SU1763798A1 - Device for water heating - Google Patents

Abstract

Usage: power system, water heating in steam turbine plants. The essence of the invention: the heat exchanger 1 is made four-way, which allows its work both in two-way and four-way scheme. The installation contains a bypass pipeline (T) 9 with a control valve 10 connected to the inlet T5 and the outlet T7. The latter are connected to chambers 2 and 3 of the first and fourth moves respectively. Additional T 6 is connected to the camera 4 of the second and third moves. The bypass T 9 is connected to the outlet T 7 after the point of connection of the additional T 6. The change of the heat flow in the heat exchanger 1 is carried out by means of a control valve 10 1 silt (L o co 00

Description

The invention relates to a power system and can be used in heat supply systems and regenerative heating of water of steam turbines of power plants.

A device for heating water is known, which contains an apparatus with a tubular heat exchange surface, and a throttling device is installed at the inlet of the apparatus, thereby providing the necessary heating of water in the apparatus (1).

A known installation for heating water comprises a heat exchanger with three water chambers with nozzles connected to supply, exhaust and additional pipelines, the last of which is connected to the discharge pipe, and bypass to the supply pipe

(2).

The disadvantage of the installation is the relatively low heat exchange efficiency due to the deposition on the walls of the pipes and the efficiency, as well as difficult operation.

The aim of the invention is to increase the efficiency of heat exchange by preventing deposits, improving efficiency by reducing energy costs and simplifying operation.

This goal is achieved by the fact that the installation for heating water, containing a heat exchanger with three water chambers with nozzles connected to supply, exhaust and additional pipelines, the last of which is connected to the discharge pipe and bypass to the supply pipe, additionally contains a bypass a pipeline with a regulating valve connected to the inlet and outlet pipelines, the overflow pipeline being connected to the last one after the point of connection of the additional pipes wires.

The invention will regulate the heat flow in the heat exchanger with only one control valve, and reduce the flow resistance, which makes the system more economical. Keeping the rate of heated water in the heat exchanger pipes to less than 0.5 from the nominal while reducing its flow to 0.25 from the nominal reduces the risk of contamination of the internal surface of the heat exchange surface, which will increase the thermal efficiency of the heat exchanger and reduce the operating costs of cleaning the pipe system.

The drawing shows an installation for heating water.

The installation for heating water comprises a heat exchanger 1 with three water chambers 2, 3 and 4 with nozzles. Chamber 2 of the first stroke is connected to the supply pipe 5, chamber 4 of the second and third moves is connected to the additional pipeline 6, and chamber 3 of the fourth stroke is connected to the discharge pipeline 7. The additional pipeline 6 is connected to the exhaust pipe 7, and Silas 8 - to pipelines 5 and 7. The installation additionally contains a bypass pipeline

9 with a control valve 10 connected to the inlet pipe 5 and the outlet pipe 7, the latter bypass pipe 9 being connected after the connection point of the additional pipe 6. In addition, the heat exchanger 1 contains a tubular heating surface 11 and nozzles 12, 13 and 14 respectively steam inlet, air exhaust and condensate outlet

Pipelines 5, 6 and 7 are equipped with valves 14, 15 and 16, respectively, and bypass 8 with valve 17.

When the plant operates according to a two-way flow of water in the pipes and at a nominal flow rate of heated water through the heat exchanger 1, the control valve 10 is closed, and the water through the valves 14 and 17 with the valve 16 closed enters two streams into the heat exchanger 1 and through the additional pipeline 6 is removed from the apparatus. The hydraulic resistance in this mode consists of the hydraulic resistances of the pipelines 5 and 8 and the valves 14, 15 and 17.

When the heat exchanger 1 is working according to the four-way water flow pattern, the entire flow of heated water through the pipeline 5 through the valve 14 enters the chamber 2. Then the water flow makes four strokes and

through the discharge pipe 7 is discharged from the heat exchanger 1. To the consumer, the valves 15 and 17 are closed.

If necessary, reduce the heat output of the heat exchanger

reduce the consumption of heated water. To do this, open the control valve 10 on the overflow pipe 9. When the flow rate is reached, and, therefore, the Velocity is not in the pipes of the heat exchange surface 11 0.5 of the nominal flow rate, the heat exchanger 1 is transferred to work in a four-way water flow pattern. In this case, the valves 15 and 17 are closed and the valve 16 opens. Water velocity

rises to nominal further

517637986

Claims (1)

reduction of water consumption is carried out by re-raising the heat exchange efficiency of the damping valve 10. by preventing sediments, improving the efficiency of the invention by reducing the installation for heating water containing-energy costs and simplifying operation, heat exchanger with three water Kame-5, it additionally contains a bypass with pipes connected to the pipeline with a control valve, which inlet, inlet and in addition to the inlet and outlet pipelines, the last of which There are 10 keys after the point of connection, which is in addition to the one-piece pipeline, with the latter connected to the outlet pipeline and the indicated bypass pipeline under the bypass pipe to the inlet pipeline.