A controlled fusion process is provided that can produce a sustained series of fusion reactions: a process that (i) uses a substantially higher reactant density of the deuterium and tritium gases by converging cationic reactants into the higher reaction density at a target cathode rather than relying on random collisions, the converging producing a substantially higher rate of fusion and energy production; (ii) uses a substantially lower input of energy to initiate the fusion; (iii) can be cycled at a substantially higher cycle frequency; (iv) has a practical heat exchange method; (v) is substantially less costly to manufacture, operate, and maintain; and, (vi) has a substantially improved reaction efficiency as a result of not mixing reactants with products.

A method of removing, from a fusion power reactor, a tile that comprises a tile-support tube, which is attached to a back portion of the tile and which comprises a coolant channel that is configured in a horizontal orientation, comprises rotating the tile, which is installed in a locked orientation in a manifold channel of a first wall of the fusion power reactor, until the tile is in an install/remove orientation. The method further comprises grasping, with a removal tool, the tile-support tube. The method additionally comprises lifting the tile away from the first wall of the fusion power reactor with the removal tool such that the tile is completely removed from the manifold channel of the first wall of the fusion power reactor.

A method of removing, from a fusion power reactor, a tile that comprises a tile-support tube, which is attached to a back portion of the tile and which comprises a coolant channel that is configured in a horizontal orientation, comprises rotating the tile, which is installed in a locked orientation in a manifold channel of a first wall of the fusion power reactor, until the tile is in an install/remove orientation. The method further comprises grasping, with a removal tool, the tile-support tube. The method additionally comprises lifting the tile away from the first wall of the fusion power reactor with the removal tool such that the tile is completely removed from the manifold channel of the first wall of the fusion power reactor.

A method for removing a tile for a fusion power reactor comprises rotating the tile, which is installed in a locked orientation in a manifold channel of a first wall of the fusion power reactor, until the tile is in an install/removal orientation. The tile has a tile-support tube, attached to a back portion of the tile. The tile-support tube comprises at least one coolant channel that is perpendicular to the back portion of the tile. The method further comprises grasping the tile-support tube with a removal tool. Additionally, the method comprises lifting the tile away from the first wall of the fusion power reactor with the removal tool such that the tile is completely removed from the manifold channel of the first wall of the fusion power reactor.

A method for removing a tile for a fusion power reactor comprises rotating the tile, which is installed in a locked orientation in a manifold channel of a first wall of the fusion power reactor, until the tile is in an install/removal orientation. The tile has a tile-support tube, attached to a back portion of the tile. The tile-support tube comprises at least one coolant channel that is perpendicular to the back portion of the tile. The method further comprises grasping the tile-support tube with a removal tool. Additionally, the method comprises lifting the tile away from the first wall of the fusion power reactor with the removal tool such that the tile is completely removed from the manifold channel of the first wall of the fusion power reactor.

An apparatus and method are disclosed for machine-replaceable plasma-facing tiles for fusion power reactor environments. The apparatus and method involve a tile that is fish scale shaped, and a tile support tube that is attached to the back portion of the tile. The tile support tube includes at least one coolant channel and at least one guard vacuum channel. In one or more embodiments, the method for removing the tile comprises providing a tile that is installed in a manifold channel of a first wall of a fusion power reactor, rotating the tile such that it is in an install/removal orientation, inserting two tines of a removal tool between the outer edges of the tile and the first wall of the fusion power reactor, rotating the removal tool such that the two tines grasp the tile support tube, and lifting the tile away from the wall with the removal tool.

An apparatus and method are disclosed for machine-replaceable plasma-facing tiles for fusion power reactor environments. The apparatus and method involve a tile that is fish scale shaped, and a tile support tube that is attached to the back portion of the tile. The tile support tube includes at least one coolant channel and at least one guard vacuum channel. In one or more embodiments, the method for removing the tile comprises providing a tile that is installed in a manifold channel of a first wall of a fusion power reactor, rotating the tile such that it is in an install/removal orientation, inserting two tines of a removal tool between the outer edges of the tile and the first wall of the fusion power reactor, rotating the removal tool such that the two tines grasp the tile support tube, and lifting the tile away from the wall with the removal tool.

A remote maintenance system capable of reducing user's time and effort required to establish communication between an image processing apparatus and an operator terminal. An operator terminal performs remote maintenance communication with an image processing apparatus via a relay server, for performing a maintenance operation of the image processing apparatus. A connection request for connecting to an operator terminal is received from an image processing apparatus, and the remote maintenance communication between the image processing apparatus and the operator terminal is established based on the connection request. When the connection request is received, an operator terminal that has not established the remote maintenance communication is assigned to an image processing apparatus that has sent the connection request, and the remote maintenance communication between the image processing apparatus having sent the connection request and the assigned operator terminal is established.

A controlled fusion process is provided that can produce a sustained series of fusion reactions: a process that (i) uses a substantially higher reactant density of the deuterium and tritium gases by converging cationic reactants into the higher reaction density at a target cathode rather than relying on random collisions, the converging producing a substantially higher rate of fusion and energy production; (ii) uses a substantially lower input of energy to initiate the fusion; (iii) can be cycled at a substantially higher cycle frequency; (iv) has a practical heat exchange method; (v) is substantially less costly to manufacture, operate, and maintain; and, (vi) has a substantially improved reaction efficiency as a result of not mixing reactants with products.

A controlled fusion process is provided that can produce a sustained series of fusion reactions: a process that (i) uses a substantially higher reactant density of the deuterium and tritium gases by converging cationic reactants into the higher reaction density at a target cathode rather than relying on random collisions, the converging producing a substantially higher rate of fusion and energy production; (ii) uses a substantially lower input of energy to initiate the fusion; (iii) can be cycled at a substantially higher cycle frequency; (iv) has a practical heat exchange method; (v) is substantially less costly to manufacture, operate, and maintain; and, (vi) has a substantially improved reaction efficiency as a result of not mixing reactants with products.