SU922300A1 - Pumping station power unit - Google Patents

Description

(5) POWER PLANT PUMP STATION

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The invention relates to the field of mechanical engineering, namely engine building, in particular to the implementation of liquid cooling systems for internal combustion engines.

Power plants of a pumping station are known, containing an internal combustion engine, an associated pump for supplying outboard water to a supply line and a coolant circulation circuit, including a liquid-liquid cooler and engine-cooled cavities, as well as pipelines with a thermostatic valve and a circulation pump. one .

However, the heat exchange of a liquid-liquid cooler installed behind the floating pumping station below the waterline is low, since the pipeline of the refrigerator is overgrown with water and corrodes.

The aim of the invention is to increase the efficiency of the power plant.

To achieve this goal, in a power plant of a pumping station containing an internal combustion engine, an associated pump for supplying seawater to a supply line and a circuit for circulating a cooling fluid through cooling cavities, including a circulation pump, pipelines with a thermostatic valve, and a fluid cooler. 10 liquid, the latter is made in the form of two-way spiral channels formed by the ribs placed outside the supply line and covered by a sealed casing, and

An IS of one spiral through the bypass holes communicates with the internal cavity of the line, and the other with the coolant circuit.

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FIG. 1 shows a liquid cooling system for an internal combustion engine of a pumping station,

general form; in fig. 2 — node 1 in FIG. 1. (refrigerator section).

The coolant circulation circuit through the cooling cavities of the engine 1 of the internal combustion of pumping station 2 consists of a cooler 3 mounted on the flow line k of the pumping station 2 and hydraulically connected by pipelines 5 and 6 to the thermostatic valve 7 and the circulation pump 8 providing forced circulation of the fluid . A cover 9 is provided for pouring fluid into the system. A seawater supply pump 10 transfers water from the reservoirs to the consumer.

Refrigerator 3 of the cooling system is made in the form of two adjacent and isolated from each other spiral channels 11 and 12, formed by screw ribs 13 around the supply line i with an airtight casing I covering these ribs and plugged with flanges 15. On the casing H is installed, there are two fittings 16 and 17, respectively, for the entry of a cooled liquid, and in the supply line k of the pumping station 2, two bypass holes 18 and 19, respectively, are provided for the inlet and outlet of the cooling liquid.

Power installation of the pumping station operates as follows.

When the thermostatic valve 7 is opened, the cooling liquid from the cooling cavities is circulated by means of a pump 8 through the tubes of the refrigerator 3, where it is cooled and then returned to the engine cavity.

Cooling the liquid in the refrigerator is as follows.

The hot fluid passes through the nozzle 1b, and the pumped water through the inlet 18 of the feed line C of the pump 10 and then moves in parallel in the spiral channels 11 and 12, interacting through the metal fins 13 and the feed line. Then the cooled liquid through the nozzle 17 enters the engine 1, and the water through the outlet 19 into the cavity of the supply line k.

Thus, the heat exchange of the cooling system fluid is carried out by the water pumped by the pumping station, under conditions that prevent the vegetation of the spiral pipe from growing by the flies, increasing the efficiency of the power plant.

Claims (1)

Invention Formula The power plant of the pumping station, comprising an internal combustion engine, an associated pump for supplying seawater to the supply line and a coolant circuit, including a liquid-liquid type cooler and engine cavities, as well as pipelines with a thermostatic valve and a circulation pump, characterized in that, in order to increase efficiency, the refrigerator is made in the form of two-way spiral channels formed by ribs placed outside the supply line and covered They are sealed by a hermetic casing, with one run of the helix through the bypass holes communicating with the internal cavity of the line, and the other with the coolant circuit. Sources and information taken into account in the examination I. The system of machines for the integrated mechanization of agricultural production for 1976-80. Part 3. Izd-vo TsNIITEI for Land Reclamation, 1976, JC. 265.