RU59219U1 - WATER-OIL HEATER - Google Patents

Abstract

The utility model relates to the field of heat energy and can be used in boiler rooms with hot water boilers. A water-oil heater is proposed, including a distribution water chamber with heating water inlet and outlet nozzles, a housing with fuel oil inlet and outlet nozzles, a pipe system with partitions, a small water chamber and a removable housing part in which pipes of the pipe system are fixed in tube plates, supporting and guiding the flow of the septum is located at equal distances from each other, the ends of the anchor connections are connected to the large and small pipe boards, in addition, the small water chamber is made floating and attached to the small rubnoy board via the flange, wherein the water distribution chamber is provided with a diametral septum. The claimed solution allows to solve the problem of heating fuel oil in boiler rooms with hot water boilers, to increase the efficiency, reliability and maintainability of the fuel oil heater by using the reversed flow pattern (fuel oil in the annulus, water in the pipes), simplifying the design of the chambers (only one diametrical partition is required in the distribution water chamber, and, accordingly, one groove in the tube plate, in which the gasket for sealing is placed), the use of a floating water chamber, which ensures compensation of temperature stresses in the casing-pipe system, the possibility of removing the tube bundle from the casing, a combined method of securing the pipes in tube plates (welding in combination with flaring), a multi-way circuit for the movement of fuel oil, which contributes to the intensification of heat transfer.

Description

The utility model relates to the field of heat energy and can be used in boiler rooms with hot water boilers.

Known sectional steam fuel oil heater design PKB Bashkirenergo, consisting of 16-25 sections, connected in series in pairs using pipes for supplying heating steam and condensate drain, and for fuel oil with kalach, each of which is a heater that includes front and rear fuel oil chambers , casing-pipe system with rigidly fixed tube plates. (V.A. Permyakov, E.S. Levin, G.V.Divova. Viscous fluid heat exchangers used in power plants. L .: Energoatomizdat. 1983. Fig. 3.2, p. 88).

The disadvantages of the known heater are the complexity of mechanical cleaning due to the large number of detachable joints, heat loss and pressure in kalach.

A horizontal steam fuel oil heater of type PM is known, including a distribution fuel oil chamber, a rear fuel oil chamber, a casing-pipe system with rigidly fixed tube plates, support and directing steam flow baffles, heating steam supply pipes, condensate drain, fuel oil input and output, in which fuel oil makes 12 strokes in the pipes, and heating steam is fed into the annulus. (Yu.G. Nazmeev. Fuel oil facilities of thermal power plants. M: Publishing House MPEI. 2002. Fig. 9.4, p. 360).

This well-known technical solution is the closest to the proposed and taken as a prototype.

The disadvantages of the known heater, taken as a prototype, are complex in configuration and require simplification to reduce the likelihood of idle fuel oil spillages, arrangement of partitions in chambers, grooves in tube boards for placement of gaskets and, accordingly, seal contours (broken lines with a large number of right angles, in of which the sections of grooves and gaskets are connected), significant hydraulic resistance of the fuel oil tract due to its large extent, leading to a decrease in thermal efficiency and contributing to the processes of sludge deposition on the inner surface of the pipes, the lack of compensation of temperature stresses in the shell-pipe system, the difficulty of cleaning, inspecting and repairing pipes due to the inseparable execution of the shell-pipe system, significant dimensions, high metal consumption, insufficient hydraulic density of the fuel oil cavity and as a result, contamination of the heating steam condensate.

The claimed solution allows to solve the problem of heating fuel oil in boiler rooms with hot water boilers, to increase the efficiency, reliability and maintainability of the fuel oil heater by using the reversed flow pattern (fuel oil in the annulus, water in the pipes), simplifying the design of the chambers (only one diametrical partition is required in the distribution water chamber, and, accordingly, one groove in the tube plate, in which the gasket for sealing is placed), the use of a floating water chamber, which ensures compensation of temperature stresses in the casing-pipe system, the possibility of removing the tube bundle from the casing, a combined method of securing the pipes in tube plates (welding in combination with flaring), a multi-way circuit for the movement of fuel oil, which contributes to the intensification of heat transfer.

A water-oil heater is proposed, including a distribution water chamber with heating water inlet and outlet nozzles, a housing with fuel oil inlet and outlet nozzles, a pipe system with partitions, a small water chamber and a removable housing part in which the pipe system pipes are fixed in the pipe

boards, the supporting and flow-guiding partitions are located at equal distances from each other, the ends of the anchor connections are connected to the large and small pipe boards, in addition, the small water chamber is made floating and connected to the small tube board by means of a flange, while the distribution water chamber is provided with a diametrical septum.

In Fig.1 shows a water-oil heater, a General view; figure 2 is a section aa in figure 1.

The oil-water heater includes a distribution water chamber 1 with nozzles for the inlet 2 and outlet 3 of heating water, a housing 4 with nozzles for the inlet 5 and outlet 6 of fuel oil, a pipe system 7 with partitions 8, a small water chamber 9 and a removable part of the housing 10, in which the pipes of the pipe system 7 are fixed in the large 11 and small 12 tube boards, the supporting and flow guiding partitions 8 are located at equal distances from each other, the ends of the anchor connections 13 are connected to the tube boards, in addition, the small water chamber 9 is made floating and attached to small tube plate 12 by means of a flange, while the distribution of the water chamber 1 is provided with a diametrical partition 14.

Water-oil heater works as follows.

The heating water through the pipe 2 enters the distribution water chamber 1, from which - into the pipes of the first stroke of the pipe system 7, then enters the floating small water chamber 9, turns in it and returns to the distribution water chamber 1 through the pipes of the second stroke, from where it is discharged through branch pipe 3. Heated fuel oil through the pipe 5 enters the housing 4, makes several moves around the baffles 8 of the pipe system 7, and through the pipe 6 is removed from the heater.

Claims (1)

A water-oil heater, including a distribution water chamber with heating water inlet and outlet nozzles, a housing with fuel oil inlet and outlet nozzles, a pipe system with partitions, a small water chamber and a removable housing part, characterized in that the distribution water chamber is provided with a diametrical partition.