The present invention relates to a device for assisting in electronic gaming, the device comprising a scanning device. The scanning device comprises a scanning surface, wherein the scanning surface is arranged for throwing a die or dice thereon, the flatbed scanning device being configured for scanning instantaneously an image of the scanning surface. The device also comprises a processor configured for receiving scanning information regarding the image of the scanning surface upon which a die or dice are thrown and programmed for deriving, based on said image, data regarding the dice thrown. The scanning device comprises a detection system whereby the detection area span by the detection elements is maximally 10% smaller than the area span by the scanning surface.
A device for assisting in electronic gaming, comprises a flatbed scanning device having a scanning surface. The scanning surface is arranged for throwing a die or dice thereon, and the flatbed scanning device is configured for scanning instantaneously an image of the scanning surface. The device also comprises a processor configured for receiving scanning information regarding the image of the scanning surface upon which a die or dice are thrown and programmed for deriving, based on the image, data regarding the dice thrown.
The present invention relates to a device for assisting in electronic gaming, the device comprising a flatbed scanning device. The flatbed scanning device comprises a scanning surface, wherein the scanning surface is arranged for throwing a die or dice thereon, the flatbed scanning device being configured for scanning instantaneously an image of the scanning surface. The device also comprises a processor configured for receiving scanning information regarding the image of the scanning surface upon which a die or dice are thrown and programmed for deriving, based on said image, data regarding the dice thrown.
A compressed pressure vessel suitable for serving as construction element for building energy storage constructions thereof is described. The compressed pressure vessel comprises a first, inner, segment, wherein the inner segment comprises an inlet for filling or emptying the inner segment and wherein the inner segment is suitable for storing hydrogen, and a second, outer, segment, the outer segment adapted for being filled with a fluid, different from hydrogen, wherein the outer segment is substantially fully encompassing the inner segment.
F17C 1/12 - Pressure vessels, e.g. gas cylinder, gas tank, replaceable cartridge with provision for thermal insulation
F17C 1/14 - Pressure vessels, e.g. gas cylinder, gas tank, replaceable cartridge constructed of aluminiumPressure vessels, e.g. gas cylinder, gas tank, replaceable cartridge constructed of non-magnetic steel
A tower structure with storing capacity for at least one medium is described. The tower structure comprising at least two substantially vertically oriented support structures for forming the tower structure, wherein at least one of the support structures comprises at least one constructive pressure vessel for forming the support structure. A method for building the tower structure also is disclosed. The pressure vessel based tower structure may have applications e.g. in wind mills and solar thermal towers.
F17C 1/00 - Pressure vessels, e.g. gas cylinder, gas tank, replaceable cartridge
E04H 7/02 - Containers for fluids or gasesSupports therefor
F24J 2/30 - with means to exchange heat between plural fluids
H02K 7/18 - Structural association of electric generators with mechanical driving motors, e.g.with turbines
F28D 20/00 - Heat storage plants or apparatus in generalRegenerative heat-exchange apparatus not covered by groups or
F24J 2/07 - Receivers working at high temperature, e.g. for solar power plants
F28D 7/00 - Heat-exchange apparatus having stationary tubular conduit assemblies for both heat-exchange media, the media being in contact with different sides of a conduit wall
An air venting device (100) for venting air from a fluid system, the air venting device comprising an air chamber (110), a sensor (120) and an air venting valve (130). The sensor (120) can detect a fluid level in the air chamber (110) without coming into contact with the fluid and the air venting valve (130) can be driven on the basis of this sensor measurement.
A tower structure (100) with storing capacity for at least one medium is described. The tower structure (100) comprising at least two substantially vertically oriented support structures for forming the tower structure (100), wherein at least one of the support structures comprises at least one constructive pressure vessel (10) for forming the support structure. A method for building the tower structure also is disclosed. The pressure vessel based tower structure (100) may have applications e.g. in wind mills and solar thermal towers.
A tower structure (100) with storing capacity for at least one medium is described. The tower structure (100) comprising at least two substantially vertically oriented support structures for forming the tower structure (100), wherein at least one of the support structures comprises at least one constructive pressure vessel (10) for forming the support structure. A method for building the tower structure also is disclosed. The pressure vessel based tower structure (100) may have applications e.g. in wind mills and solar thermal towers.
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