RU168311U1 - DIRECT BOILER - Google Patents

Abstract

Usage: for the production of saturated steam used for the technological needs of industrial enterprises, as well as heating, ventilation and hot water systems, in mobile boiler plants generating saturated steam for the development of deposits of ultra-viscous oil. Purpose: to create a direct-flow boiler of medium power generating saturated steam in volumes sufficient to develop deposits of extra-viscous oil suitable for use in mobile boiler plants. The essence of the utility model: that the boiler is direct-flow made up of a combustion chamber formed by vertically water-tube blocks made in gas-tight execution, front and rear screens, a burner, convective packages of corridor-mounted membrane coils, separated by inclined membrane panels, as well as from downpipes and a transfer system, connecting convective packages and located outside the combustion chamber. Technical result: design of a once-through boiler meeting the requirements, presented removable to boilers used in mobile mobile installations.

Description

The proposed technical solution is intended for use in mobile boiler plants generating saturated steam for the development of deposits of extra-viscous oil. However, this does not exclude its use in other industrial, heating and energy boiler houses equipped with medium power boilers.

Direct flow boilers with forced circulation are known in the power system; see, for example, FIG. 20-23 and description on pages 47-57 "Engineering. Encyclopedic Reference »Volume 13 of the State Scientific and Technical Publishing House of Engineering Literature. Moscow. 1947. 732 pages. The reference book describes direct-flow energy water-tube boilers with a capacity of up to 200 t / h, steam pressure from 3.5 to 14.0 MPa and a temperature from 425 ° C to 510 ° C with a highly developed screen heating surface. Such boilers are stationary units of high productivity and, therefore, their design features cannot be applied in boilers used in mobile boiler plants. In connection with these circumstances, the design of the proposed once-through boiler has no analogues in domestic and foreign boiler building.

The objective and technical result of the technical solutions proposed in the claimed boiler is the creation of a direct-flow boiler of medium power that produces saturated steam in volumes sufficient to develop deposits of super-viscous oil suitable for use in mobile boiler plants. Installation of the boiler at the construction site is greatly facilitated.

The specified technical result is achieved due to the fact that the direct-flow boiler is made up of a combustion chamber formed by vertically water-tube blocks made in gas-tight execution, front and rear screens, a burner device, convective packages of corridor-mounted membrane coils, separated by inclined membrane panels , as well as from downpipes and a transfer system connecting convective packets to each other and located outside the combustion chamber.

The essence of the claimed utility model is that it combines the above technical solutions aimed at creating a once-through boiler design that meets the requirements for boilers used in mobile mobile units.

Because the specified technical result can be obtained only by combining all the essential features of the claimed utility model and the closest analogues of the claimed once-through boiler is not identified, the utility model formula is made without dividing the paragraph into restrictive and distinctive parts.

The essence of the claimed technical solution is illustrated by drawings on 3 sheets on which are schematically shown: in FIG. 1 is a general view of the boiler; FIG. 2 is a longitudinal section through the boiler; FIG. 3 is a cross-sectional view thereof, indicated in FIG. 1 letters AA. The numbers in the drawings indicate: 1 - the combustion chamber, 2 - the vertical water tube blocks, the front 3 and rear 4 screens, 5 - the burner device, 6 - convective packages from the corridor-mounted membrane coils, separated by inclined membrane panels 7. The boiler down pipes marked pos. 8, transfer system - 9. The boiler is made in a horizontal layout with a sequential arrangement of the combustion chamber and convective heating surfaces.

The boiler is operated as follows.

When fuel is burned in the combustion chamber 1, the flue gases give off heat to the gas-tight panels of the screens 3 and 4, as well as to the vertical-water tube blocks 2. Water is supplied to the individual elements of the heating surfaces of the boiler with a feed pump in an amount corresponding to the amount of steam generated in them. Lowering movement of the steam-water medium occurs in lowering unheated pipes 8. Convective bags 6 serve to increase the temperature of the steam generated in the boiler to a predetermined value. The movement of the medium in convective heating surfaces is lifting, countercurrent, organized by a transfer system 9. For an additional possibility of regulating the temperature of the steam, an injection of feed water between the convective heating steps is laid.

The technical solutions used in the boiler make it possible to best use it not only in mobile boiler plants that produce saturated steam for the development of super-viscous oil deposits, but also for the production of saturated steam used for the technological needs of industrial enterprises, as well as heating, ventilation and hot water systems.

According to the claimed technical solution, OJSC “BiKZ” developed a boiler delivered in block execution, with the possibility of transportation both by rail and road. To increase the efficiency of the boiler installation, a tubular air heater is optionally supplied as a separate unit.

Claims (1)

The direct-flow boiler, consisting of a combustion chamber formed by gas-tight vertical-water tube blocks, front and rear screens, a burner device, convective packages from corridor-mounted membrane coils separated by inclined membrane panels, as well as from downpipes and a transfer system connecting convective packages and located outside the combustion chamber.

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