Disclosed herein are aerosol compositions of a micelle forming silicate sol-gels, methods of coating substrates with the aerosol compositions and substrates with antireflective coatings having controlled porosity obtained by the methods. The compositions and the methods are suitable in the field of solar energy applications.
C03C 17/25 - Oxydes par dépôt à partir d'une phase liquide
C09D 201/10 - Compositions de revêtement à base de composés macromoléculaires non spécifiés caractérisés par la présence de groupes déterminés contenant des groupes silanes hydrolysables
2.
A COVER DEVICE FOR A RECEIVER FLUID TUBE OF A PARABOLIC TROUGH SOLAR COLLECTOR AND SUCH A SOLAR COLLECTOR
A cover device for a receiver fluid tube (8) of a parabolic trough solar collector,comprises at least one elongated cover member (12), wherein said cover member has an5axis (A-A) in its elongation. In accordance with the invention, said cover member defines atleast one opening (13) extending in the elongation of the cover member (12).The invention also includes a solar collector comprises such a cover device.
F24S 10/40 - Collecteurs de chaleur solaire utilisant des fluides vecteurs dans des éléments absorbeurs entourés d'une enveloppe transparente, p. ex. collecteurs de chaleur solaire sous vide
F24S 10/70 - Collecteurs de chaleur solaire utilisant des fluides vecteurs le fluide vecteur circulant à travers des tubes absorbeurs
F24S 23/74 - Agencements pour concentrer les rayons solaires pour les collecteurs de chaleur solaire avec des réflecteurs avec des surfaces réfléchissantes en forme d’auge ou sous forme cylindro-parabolique
F24S 40/10 - Couvercles ou capots de protectionÉléments de fermeture, p. ex. couvercles
F24S 80/50 - Couvertures transparentesÉléments transmettant les rayons solaires entrants et empêchant les rayonnements thermiques sortants
F24S 80/525 - Couvertures transparentesÉléments transmettant les rayons solaires entrants et empêchant les rayonnements thermiques sortants caractérisés par le matériau faits en matériau plastique
F24S 80/56 - Couvertures transparentesÉléments transmettant les rayons solaires entrants et empêchant les rayonnements thermiques sortants caractérisés par des moyens pour prévenir la perte de chaleur
F24S 80/58 - Couvertures transparentesÉléments transmettant les rayons solaires entrants et empêchant les rayonnements thermiques sortants caractérisés par leurs moyens de montage ou de fixation
3.
A SUSPENSION DEVICE FOR A PARABOLIC REFLECTOR SOLAR DEVICE
A suspension device for keeping a receiver fluid tube (8) at a predetermined position in relation to a parabolic reflector (4), comprises a spoke (14) connected to said parabolic reflector (4) and to a bearing (16), said spoke (14) being adapted to keep said receiver fluid tube (8) at a predetermined distance from said parabolic reflector (4), said spoke (14) being5movably arranged in relation to said receiver fluid tube by means of said bearing (16), said receiver fluid tube (8) having an axis (A-A) in its elongation. In accordance with the invention, said bearing (16) comprises a substantially annular body (17), wherein said annular body (17) is adapted to slidingly receive a rod (36) parallel to the axis (A-A) of said receiver fluid tube (8), said rod being adapted to be connected to said receiver fluid tube (8).
F24S 40/80 - Adaptation de la dilatation différentielle des éléments de collecteurs de chaleur solaire
F24S 23/74 - Agencements pour concentrer les rayons solaires pour les collecteurs de chaleur solaire avec des réflecteurs avec des surfaces réfléchissantes en forme d’auge ou sous forme cylindro-parabolique
F24S 25/63 - Moyens de fixation, p. ex. moyens d’assemblage, spécialement adaptés pour supporter des modules de collecteurs de chaleur solaire pour fixer les modules ou leurs cadres périphériques aux éléments de support
F16L 3/18 - Supports pour tuyaux, pour câbles ou pour conduits de protection, p. ex. potences, pattes de fixation, attaches, brides, colliers avec disposition particulière permettant au tuyau de bouger permettant un mouvement selon l'axe
F24S 30/20 - Agencements pour mouvoir ou orienter des modules de collecteurs de chaleur solaire pour le déplacement linéaire
09 - Appareils et instruments scientifiques et électriques
11 - Appareils de contrôle de l'environnement
Produits et services
(1) Photovoltaic cells; solar cells for electricity generation; solar collectors; modules for photovoltaic power generation; photovoltaic cells and modules; solar panel arrays for the production of electricity; solar panels for the production of electricity and parts thereof; parabolic mirrors and reflectors for solar cells for electricity generation; reflectors for solar cells for electricity generation; software to facilitate design, sale and installation of alternative energy systems including solar power systems; computer hardware for solar energy applications; electronic sensors for measuring solar radiation; photovoltaic installations for generating solar electricity
(2) Heat exchangers as part of integrated solar cell power generating systems and subsystems; electrically powered heat exchangers for residential, industrial and commercial use; solar power plants; solar collectors for heating, cooling and lighting; solar water heaters; refrigerating containers, cabinets, and chambers; solarpowered lighting and heating solar light fixtures, namely, indoor and outdoor solar powered lamps; solarpowered shed lights; solar furnaces; solar heating panels; solar thermal collectors for heating
5.
End seals for parabolic trough solar collectors and a parabolic trough solar collector
An end seal arrangement for a Parabolic Trough solar Collector, PTC, comprises an elongated parabolic reflector trough and a receiver pipe arranged at a focus-line of the reflector trough. The end seal arrangement comprises a housing configured to be fixated to one short-end of the reflector trough, and an inlay configured to be inserted in the housing to slidably abut a circumference of the receiver pipe, such that the reflector trough is sealed to the receiver pipe by the inlay when the housing is fixated to the short-end of the reflector trough and the reflector trough pivots about its focus-line. The end seal arrangement further comprises a fixation means configured to fixate the housing to the reflector trough. By reducing heat leakage and prevent ice, snow, sand, etc. from deteriorating the reflector, improved operational performance will be achieved.
F24S 23/74 - Agencements pour concentrer les rayons solaires pour les collecteurs de chaleur solaire avec des réflecteurs avec des surfaces réfléchissantes en forme d’auge ou sous forme cylindro-parabolique
6.
Method and arrangement for verifying reflector surfaces of parabolic trough solar collectors
A method of determining a reflector parameter of a concentrating solar collector's reflector surface. An image is captured of the reflected receiver tube in the reflector surface, with an image capturing device, e.g. a camera, and processed to put together image data related to the reflected receiver tube. Further, the method comprises determining a location of the image capturing device at a capturing time of the captured image, and determining a position on the reflector surface based on the determined location of the image capturing device and the image data. The method comprises also calculating the reflector parameter at the determined position based on the image data. By numeric calculation of reflector parameters, such as slope, defects, e.g. caused by impacts or material imperfections, may be identified at an early stage before installing the solar collectors, which may reduce service needs.
F24S 40/90 - Agencements pour tester les collecteurs de chaleur solaire
G06T 7/73 - Détermination de la position ou de l'orientation des objets ou des caméras utilisant des procédés basés sur les caractéristiques
F24S 23/74 - Agencements pour concentrer les rayons solaires pour les collecteurs de chaleur solaire avec des réflecteurs avec des surfaces réfléchissantes en forme d’auge ou sous forme cylindro-parabolique
F24S 50/00 - Agencements pour commander les collecteurs de chaleur solaire
G01B 11/00 - Dispositions pour la mesure caractérisées par l'utilisation de techniques optiques
Method of forecasting heat output of a solar collector. First, heat output for a plurality of solar collectors is simulated, located at respectively different geographic locations but having the same solar collector settings as the solar collector to be forecasted. The simulation is performed by calculating a dataset of theoretical heat outputs for the plurality of solar collectors, based on acquired 802 related weather data. From the calculated dataset a function is adjusted 810, the function defining the theoretical heat output of any solar collector related to its geographic location, e.g. latitude, solar Direct Normal Irradiation, DNI, and collector settings, e.g. operation temperature, and forecasting the heat output of the solar collector based on the adjusted function.
F24S 50/80 - Agencements pour commander les collecteurs de chaleur solaire pour contrôler la collecte ou l’absorption de la radiation solaire
F24S 23/74 - Agencements pour concentrer les rayons solaires pour les collecteurs de chaleur solaire avec des réflecteurs avec des surfaces réfléchissantes en forme d’auge ou sous forme cylindro-parabolique
G01W 1/10 - Dispositifs pour la prévision des conditions météorologiques
G01W 1/12 - Enregistreurs de durée de l'insolation, p. ex. héliographes
8.
Method, arrangement and production line for manufacturing a parabolic trough solar collector
An arrangement for manufacturing a reflector for a PTC from a rectangular reflective structure. The arrangement comprises a tensioning device configured to tension a reflector portion of the rectangular reflective structure, such that a surface of the tensioned reflector portion acquires a curvature perpendicular to the tensioned reflector portion's longitudinal propagation, along the tensioned reflector portion's longitudinal propagation. The arrangement further comprises a fixating device configured to fixate the surface's curvature, such that the tensioned reflector portion remains tensioned. The tensioning device is configured to tension the reflector portion of the rectangular reflective structure by pre-forming the reflector portion to a pre-curvature, and adjusting the pre-curvature by applying a torque at a longitudinal borderline of the pre-formed portion. Because the reflector will be maintained tensioned by torques only, it will adapt a curvature of a high precision parabola.
B21D 11/10 - Cintrage spécialement adapté à la fabrication d'objets déterminés, p. ex. de lames de ressort
B21D 11/20 - Cintrage des tôles non prévu ailleurs
F24S 20/20 - Collecteurs de chaleur solaire pour recevoir de l’énergie solaire concentrée, p. ex. récepteurs pour centrales électriques solaires
F24S 23/74 - Agencements pour concentrer les rayons solaires pour les collecteurs de chaleur solaire avec des réflecteurs avec des surfaces réfléchissantes en forme d’auge ou sous forme cylindro-parabolique
F24S 23/70 - Agencements pour concentrer les rayons solaires pour les collecteurs de chaleur solaire avec des réflecteurs
9.
Solar tracking arrangement for controlling parabolic trough solar collectors, and a thermal solar energy system
The solar tracking arrangement enables a plurality of parallel arranged PTCs to be directed towards the travelling sun. The solar tracking arrangement comprises a drive means, a transmission means, and a plurality of conversion means. The transmission means are connected with the drive means and to each of the plurality of conversion means. The transmission means is configured to convey an operating movement caused by the drive means to the plurality of conversion means, and each of the conversion means is configured to convert the conveyed operating movement into a pivoting movement of a respective one of the plurality of PTCs about a focus line, such that each of the pivoting movements directs the respective PTC towards the travelling sun. One or more of the conversion means are adjustably connected with the transmission means in a direction along the transmission means.
F16H 19/06 - Transmissions comportant essentiellement et uniquement des engrenages ou des organes de friction et qui ne peuvent transmettre un mouvement rotatif indéfini pour convertir un mouvement rotatif en mouvement alternatif et vice versa comportant un organe flexible sans fin
F16H 21/40 - Transmissions ne comportant essentiellement que des tringles ou des leviers, avec ou sans glissières tout mouvement étant dans un seul plan ou dans des plans parallèles pour convertir un mouvement rotatif en mouvement oscillant et vice versa
F24S 23/71 - Agencements pour concentrer les rayons solaires pour les collecteurs de chaleur solaire avec des réflecteurs avec des surfaces réfléchissantes paraboliques
F16H 19/04 - Transmissions comportant essentiellement et uniquement des engrenages ou des organes de friction et qui ne peuvent transmettre un mouvement rotatif indéfini pour convertir un mouvement rotatif en mouvement alternatif et vice versa comportant une crémaillère et pignon
10.
Logistics arrangement and method for unloading objects from a logistics stand comprising a plurality of logistics arrangements
The logistics arrangement comprises an arm adapted to be pivotably attached to a logistics stand. The arm comprises a support member adapted to carry an object, when the arm is substantially horizontally directed in a storage position, and a pivoting element adapted to pivotably attach the arm to the logistics stand, such that the arm is enabled to pivot between the storage position and a standby position where the arm is substantially vertically directed. The arm also comprises a stop member adapted to together with the logistics stand hold the arm in a storage position. The support member is connected with the stop member and the pivoting element, and the arm is configured to be forced into the standby position by an upwardly directed lift-movement of the another located object, during unload of the lower located object form the logistics stand. The invention also relates to a logistics stand comprising a plurality of logistics arrangements, a logistics system comprising a freight container and at least one logistics stand, and a method for unloading objects from a logistics stand.
B65D 88/12 - Grands réceptacles rigides spécialement conçus pour le transport
B65D 90/00 - Parties constitutives, détails ou accessoires des grands réceptacles
B63B 25/28 - Installations de chargement, p. ex. pour le rangement ou l'arrimageNavires spécialisés à cet effet pour charges sur le pont
B63B 25/00 - Installations de chargement, p. ex. pour le rangement ou l'arrimageNavires spécialisés à cet effet
B65D 85/02 - Réceptacles, éléments d'emballage ou paquets spécialement adaptés à des objets ou à des matériaux particuliers pour des objets de forme annulaire
B65D 85/20 - Réceptacles, éléments d'emballage ou paquets spécialement adaptés à des objets ou à des matériaux particuliers pour objets incompressibles ou rigides en forme de baguette ou tubulaires
B65D 85/00 - Réceptacles, éléments d'emballage ou paquets spécialement adaptés à des objets ou à des matériaux particuliers
B65D 85/62 - Réceptacles, éléments d'emballage ou paquets spécialement adaptés à des objets ou à des matériaux particuliers pour objets empilésRéceptacles, éléments d'emballage ou paquets spécialement adaptés à des objets ou à des matériaux particuliers pour agencements particuliers de groupes d'objets
B60P 3/40 - Véhicules adaptés pour transporter, porter ou comporter des charges ou des objets spéciaux pour porter des charges longues, p. ex. avec des éléments séparés munis de roues portant la charge
11.
Holder for securing a fluid tube, a solar collector, and method of arranging a fluid tube
A holder for securing a fluid tube to a trough-formed solar collector. In an operation mode of the solar collector, the holder partly encircles a circumference of a cross-section of the fluid tube and leaves a portion of the circumference un-encircled by the holder. The holder may comprise a base member adapted to abut the fluid tube, the base member comprising at least one securing means adapted to secure the base member to the solar collector. Further, the holder may comprise an immobilizing member adapted to together with the base member immobilize a centre-line of the fluid tube in the solar collector when the fluid tube abuts the holder. The base member is connected with the immobilizing member, such that the base member together with the immobilizing member, in an operation mode of the solar collector, partly encircles the circumference of the cross-section of the fluid tube and forms an opening smaller than a diameter of the cross-section of the fluid tube. The immobilizing member may be pivotably connected to the base member by a connecting means, such that the immobilizing member can pivot in relation to the base member to, in a service mode of the solar collector, leave an opening larger than the diameter of the cross-section of the fluid tube.
09 - Appareils et instruments scientifiques et électriques
11 - Appareils de contrôle de l'environnement
Produits et services
Photovoltaic cells; solar cells for electricity generation;
solar collectors; solar energy generating modules; solar
panel arrays; solar panels; solar roof tiles and slates;
solar concentrators with solar cells; computer programs and
computer software for solar energy and for solar energy
applications; computer hardware for solar energy
applications, computer software for solar energy
applications; electronic sensors for measuring solar
radiation; parts and accessories for the aforesaid goods
included in this class. Vacuum tubes for solar energy (heat exchangers); plants for
solar energy; solar collectors for heating, cooling and
lighting; solar water heaters; stores for heating and
cooling; refrigerating apparatus, solar-powered lighting and
heating; concentrated solar thermal systems; combined
photovoltaic/solar heating systems and receivers in solar
energy systems; parts and fittings for the aforesaid goods,
included in this class.
13.
END SEALS FOR PARABOLIC TROUGH SOLAR COLLECTORS AND A PARABOLIC TROUGH SOLAR COLLECTOR
An end seal arrangement (220, 300) for a Parabolic Trough solar Collector, PTC, (200, 400) comprises an elongated parabolic reflector trough (202, 402) and a receiver pipe (204, 404) arranged at a focus-line of the reflector trough (202, 402). The end seal arrangement (220, 300) comprises a housing (302) configured to be fixated to one short-end of the reflector trough (202, 402), and an inlay (304) configured to be inserted in the housing (302) to slidably abut a circumference of the receiver pipe (204, 404), such that the reflector trough (202, 402) is sealed to the receiver pipe (204, 404) by the inlay (304) when the housing (302) is fixated to the short-end of the reflector trough (202, 402) and the reflector trough (202, 402) pivots about its focus-line. The end seal arrangement (220, 300) further comprises a fixation means (306) configured to fixate the housing (302) to the reflector trough (202, 402). By reducing heat leakage and prevent ice, snow, sand, etc. from deteriorating the reflector, improved operational performance will be achieved.
F24S 10/40 - Collecteurs de chaleur solaire utilisant des fluides vecteurs dans des éléments absorbeurs entourés d'une enveloppe transparente, p. ex. collecteurs de chaleur solaire sous vide
F24S 10/70 - Collecteurs de chaleur solaire utilisant des fluides vecteurs le fluide vecteur circulant à travers des tubes absorbeurs
14.
METHOD OF FORECASTING HEAT OUTPUT OF SOLAR COLLECTORS
Method of forecasting heat output of a solar collector. First, heat output for a plurality of solar collectors is simulated, located at respectively different geographic locations but having the same solar collector settings as the solar collector to be forecasted. The simulation is performed by calculating a dataset of theoretical heat outputs for the plurality of solar collectors, based on acquired 802 related weather data. From the calculated dataset a function is adjusted 810, the function defining the theoretical heat output of any solar collector related to its geographic location, e.g. latitude, solar Direct Normal Irradiation, DNI, and collector settings, e.g. operation temperature, and forecasting the heat output of the solar collector based on the adjusted function.When traditional methods for estimating heat output require substantial amounts of measurements and processing capacity, the proposed method may instead enable an efficient and appropriate method of producing precise estimations of heat output.
G06Q 10/04 - Prévision ou optimisation spécialement adaptées à des fins administratives ou de gestion, p. ex. programmation linéaire ou "problème d’optimisation des stocks"
F24S 10/00 - Collecteurs de chaleur solaire utilisant des fluides vecteurs
F24S 23/74 - Agencements pour concentrer les rayons solaires pour les collecteurs de chaleur solaire avec des réflecteurs avec des surfaces réfléchissantes en forme d’auge ou sous forme cylindro-parabolique
15.
METHOD AND ARRANGEMENT FOR VERIFYING REFLECTOR SURFACES OF PARABOLIC TROUGH SOLAR COLLECTORS
A method of determining a reflector parameter of a concentrating solar collector's reflector surface. An image is captured (704) of the reflected receiver tube in the reflector surface, with an image capturing device, e.g. a camera, and processed (706) to put together image data related to the reflected receiver tube. Further, the method comprises determining (708) a location of the image capturing device at a capturing time of the captured image, and determining (710) a position on the reflector surface based on the determined (708) location of the image capturing device and the image data. The method comprises also calculating (712) the reflector parameter at the determined (710) position based on the image data.By numeric calculation of reflector parameters, such as slope, defects, e.g. caused by impacts or material imperfections, may be identified at an early stage before installing the solar collectors, which may reduce service needs.
G06T 7/70 - Détermination de la position ou de l'orientation des objets ou des caméras
F24S 23/74 - Agencements pour concentrer les rayons solaires pour les collecteurs de chaleur solaire avec des réflecteurs avec des surfaces réfléchissantes en forme d’auge ou sous forme cylindro-parabolique
G01B 11/00 - Dispositions pour la mesure caractérisées par l'utilisation de techniques optiques
16.
ELECTROPLATING OF SELECTIVE SURFACES FOR CONCENTRATING SOLAR COLLECTORS
Method of manufacturing a spectrally selective surface. The method 200 comprises cleaning 202 an outside of a tubular substrate, e.g. by sonicating in acetone, polishing 204 the cleaned outside, and depositing 210 a Co-Cr coating on the polished outside, i.e. the tubular substrate's outside. The Co-Cr coating comprises Co(II)compounds and Cr(III) compounds but no Cr(VI) compounds. By applying a DES electrolyteCr(III)-ions may be solved in the electrolyte such that a receiver tube arranged in the electrolyte may become coated with a selective Co-Cr coating from Cr(III)-ions, where the optical characteristics regarding absorptance and emittance for the resulting receiver tube are comparable or surpasses traditional black chrome. Thereby use of harmful hexavalent chrome could be avoided, which may achieve more healthy and environmental friendly conditions.Particularly, no harmful Cr(VI)-ions or rest substances comprising them will contaminate ambient air or need to be handled or disposed.
F24S 70/225 - Détails des éléments absorbeurs caractérisés par des revêtements absorbeursDétails des éléments absorbeurs caractérisés par un traitement de surface pour accroître l’absorption pour une absorption à spectre sélectif
C25D 3/06 - Dépôt électrochimiqueBains utilisés à partir de solutions de chrome à partir des solutions de chrome trivalent
C25D 5/00 - Dépôt électrochimique caractérisé par le procédéPrétraitement ou post-traitement des pièces
F24S 23/74 - Agencements pour concentrer les rayons solaires pour les collecteurs de chaleur solaire avec des réflecteurs avec des surfaces réfléchissantes en forme d’auge ou sous forme cylindro-parabolique
F24S 70/25 - Revêtements faits en matériau métallique
17.
METHOD, ARRANGEMENT AND PRODUCTION LINE FOR MANUFACTURING A PARABOLIC TROUGH SOLAR COLLECTOR
An arrangement (600) for manufacturing a reflector for a PTC from a rectangular reflective structure. The arrangement comprises a tensioning device (604) configured to tension a reflector portion of the rectangular reflective structure, such that a surface of the tensioned reflector portion acquires a curvature perpendicular to the tensioned reflector portion's longitudinal propagation, along the tensioned reflector portion's longitudinal propagation. The arrangement (600) further comprises a fixating device (606) configured to fixate the surface's curvature, such that the tensioned reflector portion remains tensioned. The tensioning device (604) is configured to tension the reflector portion of the rectangular reflective structure by pre-forming the reflector portion to a pre-curvature, and adjusting the pre-curvature by applying a torque at a longitudinal borderline of the pre-formed portion. Because the reflector will be maintained tensioned by torques only, it will adapt a curvature of a high precision parabola.
F24S 23/74 - Agencements pour concentrer les rayons solaires pour les collecteurs de chaleur solaire avec des réflecteurs avec des surfaces réfléchissantes en forme d’auge ou sous forme cylindro-parabolique
B21D 11/20 - Cintrage des tôles non prévu ailleurs
F24S 10/40 - Collecteurs de chaleur solaire utilisant des fluides vecteurs dans des éléments absorbeurs entourés d'une enveloppe transparente, p. ex. collecteurs de chaleur solaire sous vide
F24S 20/20 - Collecteurs de chaleur solaire pour recevoir de l’énergie solaire concentrée, p. ex. récepteurs pour centrales électriques solaires
The solar tracking arrangement (300) enables a plurality of parallel arranged PTCs (302) to be directed towards the travelling sun. The solar tracking arrangement comprises a drive means (308), a transmission means (306), and a plurality of conversion means (304). The transmission means are connected with the drive means and to each of the plurality of conversion means. The transmission means is configured to convey an operating movement caused by the drive means to the plurality of conversion means, and each of the conversion means is configured to convert the conveyed operating movement into a pivoting movement of a respective one of the plurality of PTCs about a focus line, such that each of the pivoting movements directs the respective PTC towards the travelling sun. One or more of the conversion means are adjustably connected with the transmission means in a direction along the transmission means (306).
F24S 23/74 - Agencements pour concentrer les rayons solaires pour les collecteurs de chaleur solaire avec des réflecteurs avec des surfaces réfléchissantes en forme d’auge ou sous forme cylindro-parabolique
F24S 25/70 - Agencement de montages ou de supports fixes pour des modules de collecteurs de chaleur solaire comprenant des moyens pour ajuster la position finale ou l’orientation des éléments de support par rapport aux autres éléments de support ou à une surface de montageAgencement de montages ou de supports fixes pour des modules de collecteurs de chaleur solaire comprenant des moyens pour compenser les tolérances de montage
19.
LOGISTICS ARRANGEMENT AND METHOD FOR UNLOADING OBJECTS FROM A LOGISTICS STAND COMPRISING A PLURALITY OF LOGISTICS ARRANGEMENTS
The logistics arrangement 250 comprises an arm 200 adapted to be pivotably attached to a logistics stand 220. The arm comprises a support member 202 adapted to carry an object, when the arm is substantially horizontally directed in a storage position, and a pivoting means 206 adapted to pivotably attach the arm to the logistics stand, such that the arm is enabled to pivot between the storage position and a standby position where the arm 200 is substantially vertically directed. The arm also comprises a stop member 204 adapted to together with the logistics stand hold the arm in a storage position. The support member is connected with the stop member and the pivoting means, and the arm is configured to be forced into the standby position by an upwardly directed lift-movement of the another located object, during unload of the lower located object form the logistics stand 220. The invention also relates to a logistics stand comprising a plurality of logistics arrangements, a logistics system comprising a freight container and at least one logistics stand, and a method for unloading objects from a logistics stand.
A holder (300) for securing a fluid tube to a trough-formed solar collector. In an operation mode of the solar collector, the holder (300) partly encircles a circumference of a cross-section of the fluid tube and leaves a portion of the circumference un-encircled by the holder (300). The holder (300) may comprise a base member (302) adapted to abut the fluid tube, the base member (302) comprising at least one securing means (312) adapted to secure the base member (302) to the solar collector. Further, the holder (300) may comprise an immobilising member (304) adapted to together with the base member (302) immobilise a centre-line of the fluid tube in the solar collector when the fluid tube abuts the holder (300). The base member (302) is connected with the immobilising member (304), such that the base member (302) together with the immobilising member (304), in an operation mode of the solar collector, partly encircles the circumference of the cross-section of the fluid tube and forms an opening smaller than a diameter of the cross-section of the fluid tube. The immobilising member (304) may be pivotably connected to the base member by a connecting means (310), such that the immobilising member (304) can pivot in relation to the base member (302) to, in a service mode of the solar collector, leave an opening larger than the diameter of the cross-section of the fluid tube.
F24S 25/00 - Agencement de montages ou de supports fixes pour des modules de collecteurs de chaleur solaire
F24S 23/74 - Agencements pour concentrer les rayons solaires pour les collecteurs de chaleur solaire avec des réflecteurs avec des surfaces réfléchissantes en forme d’auge ou sous forme cylindro-parabolique
F24S 20/20 - Collecteurs de chaleur solaire pour recevoir de l’énergie solaire concentrée, p. ex. récepteurs pour centrales électriques solaires
F24S 25/60 - Moyens de fixation, p. ex. moyens d’assemblage, spécialement adaptés pour supporter des modules de collecteurs de chaleur solaire
09 - Appareils et instruments scientifiques et électriques
11 - Appareils de contrôle de l'environnement
Produits et services
[ Apparatus for converting electronic radiation to electrical energy, namely, photovoltaic solar hybrid modules; Apparatus for converting electronic radiation to electrical energy, namely, photovoltaic solar modules; Apparatus for converting electronic radiation to electrical energy, namely, photovoltaic thermal hybrid module; Apparatus for converting electronic radiation to electrical energy, namely, photovoltaic thermal module; Apparatus for converting electronic radiation to electrical energy, namely, PVT (photovoltaic thermal) module; Apparatus that employs light concentrating optics to concentrate sunlight and to aid in the conversion of sunlight into electric and thermal energy; Electronical sensors for measuring solar radiation; Photovoltaic cells also including a solar thermal collector sold as a unit; Photovoltaic installation apparatus, namely, solar modules for production of electricity, solar thermal and electric receivers, tracking mechanisms and concentrating optics, and control algorithms; Photovoltaic solar modules for production of electricity; Photovoltaic systems that convert sunlight into electric and thermal energy; Programmable controllers and actuators that track the sun enabling concentrating optics to maximize solar energy input; Solar panels for production of electricity ] Heating systems for residential and commercial buildings comprised of biomass burners, boilers, valves, pipes, manifolds, solar panels, control panels, switches and electrical wire, all sold as a unit; Heating systems for residential and commercial buildings comprised of boilers, valves, pipes, manifolds, solar panels, control panel, switches and electrical wire, all sold as a unit; Parabolic mirrors designed for the collection of solar energy; Solar collectors; Solar collectors for heating; Solar energy based cooling apparatus; Solar energy receivers; Solar heat collection panels; Solar thermal installations, namely, solar thermal modules
The invention relates to a receiver for production of electricity and heat in solar energy systems comprising focussing optical components wherein, the receiver has at least one surface covered with solar cells for production of electricity and at least one optically selective surface, wherein a greater portion of the surface of the receiver exposed to concentrated sunlight is covered with solar cells, while a greater portion of the surface of the receiver exposed to direct sunlight is covered with an optically selective surface.
F24S 20/20 - Collecteurs de chaleur solaire pour recevoir de l’énergie solaire concentrée, p. ex. récepteurs pour centrales électriques solaires
F24S 20/25 - Collecteurs de chaleur solaire pour recevoir de l’énergie solaire concentrée, p. ex. récepteurs pour centrales électriques solaires utilisant la radiation solaire directe combinée avec la radiation solaire concentrée
F24S 23/74 - Agencements pour concentrer les rayons solaires pour les collecteurs de chaleur solaire avec des réflecteurs avec des surfaces réfléchissantes en forme d’auge ou sous forme cylindro-parabolique
H02S 40/44 - Moyens pour utiliser l’énergie thermique, p. ex. systèmes hybrides produisant de l’eau chaude et de l’électricité en même temps
H01L 31/054 - Dispositifs à semi-conducteurs sensibles aux rayons infrarouges, à la lumière, au rayonnement électromagnétique d'ondes plus courtes, ou au rayonnement corpusculaire, et spécialement adaptés, soit comme convertisseurs de l'énergie dudit rayonnement e; Procédés ou appareils spécialement adaptés à la fabrication ou au traitement de ces dispositifs ou de leurs parties constitutives; Leurs détails adaptés comme dispositifs de conversion photovoltaïque [PV] Éléments optiques directement associés ou intégrés à la cellule PV, p.ex. moyens réflecteurs ou concentrateurs de lumière
H02S 20/00 - Structures de support pour modules PV
H02S 20/32 - Structures de support mobiles ou réglables, p. ex. pour réglage de l’angle spécialement adaptées pour le suivi du soleil
