Abstract: Various embodiments for heat management around a phase delay coil in a probe are described. A guided surface waveguide probe may be at least partially housed or enclosed in a structure and configured to generate electrical energy in the form of a guided surface wave traveling along a terrestrial medium, where the guided surface waveguide probe comprises at least one electromagnetic coil encapsulated by an exterior of the structure. A cooling device may be provided and configured to manage heat in the structure by providing cold air between the at least one electromagnetic coil and the exterior of the structure.

Abstract: Disclosed is a guided surface waveguide probe with a charge terminal that is elevated over a lossy conducting medium. A primary coil can be coupled to an excitation source within a substructure. A secondary coil can provide a voltage to the charge terminal with a phase delay (?) that matches a wave tilt angle (?) associated with a complex Brewster angle of incidence (?i,B) associated with the lossy conducting medium. The primary coil can be configured to inductively couple to the secondary coil.

Abstract: Disclosed is a support structure for a guided surface waveguide probe. In some embodiments, the support structure includes vertically oriented corner columns that define outer corners of the structure, vertically oriented intermediate columns that define portions of outer sides of the structure, each intermediate column being positioned between a pair of corner columns, framing members that extend between the corner columns and the intermediate columns, plates located at junctions between the framing members and the columns, and fasteners located at the junctions that secure the framing members and the plates to the corner columns and the intermediate columns, and that secure the framing members to the plates, wherein the corner columns, intermediate columns, framing members, plates, and fasteners are all made of a non-conductive material.

Abstract: Embodiments of a guided surface waveguide probe are disclosed. One embodiment, among others, has a guided surface waveguide probe including a charge terminal elevated over a lossy conducting medium by way of a support structure, and a substantially planar support platform situated under the support structure and co-planar with a roof of a substructure of the guided surface waveguide probe. The platform can include an aperture of sufficient size to enable a phasing coil to be moved vertically through the aperture for installation and removal of same. The support platform can be made from or include an insulating material part that is sufficiently insulating to prevent degradation of the support platform caused by the electric fields. A primary coil associated with the guided surface waveguide probe can magnetically couple with the phasing coil to excite the charge terminal to produce a guided surface wave on the lossy conducting medium.

Abstract: Disclosed is a support structure for a guided surface waveguide probe. In some embodiments, the support structure includes vertically oriented corner columns that define outer corners of the structure, vertically oriented intermediate columns that define portions of outer sides of the structure, each intermediate column being positioned between a pair of corner columns, framing members that extend between the corner columns and the intermediate columns, plates located at junctions between the framing members and the columns, and fasteners located at the junctions that secure the framing members and the plates to the corner columns and the intermediate columns, and that secure the framing members to the plates, wherein the corner columns, intermediate columns, framing members, plates, and fasteners are all made of a non-conductive material.

Abstract: A guided surface waveguide probe structure is described. In one example, the guided surface waveguide probe structure includes a charge terminal elevated to a first height and a phasing coil elevated to a second height above a lossy conducting medium. The structure further includes a non-conductive support structure to support the phasing coil and the charge terminal. The non-conductive support structure includes a truss frame that supports the phasing coil at the second height above the lossy conducting medium and supports the charge terminal at the first height above the lossy conducting medium. The structure further includes a substructure bunker constructed in the lossy conducting medium. The substructure bunker can include foundational walls, a grounding grid formed in a foundational seal slab, and a covering support slab at a ground surface elevation of the lossy conducting medium, the covering support slab supporting the non-conductive support structure.

Abstract: Disclosed is a support structure for a guided surface waveguide probe. In some embodiments, the support structure includes vertically oriented corner columns that define outer corners of the structure, vertically oriented intermediate columns that define portions of outer sides of the structure, each intermediate column being positioned between a pair of corner columns, framing members that extend between the corner columns and the intermediate columns, plates located at junctions between the framing members and the columns, and fasteners located at the junctions that secure the framing members and the plates to the corner columns and the intermediate columns, and that secure the framing members to the plates, wherein the corner columns, intermediate columns, framing members, plates, and fasteners are all made of a non-conductive material.

Abstract: A guided surface waveguide probe structure is described. In one example, the guided surface waveguide probe structure includes a charge terminal elevated to a first height above a lossy conducting medium and a phasing coil elevated to a second height above the lossy conducting medium, wherein the first height is larger than the second height. The structure further includes a non-conductive support structure to support the phasing coil and the charge terminal. The non-conductive support structure includes a truss frame secured to and supported over a substructure, and the truss frame supports the phasing coil at the second height above the lossy conducting medium. The non-conductive support structure also includes a charge terminal truss extension supported by the truss frame, and the charge terminal truss extension supports the charge terminal at the first height above the lossy conducting medium.

Abstract: Disclosed are embodiments for anchoring a guided surface waveguide probe. A guided surface waveguide probe can be suspended from a support structure manufactured from a nonconductive material, the support structure comprising a plurality of beams. A base bracket is configured to receive at least one of the plurality of beams and further comprising a hole. The base bracket rests upon a pad. An anchor bolt protrudes from the pad through the hole of the base bracket. Also, a fastener engages the anchor bolt to secure the base bracket to the pad.