Abstract: A method for fabricating a wind turbine blade shell, wherein the wind turbine blade shell is fabricated in a casting process using a mould and a plurality of shell components, includes the steps of: providing the mould and the plurality of shell components, providing at least one alignment mark at the mould and/or at one or more shell components placed in the mould, providing at least one marker at the position of the at least one alignment mark, and arranging the or further shell components in the mould and casting the wind turbine blade shell.

Abstract: Provided is a rotor blade for a wind turbine, with a trailing edge including a trailing edge core having several core elements arranged side by side, and with an inner and an outer laminate, wherein one core element is split into two element parts separated by a slit, whereby, seen in the direction from a blade root to a blade tip, the inner laminate runs into and through the slit and becomes the outer laminate.

Abstract: Provided is a wind turbine blade for a wind turbine, the wind turbine blade including a root, a tip, a trailing edge, a leading edge and at least two beams including carbon fiber-reinforced plastic and being spaced apart from one another, wherein the at least two beams are arranged in the wind turbine blade in the longitudinal direction of the wind turbine blade at the trailing edge or within a distance of 25% of the width from the trailing edge, whereby the at least two beams are electrically connected to one another by at least one electrically conductive member and at least one of the at least two beams and/or at least one of the at least one electrically conductive member is configured to be connected to a down conductor of the wind turbine.

Abstract: Disclosed are methods, systems, and non-transitory computer-readable medium for deriving platform feedback data from raw feedback data for dynamic retrieval by downstream subsystems. For example, a method may include detecting a return notification trigger of a user, identifying segment data, determining a return notification form identifier based on the segment data, loading an electronic return notification form corresponding to the return notification form identifier, receiving raw feedback data from the user device, deriving platform feedback data from the raw feedback data using a plurality of mappings stored in one or more electronic mapping databases, and storing the platform feedback data in at least one of a feedback service component and a return notification service component, in one or more formats configured for retrieval by one or more downstream subsystems associated with managing and/or analyzing the one or more wearable items.

Abstract: Disclosed are methods, systems, and non-transitory computer-readable medium for deriving platform feedback data from raw feedback data for dynamic retrieval by downstream subsystems. For example, a method may include detecting a return notification trigger of a user, identifying segment data, determining a return notification form identifier based on the segment data, loading an electronic return notification form corresponding to the return notification form identifier, receiving raw feedback data from the user device, deriving platform feedback data from the raw feedback data using a plurality of mappings stored in one or more electronic mapping databases, and storing the platform feedback data in at least one of a feedback service component and a return notification service component, in one or more formats configured for retrieval by one or more downstream subsystems associated with managing and/or analyzing the one or more wearable items.

Abstract: Provided is a rotor blade for a wind turbine, with a trailing edge including a trailing edge core having several core elements arranged side by side, and with an inner and an outer laminate, wherein one core element is split into two element parts separated by a slit, whereby, seen in the direction from a blade root to a blade tip, the inner laminate runs into and through the slit and becomes the outer laminate.

Abstract: Disclosed are methods, systems, and non-transitory computer-readable medium for deriving platform feedback data from raw feedback data for dynamic retrieval by downstream subsystems. For example, a method may include detecting a return notification trigger of a user, identifying segment data, determining a return notification form identifier based on the segment data, loading an electronic return notification form corresponding to the return notification form identifier, receiving raw feedback data from the user device, deriving platform feedback data from the raw feedback data using a plurality of mappings stored in one or more electronic mapping databases, and storing the platform feedback data in at least one of a feedback service component and a return notification service component, in one or more formats configured for retrieval by one or more downstream subsystems associated with managing and/or analyzing the one or more wearable items.

Abstract: Provided is a wind turbine blade for a wind turbine, the wind turbine blade including a root, a tip, a trailing edge, a leading edge and at least two beams including carbon fiber-reinforced plastic and being spaced apart from one another, wherein the at least two beams are arranged in the wind turbine blade in the longitudinal direction of the wind turbine blade at the trailing edge or within a distance of 25% of the width from the trailing edge, whereby the at least two beams are electrically connected to one another by at least one electrically conductive member and at least one of the at least two beams and/or at least one of the at least one electrically conductive member is configured to be connected to a down conductor of the wind turbine.

Abstract: A rotor blade for a wind turbine, having a longitudinal rotor blade base body extending in a longitudinal axis, with the rotor blade base body defining a leading edge and a trailing edge of the rotor blade is provided, wherein the rotor blade base body has a number of panel elements, wherein at least one panel element includes at least one stiffening structure member embedded within the at least one panel element.

Abstract: A rotor blade for a wind turbine, having a longitudinal rotor blade base body extending in a longitudinal axis, with the rotor blade base body defining a leading edge and a trailing edge of the rotor blade is provided, wherein the rotor blade base body has a number of panel elements, wherein at least one panel element includes at least one stiffening structure member embedded within the at least one panel element.