A fluidic solar actuation system comprising a plurality of fluidic solar actuators that each include a first fluidic inflatable actuator, and a second fluidic inflatable actuator. The system also includes a fluidic routing system configured to covey a fluid originating from a fluid source to: the respective first fluidic inflatable actuators of the plurality of fluidic solar actuators, the first fluidic inflatable actuators ganged so as to be fluidically connected such that the first fluidic inflatable actuators are configured to be inflated together and separate from the second fluidic inflatable actuators, and the respective second fluidic inflatable actuators of the plurality of fluidic solar actuators, the second fluidic inflatable actuators ganged so as to be fluidically connected such that the second fluidic inflatable actuators are configured to be inflated together and separate from the first fluidic inflatable actuators.

A fluidic solar actuation system comprising a plurality of fluidic solar actuators that each include a first fluidic inflatable actuator, and a second fluidic inflatable actuator. The system also includes a fluidic routing system configured to covey a fluid originating from a fluid source to: the respective first fluidic inflatable actuators of the plurality of fluidic solar actuators, the first fluidic inflatable actuators ganged so as to be fluidically connected such that the first fluidic inflatable actuators are configured to be inflated together and separate from the second fluidic inflatable actuators, and the respective second fluidic inflatable actuators of the plurality of fluidic solar actuators, the second fluidic inflatable actuators ganged so as to be fluidically connected such that the second fluidic inflatable actuators are configured to be inflated together and separate from the first fluidic inflatable actuators.

A fluidic solar actuation system comprising a plurality of fluidic solar actuators that each include a first fluidic inflatable actuator, and a second fluidic inflatable actuator. The system also includes a fluidic routing system configured to covey a fluid originating from a fluid source to: the respective first fluidic inflatable actuators of the plurality of fluidic solar actuators, the first fluidic inflatable actuators ganged so as to be fluidically connected such that the first fluidic inflatable actuators are configured to be inflated together and separate from the second fluidic inflatable actuators, and the respective second fluidic inflatable actuators of the plurality of fluidic solar actuators, the second fluidic inflatable actuators ganged so as to be fluidically connected such that the second fluidic inflatable actuators are configured to be inflated together and separate from the first fluidic inflatable actuators.

A solar actuator system comprising at least one actuator assembly. The actuator assembly includes: a top coupler; an angled bottom coupler having a top-end and respective first and second faces on opposing first and second sides of the top-end, the angled bottom coupler coupled to the top coupler via a one-degree-of-freedom joint between the top coupler and the angled bottom coupler; and at least a first and second actuator, with the first actuator disposed on the first side of the angled bottom coupler and the second actuator disposed on the second side of the angled bottom coupler.

A solar actuator system comprising at least one actuator assembly. The actuator assembly includes: a top coupler; an angled bottom coupler having a top-end and respective first and second faces on opposing first and second sides of the top-end, the angled bottom coupler coupled to the top coupler via a one-degree-of-freedom joint between the top coupler and the angled bottom coupler; and at least a first and second actuator, with the first actuator disposed on the first side of the angled bottom coupler and the second actuator disposed on the second side of the angled bottom coupler.

A solar gas turbine power generation system based on a photothermal principle includes a gas turbine, a solar collector and a solar reflector, where the gas turbine includes a compressor impeller, a turbine, a recuperator and a combustion chamber, the recuperator includes an outer shell, an intermediate shell and an inner shell, a low-temperature gas inlet passage is formed between the intermediate shell and the outer shell, a high-temperature gas inlet passage is formed between the intermediate shell and the inner shell, an inlet and an outlet of the low-temperature gas inlet passage communicate with an outlet of the compressor impeller and an inlet of the combustion chamber, respectively, and an inlet and an outlet of the high-temperature gas inlet passage communicate with an outlet of the turbine and the outside, respectively; and the solar collector includes an absorber plate covering the outer shell of the recuperator.

A solar gas turbine power generation system based on a photothermal principle includes a gas turbine, a solar collector and a solar reflector, where the gas turbine includes a compressor impeller, a turbine, a recuperator and a combustion chamber, the recuperator includes an outer shell, an intermediate shell and an inner shell, a low-temperature gas inlet passage is formed between the intermediate shell and the outer shell, a high-temperature gas inlet passage is formed between the intermediate shell and the inner shell, an inlet and an outlet of the low-temperature gas inlet passage communicate with an outlet of the compressor impeller and an inlet of the combustion chamber, respectively, and an inlet and an outlet of the high-temperature gas inlet passage communicate with an outlet of the turbine and the outside, respectively; and the solar collector includes an absorber plate covering the outer shell of the recuperator.

The pneumatic solar tracking system for solar panels adjusts the angular orientation of a solar panel to maximize exposure of an upper surface of the solar panel to incident solar radiation from the sun as the sun moves across the sky. The pneumatic solar tracking system includes a base and a platform supported above the base. The platform has an opening formed therein. A plurality of pneumatic actuators are supported on the base beneath the opening formed in the platform. The solar panel is supported on an upper surface of the platform, and a plurality of pivotal connectors pivotally connect the lower surface of the solar panel to respective pistons of the plurality of pneumatic actuators. Each of the pivotal connectors pivots along at least two orthogonal axes. An optical sensor is provided for detecting and tracking the angular position of the sun.

A deployable solar array apparatus. There is a telescoping mast, being actuatable between an extended mode and a retracted mode; a pivoting head, coupled to a top portion of the telescoping mast; a plurality of arms, circumferentially and pivotally coupled to the head and extending outwardly therefrom, and actuatable between an extended mode and a retracted mode; and a plurality of solar panels coupled to exterior surfaces of the head and arms.

The present invention relates to a system for the production of carbon nanotubes from carbonaceous matter, preferably, plastic waste and solar energy; Method of production.