SU1245795A1 - Straight-through boiler (versions) - Google Patents

Abstract

1. A boiling boiler containing radiating and convective heating surfaces reported by a bypass line, connected respectively to an outlet pipeline with fittings and to a supply line with a flow regulator connected in the zones before and after the latter downstream using bypasses supplied with regulators , respectively, to the bypass line and the discharge pipeline in the post-reinforcement zone downstream, characterized in that, in order to increase the operational reliability of the filter, 27 eny in radiation heating surface, the circulation line provided with a valve and in the zone between the latter and the convection heating surface is further connected with a locking bridge body to the withdrawn; he pipeline in the zone before the valve downstream. 2. A boiling boiler containing radiating and convective heating surfaces, communicated by an overflow line, connected to an outlet pipeline with fittings and to a supply line with a flow regulator connected in the zone to the last downstream using a bypass equipped with a regulator to an overflow line, characterized in that, in order to increase operational reliability by reducing deposits in the heating radiation surface, the bypass line is provided with a valve, and the discharge pipe is onah before and after the downstream valve is further connected via webs provided with shut-off bodies, respectively, to the bypass line in a region between the bolt and the convection heating surface and the feed network in a zone after the regulator downstream. 22 about $ (L go 4 ate with SP fi

Description

The invention relates to energy and can be used in thermal power plants.

The aim of the invention is to increase the operational reliability of the direct-flow boiler by reducing deposits in the most heat-stressed radiation heating surface by ensuring that it transfers from steam generation to heating water, which reduces the rate of formation of internal deposits in the radiation heating surface.

FIG. 1 shows a variant of a direct-flow boiler with the inclusion of a convective heating surface according to a direct-flow scheme during the period of its transfer to the steam generation mode; in fig. Figure 2 shows a general view of a variant of a direct-flow boiler with the inclusion of a convective heating surface according to a countercurrent scheme during the period of its transfer to the steam generation mode.

The continuous boiler contains the radiation and convective surfaces 2 and 3 reported by the bypass line 1, respectively. The radiation surface 2 is connected to the discharge pipe 4 with armature 5, and the convective surface 3 is connected to the feed line 6 with the flow regulator 7. Line 6 is connected in the zone to the regulator 7 in the course of flow by means of a bypass 8 equipped with a regulator 9 to the bypass line 1 equipped with a valve 10.

In the first embodiment of the flow boiler (Fig. 1), the main line 6 is connected in the zone after the regulator 7 in the course of flow using a bypass 11 equipped with the regulator 12 to the outlet pipe 4 in the zone after the reinforcement 5 in the course of the flow. The bypass line 1 in the zone between the valve 10 and the convective heating surface 3 is connected by a jumper 13 with a shut-off element 14 to the discharge pipe 4 in the zone up to the valve 5 along the stream.

In the second embodiment of the flow boiler (Fig. 2), the discharge pipe 4 in the zone after the reinforcement 5 is connected downstream with a jumper 15 provided with a shut-off member 16 to the bypass line 1 in the zone between the valve 10 and the convective heating surface 3, and in the zone up to the valve 5 downstream the discharge pipe 4 is connected

It is equipped with a jumper 17, equipped with a locking organ 18, to the feed line b in the zone after the regulator 7 in the direction of flow.

In both embodiments of the run-through boiler, the discharge pipe 4 may be connected to a subsequent radiation surface 19 and / or to a superheater (not shown). In this case, the heating surfaces 2 and 19 are located in the furnace 20 with burners 21, and the surface 3 is installed in the convective gap 22.

Prmotrannaya boiler works as follows.

5 At partial loads, when the heat fluxes in the furnace 1 are relatively small, open the regulator 7, the valve 5 and the valve 10, and close the regulator 12, the regulator 9 and the stop valve 14 (in the first embodiment of the boiler) and

0 locking bodies 16 and 18 and the regulator 9 (in the second embodiment of the boiler). In this case, the water entering the boiler through line 6 is heated in the surface 3, and evaporated in the surface 2. Water is bypassed from surface 3 to surface 2 by line 1.

When the boiler loads are close to nominal, when the heat flow in the furnace 20 is relatively high, the regulator 7 is closed, the valve 5 and the valve 10 and the regulator 12 is opened, the regulator 9 and the valve 14 (in the first embodiment of the boiler) and the shut-off valve authorities 16 and 18 and regulatory authority 9 (in the second embodiment of the boiler). In this case, in the first embodiment of the boiler, water passes through a feeding line 6, a bypass 8, a radiating heating surface 2, where water is heated, a jumper 13, a convective heating surface 3, where water evaporates, a bypass 11 and a discharge pipe 4.

0

The transfer of the most heat-induced radiation surface 2 from the evaporation mode to the water heating mode allows not only to significantly reduce the rate of formation of internal deposits in the surface 2, but also provides for flushing with last water, which increases the operational reliability of the flow boiler.

22

18

FIG. 2

Claims (2)

1. A once-through boiler containing a radiating and convective heating surface communicated by a bypass line, connected respectively to a discharge pipe with fittings and to a supply line with a flow regulator connected in zones before and after the last downstream stream using bypasses equipped with regulatory bodies, respectively, to the bypass line and the discharge pipe in the area after the valve along the flow, characterized in that, in order to increase operational reliability by reducing deposits in adiatsionnoy heating surface is provided with a bypass line and the valve in the zone between the latter and the convection heating surface is further connected with a bridge locking body to a recovery line to a reinforcement zone downstream. 2. A once-through boiler containing a radiating and convective heating surface communicated by a bypass line, connected to a discharge pipe with valves and to a supply line with a flow regulator connected in the zone up to the last downstream using a bypass equipped with a regulating body to a bypass line, characterized the fact that, in order to increase operational reliability by reducing deposits in the radiation surface of the heating, the bypass line is equipped with a valve, and the discharge pipe in zones After and before the fittings in the upstream direction, it is additionally connected with jumpers equipped with shutoff bodies, respectively, to the bypass line in the area between the valve and the convective heating surface and to the supply line in the area after the regulator in the upstream direction.