Method for installation of an offshore wind turbine foundation monopile

1 .- 23 . (canceled) 24 . A method for installation of an offshore wind turbine foundation monopile in a seabed, the monopile having a foot end, a top end, and a longitudinal axis, the method comprising: supporting the monopile in an upright position with the foot end on the sea floor; and revolving the monopile about the longitudinal axis, such that the monopile makes multiple revolutions while being driven into the seabed. 25 . The method according to claim 24 , wherein the method further comprises using gravitational forces to press the monopile into the soil by providing a weight at the top end of the monopile and/or wherein the method further comprises vibrating the monopile in an axial direction. 26 . The method according to claim 24 , wherein the method further comprises fluidising the soil by injecting water into the soil at the foot end of the monopile, and allowing the fluidised soil to flow away from below the monopile. 27 . The method according to claim 24 , wherein the method further comprises vibrating the monopile in a circumferential direction. 28 . The method according to claim 27 , wherein the frequency of the vibration is between 10 and 500 Hz. 29 . The method according to claim 27 , wherein the vibration device engages an outside surface of the foundation monopile and/or is mounted at the top end onto the monopile. 30 . The method according to claim 27 , wherein there are multiple vibration devices, and the multiple vibration devices are tuned such that they generate an interference pattern comprising peaks that generate a net circumferential displacement in a revolution direction, and thus revolve the monopile about the longitudinal axis of the monopile. 31 . The method according to claim 27 , wherein the vibration is achieved by using a number of individual vibration devices each comprising a hydraulic motor connected to a rotating eccentric mass, and wherein the axis of rotation of the eccentric masses are directed in a radial direction with respect to the monopile, to enable the vibration devices to generate a circumferentially directed vibration force. 32 . An offshore wind turbine foundation monopile, the monopile having a foot end, a top end, and a longitudinal axis, wherein the monopile is configured to be revolved about the longitudinal axis of the monopile during installation of the monopile in the seabed, wherein: the monopile is at the foot end provided with excavating blades for removing soil from below the foundation pile and/or wherein the monopile is at an inside surface and/or an outside surface provided with one or more helical ribs to provide the respective inside and/or outside surface of the monopile with a threading to enable the monopile to be screwed into the seabed and/or to remove soil in an axial direction away from the foot end of the monopile; and/or the monopile is provided with one or more fluidisation conduits extending in the longitudinal direction of the monopile for channeling fluidisation fluid to the foot end of the monopile and with multiple fluidisation fluid nozzles along the circumference of the foot end of the monopile for dispensing jets of fluidisation fluid at the foot end of the monopile during installation of the monopile; and/or the monopile is configured to be engaged by a pile revolver. 33 . The monopile according to claim 32 , wherein the monopile is provided with radially extending teeth for cooperating with driving teeth of a pile revolving drive and/or is provided with seats for one or more vibration devices at the top end of the monopile. 34 . The monopile according to claim 32 , wherein the monopile has a diameter of at least 8 meter, and/or wherein the monopile has a length of at least 30 meter. 35 . The monopile according to claim 32 , wherein the monopile is at the foot end provided with multiple excavation blades, which excavation blades are mounted to a bottom surface of the monopile or to a flange mounted to the bottom end of the monopile, wherein the excavation blades extend at an angle with the circumference of the monopile to force soil in a radial direction away from below the monopile. 36 . The monopile according to claim 35 , wherein the excavation blades alternatingly extend inwards and outwards relative to the circumference of the monopile such that soil is pushed inward and outward during the installation process. 37 . A monopile installation system, the system comprising; a monopile support for supporting the monopile in an upright position with the foot end of the monopile on the sea floor; and a monopile revolver for revolving the monopile about the central axis during installation of the monopile. 38 . The system according to claim 37 , wherein the monopile revolver comprises multiple vibration devices to be mounted on the top end of the monopile or one or more revolvers configured to engage an outside surface of the monopile and enact a circumferential pile revolving force on the outside surface. 39 . The system according to claim 37 , wherein the installation system further comprises: a pile drive for generating an axial pile driving force. 40 . The system according to claim 37 , wherein the installation system further comprises a monopile, the monopile having a foot end, a top end, and a longitudinal axis, wherein the monopile is configured to be revolved about the longitudinal axis of the monopile during installation of the monopile in the seabed, wherein: the monopile is at the foot end provided with excavating blades for removing soil from below the foundation pile and/or wherein the monopile is at an inside surface and/or an outside surface provided with one or more helical ribs to provide the respective inside and/or outside surface of the monopile with a threading to enable the monopile to be screwed into the seabed and/or to remove soil in an axial direction away from the foot end of the monopile; and/or the monopile is provided with one or more fluidisation conduits extending in the longitudinal direction of the monopile for channeling fluidisation fluid to the foot end of the monopile and with multiple fluidisation fluid nozzles along the circumference of the foot end of the monopile for dispensing jets of fluidisation fluid at the foot end of the monopile during installation of the monopile; and/or the monopile is configured to be engaged by a pile revolver. 41 . A vessel provided with the system according to claim 37 .