A floating module includes an upper half and a lower half. The upper half includes one edge from which a flange extends downwardly, while the lower half includes an opposite edge that includes an upwardly facing flange. Modules can be interconnected to one another by engaging the upper flange from one with the lower flange from another. A cavity and channels are formed in the lower surface of the module such that water will become entrapped in the cavity and channels when the platform is placed in water. Through use of one way check valves positioned in fluid communication with the cavity and channels, a hydro-lock is formed that prevents the water from escaping the cavity and channels while it is placed in water.

A floating module includes an upper half and a lower half. The upper half includes one edge from which a flange extends downwardly, while the lower half includes an opposite edge that includes an upwardly facing flange. Modules can be interconnected to one another by engaging the upper flange from one with the lower flange from another. A cavity and channels are formed in the lower surface of the module such that water will become entrapped in the cavity and channels when the platform is placed in water. Through use of one way check valves positioned in fluid communication with the cavity and channels, a hydro-lock is formed that prevents the water from escaping the cavity and channels while it is placed in water.

A method for constructing a floater for a floatable wind energy power plant includes providing a first pre-assembled part with at least one first connection arrangement, providing a second pre-assembled part with at least one second connection arrangement, arranging the at least one first connection arrangement of the first pre-assembled part proximate to the at least one second connection arrangement of the second pre-assembled part so as to form a connection site which includes at least a part of the at least one first connection arrangement and at least a part of the at least one second connection arrangement, sealingly arranging an enclosure about the connection site so as to seal the enclosure against an ingress of water, and connecting the first pre-assembled part and the second pre-assembled part at the connection site. Each of the first pre-assembled part and the second pre-assembled part are floatable.

A method for constructing a floater for a floatable wind energy power plant includes providing a first pre-assembled part with at least one first connection arrangement, providing a second pre-assembled part with at least one second connection arrangement, arranging the at least one first connection arrangement of the first pre-assembled part proximate to the at least one second connection arrangement of the second pre-assembled part so as to form a connection site which includes at least a part of the at least one first connection arrangement and at least a part of the at least one second connection arrangement, sealingly arranging an enclosure about the connection site so as to seal the enclosure against an ingress of water, and connecting the first pre-assembled part and the second pre-assembled part at the connection site. Each of the first pre-assembled part and the second pre-assembled part are floatable.

A method for constructing a hull of an offshore structure includes (a) welding a plurality of plates together to form a plate assembly. The method also includes (b) passing the plate assembly through a rolling machine with the plate assembly in a vertical orientation. In addition, the method includes (c) bending the plate assembly into a cylinder during (b). The cylinder includes a pair of circumferentially adjacent free ends. Further, the method includes (d) welding the free ends of the cylinder together after (c) to form a cylindrical external wall.

A method for constructing a hull of an offshore structure includes (a) welding a plurality of plates together to form a plate assembly. The method also includes (b) passing the plate assembly through a rolling machine with the plate assembly in a vertical orientation. In addition, the method includes (c) bending the plate assembly into a cylinder during (b). The cylinder includes a pair of circumferentially adjacent free ends. Further, the method includes (d) welding the free ends of the cylinder together after (c) to form a cylindrical external wall.

A floating dock is constructed from a plurality of dock units with each unit having an interior at least partially filled of empty and recycled beverage plastic bottles. Each unit also includes a non-skid upper surface and means to interconnect adjacent units together.

A floating dock is constructed from a plurality of dock units with each unit having an interior at least partially filled of empty and recycled beverage plastic bottles. Each unit also includes a non-skid upper surface and means to interconnect adjacent units together.

A pallet sled includes a base and a pair of tines extending from the base. A load wheel supports outer ends of each of the tines. A wheel supports the base. At least one motor is configured to drive the base wheel or at least one of the load wheels for driving the pallet sled. The motor may be a hub motor inside the base wheel or the load wheel.

A bar element as a construction element includes strips preferably produced from bamboo and is hollow at least in certain regions. The hollow interior is formed at least in certain sections as a hollow fillet achieved by a plastic and/or resin introduced into the bar elements, using a shaped body movable through the interior. Producing bar elements from interconnected strips ensures that although produced from a natural raw material, the bar elements have a reproducible outer cross section. Using a shaped body movable through the interior to produce the inner cross section also ensures a defined inner cross section of the bar elements, with the result that in turn connections between a plurality of bar elements that are defined by suitable connection elements can be formed. In this way, the bar elements make it possible to produce lattice works, grid constructions, frameworks or other desired structures and/or three-dimensional bodies.