Solar energy is collected and used for various industrial processes, such as oilfield applications, e.g. generating steam that is injected downhole, enabling enhanced oil recovery. Solar energy is indirectly collected using a heat transfer fluid in a solar collector, delivering heat to a heat exchanger that in turn delivers heat into oilfield feedwater, producing hotter water or steam. Solar energy is directly collected by directly generating steam with solar collectors, and then injecting the steam downhole. Solar energy is collected to preheat water that is then fed into fuel-fired steam generators that in turn produce steam for downhole injection. Solar energy is collected to produce electricity via a Rankine cycle turbine generator, and rejected heat warms feedwater for fuel-fired steam generators. Solar energy is collected (directly or indirectly) to deliver heat to a heater-treater, with optional fuel-fired additional heat generation.

A method and a system for positioning an apparatus for monitoring a parameter of one or more parabolic reflectors of a solar thermal field, wherein the method comprises positioning the apparatus at a first field location responsive to the position of the respective parabolic reflector, acquiring information of an absorber tube of the respective parabolic reflector, and positioning the apparatus at the second field location responsive to the information of the absorber tube, the second field location being beyond the focus of the respective parabolic reflector is provided.

A concentrating solar collector module includes improvements in performance and assemblability. In one configuration, the module includes a reflector having a reflective front surface shaped to concentrate incoming solar radiation onto a focal line, first and second rails, one rail attached to each edge of the reflector, and a set of truss connectors attached to the rails. The truss connectors and rails may form ways that enable constrained sliding engagement of the truss connectors along the rails before attachment of the truss connectors to the rails. The module may also include a plurality of framing members connected to the truss connectors and forming a structural lattice that cooperates with the reflector to lend rigidity to the solar collector module. At least some of the framing members may be disposed in front of the front reflective surface.

An improvised Solar Concentrator and Absorber/Receiver Subsystem using a Dual-Stage Parabolic Concentrator for Concentrating Solar Power (CSP) (Thermal) system comprises of two parabolic mirrored reflectors wherein their apertures face each other with their focal point/line and axes coincides with each other, a plurality of absorber tubes/cavities placed on the non-reflecting side of the primary and/or secondary reflectors to carry heat transfer fluid, combined with relevant mechanisms to prevent/minimize thermal loss, mounted on a Sun tracking mechanism. For Concentrating Photovoltaic (CPV) and Concentrating Hybrid Thermo-Photovoltaic (CHTPV) Systems, all or a portion of the reflectors' reflecting and/or exterior surfaces would be covered or substituted with suitable photovoltaic panels.

A node for connecting together at least a first support element, a second support element and a third support element of a support frame such as a solar frame which supports solar reflectors. A method for connecting together at least a first support element, a second support element and a third support element of a solar frame which supports solar reflectors. A system for supporting solar reflectors includes a first support frame upon which the solar reflectors are disposed. A method for forming a support frame for solar reflectors. A system for constructing a support frame from parts, including chords, for solar reflectors. A method for constructing a support frame for solar reflectors. A support frame for solar reflectors.

The present invention relates to a rotating solar concentrating device wherein reflective sheets hung in a catenary trough shape capable of solar concentration may be protectively furled and balanced and rotated about a vertical axis. The reflective sheets may be furled to protect them from damage from wind, rain, and dust. In some embodiments, rotating parts of the device may be hung from supports above. In some embodiments, a furling mechanism may initiate protective furling in response to damaging environmental factors. Some embodiments may concentrate light on a photovoltaic cell wherein the photovoltaic cell is cooled by immersion in a heat pipe. In some embodiments, reflective surfaces may be supported by cables that are tensioned by a hanging, rotating ballast. In some embodiments, the device may be employed in a ganged array. In some embodiments, the invention may harvest wind energy as a vertical axis wind turbine (VAWT).

The present invention discloses a portable solar cooker, belonging to the field of solar heat utilization. The solar cooker comprises an upper functional assembly, a lower control assembly and a rotary apparatus which are sequentially connected, wherein the upper functional assembly is configured to reflect sunlight, collect heat in a focusing manner and further heat water or foods, the upper functional assembly is closed to form a box body when being in a non-operative state, and the upper functional assembly is opened when being in an operative state; the lower control assembly is connected with the upper functional assembly, and makes the upper functional assembly be subjected to pitch adjustment; the lower control assembly is connected with the rotary apparatus, and the lower control assembly and the upper functional assembly are driven by the rotary apparatus to rotate so that tracking the sun is realized. The portable solar cooker disclosed by the present invention not only has functions of boiling water and cooking foods, but also has the advantages of facilitating carrying and tracking the sun, and can achieve full utilization of solar energy anytime and anywhere, thereby making the application of the solar energy be fully developed.

A device for holding a material and a method for holding such materials. The device includes a lower part having at least two engagement points, at least one elongated flexible tensioning element that is attached suspended between the engagement points, and traction mechanisms that are attached on the tensioning element or are part of the tensioning element. The tensioning element is connected to, encloses or carries the material, and the device is configured such that all traction mechanisms can be pulled simultaneously with identical or different tensile force in the direction of the lower part.

The invention relates to a support device for a curved mirror having support elements and a curved mirror. The objective of providing a support device for a curved mirror which is constructed in a particularly simple manner and which enables particularly low production costs is achieved by a support device in that the support device has at least one bent metal carrier profile-member, the bent carrier profile-member having in the longitudinal direction an at least similar curvature to the curved mirror and being substantially mirror-symmetrical in the longitudinal direction.

Methods and systems for providing an impedance heat transfer fluid heating system in association with a parabolic trough solar concentrator are provided. The system includes an intermediate terminal connector that electrically interconnects a receiver tube of the parabolic trough solar concentrator to a power supply. The intermediate terminal connector can include a pair of plates running parallel to the receiver tube. The system additionally includes a pair of end terminal connectors. Each end terminal connector features a receiver tube plate having an aperture that completely surrounds the receiver tube assembly pipe. The end terminal connectors can additionally include a terminal connector extension that is at an angle to the receiver tube plate. A current return conductor extends between an end terminal connector and the power supply. The current return conductor is supported by the collector frame or structure and/or a receiver tube support structure.