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Offshore wind turbine barrel-in-barrel foundation

An offshore wind turbine and tube-in-tube technology, which is applied in infrastructure engineering, construction, etc., can solve the problems of high construction cost, long pile foundation length, and high requirements for deviation correction of engineering projects, so as to achieve firm and stable structure, convenient installation and construction, and reduced difficulty of deviation correction Effect

Inactive Publication Date: 2015-12-16
TONGJI UNIV ARCHITECTURAL DESIGN INST GRP CO LTD +1
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] At present, for the single pile foundation of offshore wind turbines used in sea areas with a water depth of about 10m, in addition to bearing the horizontal and vertical loads transmitted by the upper structure and the huge overturning moment, it also bears the impact of water flow and waves, resulting in long pile foundations. , deep into the soil and other characteristics
The construction of the offshore single pile foundation is mainly completed by large floating cranes. The heavy foundation, deep soil penetration, and high requirements for deviation correction have resulted in high construction costs, resulting in high construction costs for the project.

Method used

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  • Offshore wind turbine barrel-in-barrel foundation

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Experimental program
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Embodiment 1

[0021] Such as figure 1 and figure 2 As shown, a foundation in the barrel of an offshore wind turbine, which includes an inner steel barrel 1, an outer reinforced concrete barrel 2 located on the outer periphery of the inner steel barrel 1, an outer barrel bottom plate 3 supported on the lower part of the outer reinforced concrete barrel 2, and an outer reinforced concrete barrel 3 located at the inner steel barrel 1 and The reinforcement filling 4 between the outer reinforced concrete cylinders 2, the damping material 5 between the cylinders, and the stone pressing 6 located on the bottom plate of the outer cylinder 3; the upper part of the inner steel cylinder 1 is connected with a steel cylinder flange 7, and the outer A construction maintenance platform 8 for construction installation and routine maintenance is installed on the top of the reinforced concrete cylinder 2 .

[0022] For the above-mentioned offshore wind turbine foundation, a load-bearing well grid beam 9 is...

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Abstract

The invention discloses an offshore wind turbine barrel-in-barrel foundation. The offshore wind turbine barrel-in-barrel foundation comprises an inner steel barrel (1), an outer steel reinforced concrete barrel (2), an outer barrel bottom plate (3), reinforcing filled soil (4), inter-barrel damping materials (5) and pressing stones (6). The outer steel reinforced concrete barrel (2) is located on the periphery of the inner steel barrel (1). The outer barrel bottom plate (3) is supported on the lower portion of the outer steel reinforced concrete barrel (2). The reinforcing filled soil (4) and the inter-barrel damping materials (5) are located between the inner steel barrel (1) and the outer steel reinforced concrete barrel (2). The pressing stones (6) are located on the outer barrel bottom plate (3). A steel barrel flange (7) is connected to the upper portion of the inner steel barrel (1). A construction and maintenance platform (8) for construction installation and routine maintenance is installed on the top of the outer steel reinforced concrete barrel (2). The offshore wind turbine barrel-in-barrel foundation is reasonable in structural design and convenient to install and construct; the embedded depth of the foundation can be reduced greatly, deviation rectifying difficulty is lowered, and manufacturing cost is low; cost of a large floating crane can be saved, and maintenance is convenient.

Description

technical field [0001] The invention belongs to the field of foundations for offshore wind turbines, and in particular relates to a cylinder-in-tube foundation for offshore wind turbines. Background technique [0002] At present, for the single pile foundation of offshore wind turbines used in sea areas with a water depth of about 10m, in addition to bearing the horizontal and vertical loads transmitted by the upper structure and the huge overturning moment, it also bears the impact of water flow and waves, resulting in long pile foundations. , deep into the soil and other characteristics. The construction of offshore monopile foundations is mainly completed by large floating cranes. The heavy foundation, deep soil penetration, and high requirements for deviation correction have resulted in high construction costs, resulting in high construction costs for the project. Contents of the invention [0003] Purpose of the invention: The purpose of the invention is to overcome ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E02D27/44E02D27/42
Inventor 梁峰马逸鹄张明熠
Owner TONGJI UNIV ARCHITECTURAL DESIGN INST GRP CO LTD
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