An energy power generator includes an energy source having a solar energy source further having at least one or more parabolic mirrors for focusing solar energy in a predetermined direction or focal point, an enclosed fluid circuit including a medium supply tank, a pump coupled to the medium supply tank, a boiler tank coupled to the pump, a turbine and generator coupled to the boiler tank, and a condenser having an output of the turbine as an input and the condenser further providing an output used as a feedback input to the medium supply tank. The generator can further include one or more parabolic mirrors oriented or focused towards the predetermined focal point on or through the boiler tank, where the boiler tank has heat applied to increase the pressure used to operate the turbine.

A convection-driven power generator comprising a flow intake configured to supply fluid to the generator, a flow duct having a duct inlet and a duct outlet wherein the duct outlet is spaced downstream from the duct inlet along the flow duct, the duct inlet being fluidly coupled to the flow intake. A heating chamber fluidly is coupled to the duct outlet so as to receive fluid from the duct outlet, the heating chamber comprising an external wall configured to transmit light radiation incident thereon such that fluid within the heating chamber is heated by the transmitted light radiation. A flow exhaust is fluidly coupled to the heating chamber and configured to exhaust fluid heated by the heating chamber from the heating chamber. A turbine is arranged within the flow duct, downstream of the flow intake, and exposed to fluid flow through the flow duct such that when fluid flows through the flow duct the turbine is caused to rotate by the fluid flow; and at least one lens element is configured to focus the light radiation transmitted by the external wall within the heating chamber.

Methods and apparatus for concentrating electromagnetic waves coming from a moving source at a focal point fixed to the ground. The invention discloses a tracking system for a device capable of concentrating incoming electromagnetic waves at a fixed focal point. This concentration of the electromagnetic waves may be done by reflection, as in the case of a reflecting dish, or by refraction as in the case of a concentrating lens, which is impeded in a hemisphere, which can be real or imaginary, such that its focal point coincides with the center of the hemisphere and using this apparatus to track such moving source by rotating around said hemisphere's fixed center, so as to face the incoming electromagnetic rays normally. A receiver can be kept at the focal point of the device which uses the concentrated rays for various applications such as melting metals or charging a solar cell.

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 concentrator comprising: a base; a framework, the framework being hingedly joined to the base such that the framework can be rotated relative to the base; and a plurality of mirrors arranged relative to a first axis of the framework, such that all of the mirrors are located on one side of a plane which contains the first axis, each mirror being fixed to the framework and each mirror being arranged to reflect light travelling parallel to the first axis towards a common focus which lies on the first axis.

A single-phase fluid (SPF) storage is introduced for desalination of high-salt water using thermal energy from a concentrated solar power (CSP) unit. The SPF having a specific volumetric enthalpy higher than that of water at critical point in the operating ranges from 20 to 300 bar in pressure and 190 to 400 C in temperature is used as a new type of thermal energy storage (TES) medium and heat transfer fluid (HTF). It produces wet steam of a quality required by the desalination unit generating both steam for utilization of latent heat and condensate for sensible heat when its pressure is reduced to lower operating pressures. With a MED-TVC unit by using the steam as motive steam, the capacity of the CSP unit and SPF storage can be reduced as much as the energy recycled in the desalination unit.

Examples are provided herein that relate to solar heating with a solar refraction device. One example provides a solar heating system, comprising a container configured to enclose contents within the container in a closed configuration, and a solar refraction device comprising a lens array assembly having a plurality of lens array sub-assemblies, the lens array assembly configured to refract solar energy impinging on the lens array assembly to focus refracted solar energy at a plurality of focal points positioned to heat the contents enclosed within the container, each focal point corresponding to a corresponding lens array sub-assembly of the plurality of lens array sub-assemblies.

A single-phase fluid (SPF) storage is introduced for desalination of high-salt water using thermal energy from a concentrated solar power (CSP) unit. The SPF having a specific volumetric enthalpy higher than that of water at critical point in the operating ranges from 20 to 300 bar in pressure and 190 to 400 C in temperature is used as a new type of thermal energy storage (TES) medium and heat transfer fluid (HTF). It produces wet steam of a quality required by the desalination unit generating both steam for utilization of latent heat and condensate for sensible heat when its pressure is reduced to lower operating pressures. With a MED-TVC unit by using the steam as motive steam, the capacity of the CSP unit and SPF storage can be reduced as much as the energy recycled in the desalination unit.

An energy power generator includes an energy source having a solar energy source further having at least one or more parabolic mirrors for focusing solar energy in a predetermined direction or focal point, an enclosed fluid circuit including a medium supply tank, a pump coupled to the medium supply tank, a boiler tank coupled to the pump, a turbine and generator coupled to the boiler tank, and a condenser having an output of the turbine as an input and the condenser further providing an output used as a feedback input to the medium supply tank. The generator can further include one or more parabolic mirrors oriented or focused towards the predetermined focal point on or through the boiler tank, where the boiler tank has heat applied to increase the pressure used to operate the turbine.

A solar concentrator (100) comprising: a base (190); a framework (170), the framework (170) being hingedly joined to the base (190) such that the framework (170) can be rotated relative to the base (190); and a plurality of mirrors (110) arranged relative to a first axis (200) of the framework (170), such that all of the mirrors (110) are located on one side of a plane which contains the first axis (200), each mirror being fixed to the framework (170) and each mirror being arranged to reflect light travelling parallel to the first axis (200) towards a common focus which lies on the first axis (200).