RU150615U1 - HEAT AND SOUND INSULATING GAS-TURBINE INSTALLATION - Google Patents

Abstract

A casing of a heat and sound insulating gas turbine installation, comprising an outer casing and an inner perforated panel, between which a heat and sound insulating material is placed, characterized in that on the inner surface of the outer casing there are supporting elements for attaching the perforated panel in the form of U-shaped brackets having a notch on the ends of the shelves, rigidly fixed the mentioned ends to the outer casing.

Description

The invention relates to heat and sound insulating housings, in particular to heat and sound insulating housings of gas turbine units, and can be used for thermal insulation and noise protection of gas turbine units of gas pumping units and power plants.

Known sound-absorbing casing of a gas turbine installation according to the patent for invention RU No. 2241843 (publ. 10.12.2004). The casing comprises an outer casing and an inner panel, between which sound-absorbing material is placed. Longitudinal and transverse ribs of a box-shaped profile are formed on the inner wall of the outer casing uniformly on its surface, forming rectangular cells, a shell with longitudinal and transverse partitions is fixed on the ribs, while sound-absorbing material is placed between the shell and the perforated panel in the cells formed by the partitions. The perforated panel is welded to the longitudinal and transverse partitions. The disadvantage of this design is the high material consumption and the possibility of the formation of "thermal bridges" of great length, which affects the thermal insulation characteristics of the casing. This technical solution is selected for the closest analogue of the claimed utility model.

The authors were faced with the task of reducing the material consumption and improving the operational characteristics of the casing of a heat and sound insulating gas turbine installation (hereinafter referred to as the casing) by improving the thermal insulation characteristics.

To achieve the technical result, in the casing containing the outer casing and the perforated inner panel there is a heat and sound insulating material between them, for example, based on fiberglass, on the inner surface of the outer casing there are supporting elements for attaching the perforated panel in the form of U-shaped brackets having shelf ends a recess rigidly fixed to the outer casing by the ends of the shelves.

The execution of the casing with supporting elements in the form of U-shaped brackets with a recess at the ends allows you to significantly reduce the material consumption of the casing compared to the prototype, to improve its thermal insulation performance.

Distinctive features of the proposed device from the above known, closest to it, is that on the inner surface of the outer casing of the casing there are supporting elements for attaching a perforated panel in the form of U-shaped brackets having a recess on the ends of the shelves, rigidly fixed by these ends to the outer case.

The combination of these features allows you to create a design that provides improved operational characteristics of the casing due to improved thermal insulation characteristics, and also reduces material consumption. In addition, such a design is less laborious to manufacture.

The proposed design is illustrated in the drawing.

The figure 1 shows a General view of the U-shaped bracket in axonometric projection, Figure 2 shows a section of a heat and sound insulating casing (section), where 1 is the outer casing of the casing, 2 is a perforated panel of the casing, 3 is a U-shaped bracket, 4 is a heat and sound insulating material, 5 - rivet.

To the outer casing 1 of the casing, a U-shaped bracket 3 is attached by protruding portions of the ends of the shelves by welding, due to the recess, the “thermal bridge” is reduced. When laying the heat and sound insulating material 4 in the casing, it is notched at the location of the U-shaped staples 3 by their size for better fit. The perforated panel 2 of the casing is attached to the U-shaped brackets 3 with rivets 5 or self-tapping screws.

The claimed technical solution of the casing of a heat and sound insulating gas turbine installation can be carried out in industrial production using standard equipment and modern technologies. In the manufacture of the casing of a heat and sound insulating gas turbine installation, standard metal structures, metal rolling, construction materials and fasteners are used.

The authors developed a casing design for a heat and sound insulating gas turbine unit, which was successfully implemented for the Caterpillar Inc. Solar Turbines Mars 100 gas turbine unit. at the manufacturing facility of the applicant.

Claims (1)

A casing of a heat and sound insulating gas turbine installation, comprising an outer casing and an inner perforated panel, between which a heat and sound insulating material is placed, characterized in that on the inner surface of the outer casing there are supporting elements for attaching the perforated panel in the form of U-shaped brackets having a notch on the ends of the shelves, rigidly fixed the mentioned ends to the outer casing.

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