RU196782U1 - FLOATING HEAT POWER PLANT, PURPOSING THE OPPORTUNITY OF ITS OPERATION IN ANY CLIMATE CONDITIONS - Google Patents

Abstract

The utility model relates to the field of shipbuilding, concerns the design of a floating thermal power plant to generate electricity with the possibility of its operation in any climatic conditions and solves the problem of ensuring the possibility of operating a floating thermal power plant in any climatic conditions by protecting its deck equipment for generating electricity from adverse weather conditions including atmospheric precipitation, wave flooding and icing. an electric power plant with the possibility of its operation in any climatic conditions, including a pontoon type watercraft and equipment for generating electricity in the form of gas turbines, a steam turbine with a condenser, waste heat boilers, main transformers, a high voltage switchgear, electrical equipment modules and systems, located on its deck automatic control of steam and gas turbines, according to a utility model, is equipped with a rigid shelter installed on the deck of the boat, intended in order to protect the equipment from adverse weather conditions. The shelter contains louvre panels located on its aft and side walls to provide natural ventilation for the shelter cavity. The shelter was collapsible. The proposed floating thermal power plant has the ability to operate in any climatic conditions by protecting its deck equipment from adverse weather conditions, including atmospheric precipitation, from flooding the equipment with waves and icing, as well as design collapsible, which compares favorably with the prototype.

Description

The utility model relates to the field of shipbuilding and addresses the issue of designing a floating thermal power plant to generate electricity with the possibility of its operation in any climatic conditions.

A steam-gas cycle floating power plant is known, including a pontoon-type craft designed to install equipment for generating electricity on board a ship, namely gas turbines, a steam turbine with a condenser, waste heat boilers, main transformers, a high voltage switchgear, as well as electrical equipment modules and automatic control systems for steam and gas turbines (https://assets.new.siemens.com/siemens/assets/api/uuid:9af5ab8c-51e9-4c76-938c-f186bf09b9a4/version:1558441203/technical-info-package-sgt- 800.pdf) - prototype.

However, the said power plant is not designed to operate in the Arctic seas and in Arctic climatic conditions, since it does not protect the equipment installed on the deck from the effects of atmospheric precipitation, icing and other adverse meteorological phenomena.

The objective of the proposed utility model is to enable the operation of a floating thermal power plant in any climatic conditions by protecting its deck equipment for generating electricity from adverse weather conditions, including atmospheric precipitation, from flooding equipment with waves and icing.

To do this, a floating thermal power plant with the possibility of its operation in any climatic conditions, including a pontoon type watercraft and equipment for generating electricity in the form of gas turbines, a steam turbine with a condenser, waste heat boilers, main transformers, a high voltage switchgear, modules, is installed on its deck electrical equipment and automatic control systems for steam and gas turbines, according to a utility model, is equipped with a hard drive mounted on the deck of the craft with a rifle designed to protect the equipment from adverse weather conditions. The shelter contains louvre panels located on its aft and side walls to provide natural ventilation for the shelter cavity. In this case, the shelter is made collapsible.

The implementation of a protective shelter is tough due to the need to ensure the stability of the shelter structure to the external influences of wind meteorological loads on it.

The implementation of a collapsible protective shelter allows it to be used both in arctic climatic conditions and in sultry hot conditions.

The essence of the proposed utility model is illustrated by drawings, where in FIG. 1 is a schematic top view of a floating thermal power plant with cover removed, and FIG. 2 is a general view of a floating thermal power plant designed for its operation in any climatic conditions.

The proposed floating thermal power plant includes a pontoon type 1 vessel, on the deck of which there are equipment in the form of gas turbines 2, a steam turbine with a condenser 3, waste heat boilers 4, main transformers 5, a high voltage switchgear 6, and electrical equipment and steam and gas turbines 7. The floating thermal power plant is equipped with a hard shelter 8 installed on its deck, designed to protect from adverse weather conditions. Equipment of 2, 3, 4, 5, 6 and 7 (FIGS. 1, 2). The rigid shelter 8 comprises louvre panels 9 located on its aft and side walls to provide natural ventilation for the cavity of the shelter 8, and at the same time it is collapsible (Fig. 2).

The operation of the proposed floating thermal power plant in any climatic conditions is as follows.

When operating a floating thermal power plant in severe weather conditions, in the presence of atmospheric precipitation in the form of rain or snow or wet snow, when they stick to unprotected equipment or if it is flooded, the hard shelter 8 installed on the deck of the watercraft 1 provides equipment protection to generate electricity from the negative impact on it of these natural phenomena. At the same time, the louvre panels 9 located on the aft and side walls of the hard shelter 8 provide natural ventilation of the shelter cavity 8, thereby preventing condensation in the hard shelter cavity 8 on the equipment and on the inner walls of the hard shelter 8, as well as the accumulation of natural gas under shelter 8.

When operating a floating thermal power plant in hot and sultry weather conditions, the hard shelter 8 is partially or completely dismantled, thereby ensuring that the equipment on deck is open and not exposed to weather conditions.

The proposed floating thermal power plant has the ability to operate in any climatic conditions by protecting its deck equipment from adverse weather conditions, including atmospheric precipitation, from flooding the equipment with waves and icing, and also performing its collapsible design, which distinguishes it favorably from the prototype.

Claims (1)

A floating thermal power plant with the possibility of its operation in any climatic conditions, including a pontoon type watercraft and equipment for generating electricity in the form of gas turbines, a steam turbine with a condenser, waste heat boilers, main transformers, a high voltage switchgear, electrical equipment modules and automatic control systems for steam and gas turbines, characterized in that it is equipped with a rigid shelter mounted on the deck of the boat a device designed to protect the equipment from adverse weather conditions and containing louvre panels located on its aft and side walls to provide natural ventilation for the shelter cavity, the shelter being made collapsible.

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