Abstract: The present invention provides a thermal storage system that is easily integrated with a wide range of electric power systems. In particular, the principles of the present invention are easily implemented at a very large scale to integrate with larger scale grid systems. The thermal storage aspects of the present invention are cost effective to implement. Also, the manner in which the systems operate allow thinner, less expensive wiring to be used effectively. Because heavy wiring can be a significant part of startup expenses, the ability to use thinner gauge wiring provides significant cost savings. Further, the systems are quickly responsive to grid conditions and not only modulate energy storage but also modulate energy storage fast enough to respond to grid conditions in real time.

Abstract: The present invention offers an improvement to existing canting, slope error, and/or pointing measurement approaches, by using one or more cameras to observe the reflections of points of light in the firmament, such as the reflections of stars and/or planets as visible within the night sky in the heliostat facets. An illustrative heliostat measurement system comprises a plurality of heliostats, and at least one camera that observes at least one heliostat. The heliostats reflect an image of the firmament that can be observed by the at least one camera. The system further comprises (i) at least one captured image of the firmament reflected from at least one of the heliostats; and (ii) a computer comprising programming that determines a heliostat imperfection from the captured image, wherein the heliostat imperfection is selected from at least one of a slope error, a canting error, and a pointing error.

Abstract: The present invention relates to apparatus and methods to provide a control system for the purpose of redirecting light from a source onto a target. The present invention appreciates that the optical properties of light that is both modified and/or distributed, e.g. by diffraction, diffusion, or some other process, and also redirected by a heliostat, can be a function of how the light redirecting element is aimed. This means that the aim of the light redirecting element can be precisely determined once the aim of the modified and/or distributed light is known. Advantageously, the characteristics of modified and/or distributed light indicative of how that light is aimed can be determined from locations outside the zone of concentrated illumination in which sensors are at undue risk.

Abstract: The present invention relates to apparatus and methods to provide a control system for the purpose of redirecting light from a source onto a target. The present invention appreciates that the diffraction pattern for light that is both diffracted and re-directed by a heliostat is a function of how the light redirecting element is aimed. This means that the aim of the light redirecting element can be precisely determined once the aim of the diffracted light is known. Advantageously, the characteristics of diffracted light indicative of how the diffracted light is aimed can be determined from locations outside the zone of concentrated illumination in which sensors are at undue risk. This, in turn, means that diffracted light characteristics can be detected at a safe location, and this information can then be used to help precisely aim the light redirecting element onto the desired target, such as a receiver in a CSP system.

Abstract: The present invention is directed to systems, devices and methods utilizing a proxy device that indicates directional aspects of redirected light from a corresponding light redirecting element by the position of one or more redirected light beams in one or more directions or coordinates on such a proxy device. The position characteristics of light redirected from the proxy device correlate to the aim of the light redirecting element associated with the proxy. This allows the proxy information to be used to accurately determine and control the aim of the light redirecting element.

Abstract: A solar power system includes a solar energy collector that has at least one solar receiver that is operable to carry a working fluid and at least one solar reflector that is operable to direct solar energy towards the at least one solar receiver to heat the working fluid. The working fluid has a maximum predefined operational temperature up to which it can be heated. A first storage unit is connected to receive the working fluid from the at least one solar receiver, and a second storage unit is connected to provide the working fluid to the at least one solar receiver. A power block generates electricity using heat from the heated working fluid. A heater is operable to heat the working fluid to approximately the maximum predefined operational temperature.

Abstract: Tracking modules are effectively provided that can be arranged as systems for positioning devices, such as reflectors. A preferred reflector is small and light in comparison to prior art reflectors so that components can be utilized within reflector construction and support structure that are sufficiently stiff to accurately hold a reflector in place under expected operational drive-torque, gravity and wind loads. At the same time, a single person can install a reflector, easily overcoming a retention mechanism spring force so as to positively engage a reflector in position. This is achieved without the need for any tools, through a combination of a retention mechanism and a spring feature design. Arrangements of tracking modules are included for easier manufacture, transport of systems and installment.

Abstract: A solar receiver system includes a panel mounted to a multiple of standoffs such that the panel is spaced away from the support structure to provide convective cooling.

Abstract: The present invention relates to apparatus and methods to provide a closed loop pointing system for the purpose of redirecting light from a source onto a target. In one aspect the present invention relates to a method of redirecting incident light, comprising the steps of: using at least one light redirecting element to redirect the incident light; providing a plurality of optical proxies that are associated with the reflecting element in a manner such that at least two of the optical proxies distribute a portion of the incident light uniquely relative to each other, wherein optical information encoded in the light distributed by the optical proxies cumulatively correlates to the aim of the light redirecting element; observing the optical information distributed by the optical proxies; and using the optical information to controllably actuate the light redirecting element in a manner that aims the redirected light onto a target.

Abstract: The present invention relates to apparatus and methods for configuring and arranging heliostats for use in a solar power system. The present invention seeks to improve the overall energy harvesting capacity of a heliostat system while using minimal land area and providing maximum access paths. The present invention teaches that, instead of raising the height of the tower or spacing heliostats according to a rigid schedule, it may be advantageous to vary the height of individual mirrors within a heliostat group, thus mitigating blocking while nonetheless permitting adjacent rows of heliostats to be placed close to one another.

Abstract: Disclosed is a system and method including targets for heliostat health monitoring. A controller in communication with a target and the heliostat may be operable to determine heliostat health. The disclosed system and method may be used to automatically focus individual heliostats, as needed, and to generally increase the overall health of a heliostat field.