RU119852U1 - STEAM TUBE BOILER SELF-SUPPORTING BLOCK CONSTRUCTION - Google Patents

Abstract

1. Steam water-tube boiler of a self-supporting block structure with natural circulation of a U-shaped layout with a capacity of 40 to 400 MW, characterized in that the screened furnace and the lower convective bearing (support) blocks are installed on the supports of the furnace pallets and the boiler flue, fixed on the foundation, which eliminates the need to attach them to the metal frame of the boiler. ! 2. Steam water-tube boiler of self-supporting modular structure according to claim 1, characterized in that the steam drum is directly mounted on the shielded boiler furnace. ! 3. A steam water-tube boiler of a self-supporting block structure according to claim 1, characterized by the implementation of movable support connections to compensate for thermal movements. ! 4. Steam water-tube boiler of self-supporting block structure according to claim 1, characterized in that the elements of the boiler are made in the form of panels and blocks in a state of full factory readiness that have passed hydraulic tests at the manufacturing plant.

Description

The utility model relates to energy, in particular, to the design of steam water tube boilers with natural circulation of a U-shaped lineup with a capacity of 40 to 400 MW.

Designs of boilers are known in which all elements: a drum, firebox panels, convective heating surfaces, collectors, lining, pipelines within the boiler, etc., are installed (suspended or supported) on the metal frame of the boiler ("Steam Generators" A.P. Kovalev , N.S. Leleev, T.V. Vilensky, "Energoatomizdat", Moscow 1985, pp. 275-278, Fig. 24.1-24.3; p. 323, 333; "Steam boilers of thermal power plants" M.I. Reznikov, Yu.M. Lipov, Energy Publishing House, Moscow 1981, pp. 187-193, Fig. 21.1-21.4).

Boilers of this design have a metal frame, which is a spatial structure consisting of supporting columns, support beams, trusses and a large number of auxiliary racks and connecting beams.

Due to the use of metal-intensive frame, boilers of this design have large dimensions and weight. Due to the large volume of installation work, the installation period for such boilers is from 10 to 18 months.

The objective of the utility model is to reduce the dimensions and weight of the boiler, as well as reducing the volume and timing of installation work.

The problem is solved:

- a change in the design of the boiler elements, including by eliminating the need for their attachment to the metal frame of the boiler, as well as the implementation of the boiler blocks of the bearing type;

- installation of a shielded firebox and lower convective bearing (support) blocks on the supports of the pallets of the furnace and the flue of the boiler, mounted on the foundation;

- installation of the steam drum directly on the shielded furnace of the boiler;

- the implementation of movable support joints to compensate for thermal displacements;

- manufacture and supply of firebox panels and load-bearing boiler units in a state of full factory readiness, which have passed hydraulic tests at the manufacturer.

A steam tube boiler of a self-supporting block design is shown in Fig. 1, where:

1 - fire chamber pan, 2 - flue gas pan, 3 - shielded fire chamber of the bearing (support) type, 4 - steam drum with supports, 5 - lower support blocks, 6 - convection blocks of the boiler of the bearing (support) type, 7 - superheater 8 - economizer , 9 - a tubular air heater, 10 - a supporting unit for a tubular air heater, 11 - an outer casing, 12 - a supporting firebox frame with supports, 13 - stiffening beams, 14 - a supporting frame for installing a steam drum, 15 - transitional chairs.

The design of the shielded firebox of the supporting (supporting) type 3 is a firebox welded from membrane panels mounted on a supporting frame with supports 12. Stiffening beams 13 are installed along the perimeter of the furnace with a pitch of about 2.5 m. There is a supporting frame 14 for installing steam the drum of the boiler 4. The steam drum of the boiler 4 is made with welded supports for installation on the upper supporting frame of the furnace 14.

The design of convective blocks of the bearing (support) type 6 is blocks with convective surfaces mounted on chilled beams and special supporting structures of the block casing. The casing of the block is made of carbon steel, has vertical and horizontal stiffnesses. To protect against hot gases, convective blocks 6 have internal insulation (fireclay bricks, koalinovaya wool, basalt slabs). The lower convective support blocks 5 have a supporting frame with supports.

The outer casing 11 is a self-supporting structure mounted on a foundation made of steel sheets with a thickness of 3-5 mm and profile rolled products (corners, channels, I-beams).

The installation of the boiler is as follows.

On the prepared foundations, pallets of the furnace 1 and the gas duct of the boiler 2 are mounted, on which transitional chairs 15 are installed, designed to provide compensation for thermal movements.

On the transitional chairs of the firebox pallet, a furnace support frame with supports 12 is mounted, on which membrane panels are mounted in turn, stiffening beams 13 and a support frame for installing the boiler drum 14 are installed (all supports are movable). Then the drum of the boiler 4 is installed, lifting and lowering pipes are mounted.

Convective blocks 6, a superheater 7 and an economizer 8 are sequentially installed on the transitional chairs of the flue gas pan 8. The blocks of the tubular air heater 9 are mounted on the supporting blocks 10 installed on the upper blocks of the economizers 8. Then the remaining elements of the boiler are mounted.

The proposed design allows you to abandon the cumbersome metal-intensive frame, which makes it possible to reduce the dimensions and weight of the boiler by 1.2-1.5 times in comparison with analogues; and the implementation of load-bearing boiler blocks in a state of full factory readiness, taking into account their compact placement (the next block is installed on the previous one, transferring the load to the foundation), can significantly reduce the amount of installation work and significantly reduce installation time.

Claims (4)

1. A steam-tube boiler of a self-supporting block design with natural circulation of a U-shaped assembly with a capacity of 40 to 400 MW, characterized in that the shielded firebox and lower convective bearing (supporting) blocks are mounted on the supports of the pallets of the furnace and gas duct of the boiler, mounted on the foundation, which eliminates the need for their attachment to the metal frame of the boiler. 2. Steam boiler tube self-supporting block design according to claim 1, characterized in that the steam drum is directly mounted on a shielded furnace of the boiler. 3. The steam tube boiler of a self-supporting block structure according to claim 1, characterized in that the movable support joints for compensating for thermal displacements. 4. The steam water tube boiler of a self-supporting block design according to claim 1, characterized in that the boiler elements are made in the form of panels and blocks in a state of full factory readiness, hydraulic tests passed at the factory.