in the examination:

5 1 Author's certificate number 484377, cl. F 28 B 9/06, 1972.

2. German Patent No. 311678, cl. 17e, 2/32, publ. 1916.

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