Patent application number | Description | Published |
20090175731 | Method for manufacturing of a fibre reinforced laminate, use of a wrinkle-preventing material, wind turbine blade and wind turbine - A method for manufacturing of a fiber reinforced laminate is provided. A part of the laminate is build up to a determined thickness. A layer of wrinkle-preventing material is placed on top of the partially completed laminate. The layer of wrinkle-preventing material has a greater stiffness than the stiffness of a layer of similar thickness of the uncured laminate. Further on a new part of the laminate is build up to a determined thickness. In case the thickness of the laminate built up is not as large as a desired thickness of the completed laminate, the placing of the layer and the building of a new part of laminate is repeated until the thickness of the laminate built up is equal to the desired thickness of the completed laminate. | 07-09-2009 |
20090250847 | Mould and method for vacuum assisted resin transfer moulding - A mould and method for vacuum assisted resin transfer moulding of a fibre reinforced laminated structure are provided. The mould includes a first mould part and a second mould part. The first mould part defines a negative impression of the laminated structure, being structurally stable and forming a support for fibre reinforcement layers of the laminated structure. The second mould part connectable to the first mould part for closing the mould and defines together with the first mould part an enclosed space which can be evacuated. The mould further includes a flow duct for guiding a liquid polymer which is formed as a recess in the first mould part and/or a recess in the second mould part that is open towards the enclosed space and extends along a section of the periphery of the first mould part and/or the second mould part. | 10-08-2009 |
20090262331 | Crack detection system - A crack detection system and a method for detecting cracks in a loaded engineering structure are provided. The system and method include a light source coupled and optical fibres that are led through the structure. The optical fibres have diameters below 75 μm. The light source is coupled to the optical fibres. | 10-22-2009 |
20110210464 | Mould and method for vacuum assisted resin transfer moulding - A mould and method for vacuum assisted resin transfer moulding of a fibre reinforced laminated structure are provided. The mould includes a first mould part and a second mould part. The first mould part defines a negative impression of the laminated structure, being structurally stable and forming a support for fibre reinforcement layers of the laminated structure. The second mould part connectable to the first mould part for closing the mould and defines together with the first mould part an enclosed space which can be evacuated. The mould further includes a flow duct for guiding a liquid polymer which is formed as a recess in the first mould part and/or a recess in the second mould part that is open towards the enclosed space and extends along a section of the periphery of the first mould part and/or the second mould part. | 09-01-2011 |
20140064918 | DEVICE AND SYSTEM FOR HARVESTING THE ENERGY OF A FLUID STREAM - Device for harvesting the energy of a fluid stream comprising a turbine with a rotation axis at right-angle to the fluid stream, the turbine comprising a plurality of blades that during its rotation sweeps an annular area around the rotation axis which has an inner and outer perimeter with a first and second radial distance to the rotation axis, and first and second fluid guide located opposite each other, with the plurality of blades arranged for rotation there between and arranged for guiding the fluid stream towards the at least one blade, wherein the first and second fluid guide are formed each with a guide foil section having a suction side, a pressure side and a guide foil incidence angle, wherein each fluid guide is arranged such that the suction sides of the guide foil sections are facing each other, wherein an open central area around the rotation axis is provided. | 03-06-2014 |
Patent application number | Description | Published |
20110027664 | METAL-AIR BATTERY WITH IMPROVED ENVIRONMENTAL STABILITY - A metal-air battery includes a metal electrode, an air electrode, and at least one of an ionic liquid and a deep eutectic solvent provided within the metal-air battery. The ionic liquid and/or deep eutectic solvent may be provided at one or more locations within the battery, such as in a liquid electrolyte, within a polymeric separator, blended within a polymeric material, within the structure of the air electrode, or elsewhere. | 02-03-2011 |
20110027666 | METAL-AIR BATTERY WITH ION EXCHANGE MATERIALS - A metal-air battery includes a metal anode including at least one of zinc, aluminum, magnesium, iron, and lithium. The metal-air battery also includes an ion exchange material provided within the battery for controlling material transport within the battery. The ion exchange material may be provided at one or more locations within the battery, including within an air electrode, within a material coupled to the air electrode, as a separate film or membrane, within pores of a polymeric separator, or elsewhere. | 02-03-2011 |
Patent application number | Description | Published |
20110199055 | METHODS FOR CHARGING METAL-AIR CELLS - A method of charging a metal-air battery is provided. The method comprises charging the metal-air battery using one of constant current charging or constant voltage charging during a first portion of a charging cycle. The method further comprises detecting the occurrence of a condition. The method further comprises charging the metal-air battery using the other of the constant current charging or constant voltage charging during a second portion of the charging cycle after detecting the occurrence of the condition. | 08-18-2011 |
20110236772 | MANUFACTURING METHODS FOR AIR ELECTRODE - A method of forming an air electrode of a metal-air battery includes forming a plurality of layers of the air electrode. The plurality of layers include an active layer and a gas diffusion layer. Forming the active layer includes forming a plurality of blank portions in a sublayer of the active layer for venting gases to the gas diffusion layer. | 09-29-2011 |
20110236798 | MANUFACTURING METHODS FOR AIR ELECTRODE - A method of forming an air electrode of a metal-air battery includes forming at least a portion of the air electrode using a process selected from the group consisting of screen printing, spray printing, spin coating, and dip coating. | 09-29-2011 |
20110236799 | MANUFACTURING METHODS FOR AIR ELECTRODE - Methods of forming an air electrode of a metal-air battery are provided. One method includes forming a plurality of layers of the air electrode. The plurality of layers include an active layer and a gas diffusion layer. Forming at least one of the active layer or the gas diffusion layer includes forming a first sublayer having a first concentration of a first material and forming a second sublayer having at least one of a second concentration of the first material that differs from the first concentration or a second material that differs from the first material. In another embodiment, a method includes forming a layer of an air electrode such that a gradient of a material is formed in at least a portion of the layer by varying a concentration of the material deposited between a first portion of the layer and a second portion of the layer. | 09-29-2011 |
Patent application number | Description | Published |
20100330437 | METAL-AIR FLOW CELL - A metal-air flow battery is provided that comprises a tank configured to contain an anode paste material; a reaction tube in fluid communication with the tank, the reaction tube comprising an air electrode, an outer surface configured to allow air to enter the reaction tube, and an internal passage; and a mechanism for moving the anode paste material through the internal passage of the reaction tube. | 12-30-2010 |
20110003213 | METAL-AIR BATTERY WITH SILOXANE MATERIAL - A metal-air battery includes an air electrode and a siloxane material proximate to or incorporated within the air electrode. A method is also disclosed that includes providing a siloxane material, providing a transfer layer, and co-extruding the siloxane material with the transfer layer to form a siloxane membrane. The siloxane membrane may be used in a metal-air battery. | 01-06-2011 |
20110027665 | AIR ELECTRODE WITH BINDER MATERIALS AND MANUFACTURING METHODS FOR AIR ELECTRODE - A method of producing all or a portion of an air electrode for a metal-air battery includes forming at least a portion of the air electrode using a process selected from the group consisting of an injection molding process and a screw extrusion process. This process may be used to form a gas diffusion layer of the air electrode, and active layer of the air electrode, or both. The air electrode may use polyethylene and/or polypropylene as a binder material in all or a portion of the air electrode. | 02-03-2011 |
20110199054 | METHODS FOR CHARGING METAL-AIR CELLS - A method of charging a metal-air battery is provided. The method of charging a metal-air battery includes charging the metal-air battery using a charge profile. The method further includes applying a pulse charge to the metal-air battery. The method further includes returning to charging the metal-air battery using the charge profile after the pulse charge has been applied. | 08-18-2011 |