DE102014213427A1 - Deep foundation pile for offshore structures with sound-reducing effect - Google Patents

Abstract

The invention relates to deep foundation piles for offshore structures with sound-reducing effect when driving. The deep foundation piles are characterized in particular by a reduction of the sound produced during insertion as far as possible. For this purpose, a tubular inner shell is arranged at a distance in a tubular outer shell. Furthermore, located in the space between the inner and outer shell, a body made of a cement-poor concrete or a cement-free concrete or a fiber composite material.

Description

The invention relates to deep foundation piles for offshore structures with sound-reducing effect when driving.

Depending on their incorporation, piles are known as pressed-in piles, screwed-in piles, bored piles or driven piles.

Pressed piles are pressed into the ground by means of hydraulic presses and food pieces. Turned piles require a lot of effort when screwing into the ground.

Drilled piles are steel pipes drilled into the ground. The earth is removed from the interior of the pipe and concrete is introduced into the cavity formed by the pipe. Such a solution is inter alia by the document DE 196 41 422 A1 Method for producing a concrete boring pile known.

Rammpfähle are simple piles with a uniform cross-section, piles with an enlarged foot or composite piles, which are composed for example of large pile lengths during ramming of prefabricated partial lengths of different cross-sections. For example, by the document DE 28 23 269 A1 Such piles in the form of steel piles known. In the publication DE 10 2005 003 972 A1 as the foundation of an offshore wind turbine with Seilabspannung is pointed to such a solution.

These piles used for deep foundations in the offshore area have only a low material damping and thus contribute to a high noise emission.

The specified in claim 1 invention has for its object to reduce the depth caused by the introduction of deep foundation piles sound as much as possible.

This object is achieved with the features listed in claim 1.

The deep-foundation piles for offshore structures are characterized in particular by the greatest possible reduction in the sound produced during introduction.

For this purpose, a tubular inner shell is arranged at a distance in a tubular outer shell. Furthermore, located in the space between the inner and outer shell, a body made of a cement-poor concrete or a cement-free concrete or a fiber composite material.

For the construction of offshore structures, for example in the form of wind turbines, extensive foundations have to be built. At water depths between 30 m and 50 m, monopiles (one post), tripods (three piles) or jackets (four piles) are the types of foundations used. For the protection of marine mammals, which can be demonstrably damaged by excessive underwater sound resulting from ramming, binding noise limits are set when ramming offshore foundations. In Germany, for example, this is a precautionary value of 160 dB SEL at a distance of 750 m to the emission source.

With the deep foundation piles advantageously the primary sound insulation is placed in the foreground, whereby already the emergence of the sound emission is reduced. At the same time advantageously a lightweight construction pile support plant for deep foundations of offshore structures is provided.

Basically, piles are to be differentiated according to their incorporation into driven piles, pressed-in piles, turned-in piles or bored piles.

Rammpfähle are simple piles with a uniform cross-section, piles with increased foot and composite piles, which are composed for example of large pile lengths during ramming of prefabricated partial lengths of different cross-sections. Decisive for the type of pile are the compactability of the soil and the displacement volume of the pile. At axial load circular or square cross sections are particularly favorable. With an additional load in one axis, for example in a side pressure load or bending of the inclined piles due to dead load, also piles with a rectangular or L-shaped cross section are used.

Pressed piles are pressed into the ground by means of hydraulic presses and food pieces.

Turned piles require a lot of effort when screwing into the ground.

Drilled piles are steel pipes drilled into the ground. The earth is removed from the interior of the pipe and concrete is introduced into the cavity formed by the pipe.

Steel piles used for deep foundations in the offshore sector have only a low material damping and thus contribute to a high noise emission. The deep foundation piles are characterized by their highly load-bearing and at the same time sound-reducing lightweight structural components. These components formed as a composite material are arranged in a form between thin-walled shells, which serve as inner and outer jacket tubes. In addition to noise-reducing effects, a high impact resistance is achieved at the same time. In particular, the excellent damping properties of the core structure in the form of the body of a cement-poor concrete or a cement-free concrete or a fiber composite material contribute to significantly reduce the noise emission in the production of deep foundation piles. At the same time, the core structure is used in conjunction with the inner and outer shell structures for load transfer into the deep subsoil. By means of the arrangement of the jacket pipes, a hindrance in the transverse expansion and thus a three-dimensional stress state is generated in the body, which increases the load capacity. This allows the introduction of increased compressive forces into the core structure.

During the piling process, especially high longitudinal compressive forces occur, at the load transfer of which the structural components participate according to their stiffness distributions. In the later operating state, there is a superposition of longitudinal compressive forces with significant bending moments from the clamping action of the pile structure. This results in areas of high tensile forces in cross section, which can be removed especially by the body and the inner and outer jacket pipes.

Advantageous embodiments of the invention are specified in the claims 2 to 9.

According to the embodiment of claim 2, the end portion of the inner or outer shell is guided in the direction of the tip of the deep foundation pile to the outer shell or inner shell or the end portions of the inner and outer shell in the direction of the tip of the Tiefgründungspfahls merged or has the deep foundation pile on an annular tip , The tip thus provided facilitates the introduction of the deep foundation pile. The annular tip can also be a separate tip, for example made of steel, which is connected by a device to the outer shell, the inner shell and the body.

According to the embodiment of claim 3, the deep foundation pile is a pipe with a circular, a polygonal or an oval cross-section. In particular, the excellent damping properties of an annular core structure in the form of the body contribute to significantly reduce the noise emission during introduction of the deep foundation pile. At the same time, the body is used as a core structure in conjunction with the inner and outer shell structures of the inner and outer tube for load transfer into the deep subsoil. By means of the arrangement of the jacket pipes, a hindrance in the transverse expansion and thus a three-dimensional stress state is generated in the body, which increases the load capacity. This allows the introduction of increased compressive forces into the core structure.

The inner and outer shell are made according to the embodiment of claim 4 conveniently made of a metal or plastic.

The body consists according to the embodiment of claim 5 of a geopolymergebundenen concrete with or without fibers.

Binders may consist of mineral industrial residues, which are excited by an alkaline activator and referred to as alkaline activated binder systems or as Geopolymerbinder. Such concretes are sound-reducing lightweight building materials, which are characterized by a high compressive strength.

The tensile strength of the concrete can be increased by the use of fibers. The fibers also have a favorable effect on the impact resistance. A fiber-reinforced matrix represents the basic structure of a pressure- and impact-resistant pile structure.

The concrete is according to the embodiment of claim 6, a matrix having at least one geopolymerischen silicate binder. These are watertight, shrink-free and environmentally friendly. An amorphous silicate gel forms in the hardened matrix of the binder. Due to the three-dimensional cross-linking of the silicate structures, high compressive strengths combined with high flexural strength can be achieved.

The aggregate is according to the embodiment of claim 7 quartz sand, crushed sand, quartz gravel, grit, a blasted grit each individually or in a combination. In particular, when using a blown grain, the sound-reducing effect can be increased.

Advantageously, the post according to the embodiment of claim 8 consists of sections of the same or different cross-section. This also long deep foundation piles can be realized. The individual sections can for this purpose have connecting elements and connecting devices with a sound-reducing effect.

The post is according to the embodiment of claim 9 in the ground by ramming, shaking, pressing, drilling, vibration or a Combination of pile to be introduced and thus introduced.

An embodiment of the invention is illustrated in principle in the drawings and will be described in more detail below.

Show it:

1 a deep foundation pile in a front view,

2 a deep foundation pile in a plan view and

3 an end region of a deep foundation pile in a sectional view.

A deep foundation pile 1 For offshore structures with sound-reducing effect when driving in, essentially consists of a tubular inner shell 3 , a tubular outer shell 2 and a body 4 from a cement-free concrete with or without fibers.

The 1 shows a deep foundation pile in a basic front view and the 2 a deep foundation pile in a basic plan view.

The tubular inner shell 3 is spaced in a tubular outer shell 2 arranged. The bowls 2 . 3 Conveniently consist of a steel as a metal.

In the space between the inner shell 3 and the outer shell 2 is the body 4 with the cross section in the form of a circular ring. In embodiments, the shape of the cross section may also be a conic or a polygon. The body 4 consists of a concrete with at least one geopolymer as binder. The fibers may be steel and / or carbon fibers.

The end region of the inner shell 3 or the outer shell 2 is towards the top 5 of the deep foundation pile 1 to the outer shell 2 or inner shell 3 guided or are the end portions of the inner shell 3 and the outer shell 2 towards the top 5 of the deep foundation pile 1 merged. In addition, the deep foundation pile can 1 an annular tip 5 exhibit.

The 3 shows an end portion of a deep foundation pile 1 in a schematic sectional view.

The deep foundation pile 1 is a deep foundation pile to be inserted into the ground by ramming, shaking, pressing, drilling, vibrating, or a combination thereof 1 ,

In a further embodiment, the deep foundation pile 1 from sections of the same or different cross-section.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 19641422 A1 [0004]
• DE 2823269 A1 [0005]
• DE 102005003972 A1 [0005]

Claims (9)

Deep foundation pile for offshore structures with sound- reducing effect when driving in, characterized in that a tubular inner shell ( 3 ) spaced in a tubular outer shell ( 2 ) is arranged and that in the space between the inner shell ( 3 ) and the outer shell ( 2 ) a body ( 4 ) is made of a low-cement concrete or a cement-free concrete or a fiber composite material. Deep foundation pile according to claim 1, characterized in that the end region of the inner shell ( 3 ) or the outer shell ( 2 ) towards the tip ( 5 ) of the deep foundation pile ( 1 ) to the outer shell ( 2 ) or inner shell ( 3 ) is guided or that the end portions of the inner shell ( 3 ) and the outer shell ( 2 ) towards the tip ( 5 ) of the deep foundation pile ( 1 ) or that the deep foundation pile ( 1 ) an annular tip ( 5 ) having. Deep foundation pile according to claim 1, characterized in that the deep foundation pile ( 1 ) is a tube with a circular, a polygonal or an oval cross-section. Deep foundation pile according to claim 1, characterized in that the inner shell ( 3 ) and the outer shell ( 2 ) consist of a metal or a plastic. Deep foundation pile according to claim 1, characterized in that the body ( 4 ) consists of a geopolymergebundenen concrete with or without fibers. Deep foundation pile according to claim 5, characterized in that the concrete is a matrix with at least one geopolymerischen silicate binder. Deep foundation pile according to claim 1, characterized in that the aggregate is quartz sand, crushed sand, quartz gravel, chippings, a blown grain each individually or in a combination. Deep foundation pile according to claim 1, characterized in that the deep foundation pile ( 1 ) consists of sections of the same or different cross-section. Deep foundation pile according to claim 1, characterized in that the deep foundation pile ( 1 ) a deep foundation pile to be introduced into the soil by ramming, shaking, pressing, drilling, vibration or a combination thereof ( 1 ).

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