A system may include a stacking device having a base portion and one or more walls, the base portion having a first axle receiver that holds a first axle at a first defined position, the one or more walls extending from the base portion, the stacking device receiving one or more flywheel plates onto the first axle. A system may include a clamping device adapted to couple with the stacking device using one or more alignment mechanisms, the clamping device including a second axle receiver that holds a second axle at a second defined position, the first defined position and the second defined position being in line when the clamping device is coupled with the stacking device.

A system may include a massive flywheel including a rotatable mass component and one or more axles coupled with the rotatable mass component, the one or more axles extending from a top of the rotatable mass component and from a bottom of the rotatable mass component. A system may include a bottom bearing assembly coupled with the one or more axles at the bottom of the rotatable mass component. A system may include a top bearing assembly coupled with the one or more axles at the top of the rotatable mass component. A system may include a support structure coupled with the top bearing assembly and the bottom bearing assembly. A system may include a motor coupled with the one or more axles at the top bearing assembly.

A method for manufacturing a wind turbine blade, the method including the steps: a) positioning an outboard blade section at a predefined end position, the outboard blade section including an outboard end portion, b) positioning an inboard blade section adjacent to the outboard blade section, the inboard blade section including an inboard end portion, c) determining a deviation of a current position of the inboard end portion of the inboard blade section with respect to the outboard end portion of the outboard blade section from a nominal position of the inboard end portion with respect to the outboard end portion, and d) moving the inboard blade section relative to the outboard blade section to compensate for the determined deviation. The complexity of the alignment procedure when aligning lengthwise blade sections are reduced and the accuracy of the alignment increased.

A system may include an enclosure base having a bottom surface and one or more side walls coupled with the bottom surface. A system may include an enclosure lid having a top surface, the enclosure lid coupling with the one or more side walls of the enclosure base to create an enclosed space, the enclosed space containing a massive flywheel, the massive flywheel having one or more axles. A system may include one or more bearings coupling the one or more axles to the enclosure base and the enclosure lid, the one or more bearings holding the one or more axles at an axis of rotation. Aspects of the invention include components coupled with the system, such as a vacuum assembly, adjustment and locking mechanisms, and other components.